package callbacks import ( "fmt" "reflect" "gorm.io/gorm" "gorm.io/gorm/clause" "gorm.io/gorm/schema" ) func BeforeCreate(db *gorm.DB) { if db.Error == nil && db.Statement.Schema != nil && !db.Statement.SkipHooks && (db.Statement.Schema.BeforeSave || db.Statement.Schema.BeforeCreate) { callMethod(db, func(value interface{}, tx *gorm.DB) (called bool) { if db.Statement.Schema.BeforeSave { if i, ok := value.(BeforeSaveInterface); ok { called = true db.AddError(i.BeforeSave(tx)) } } if db.Statement.Schema.BeforeCreate { if i, ok := value.(BeforeCreateInterface); ok { called = true db.AddError(i.BeforeCreate(tx)) } } return called }) } } func Create(config *Config) func(db *gorm.DB) { if config.WithReturning { return CreateWithReturning } return func(db *gorm.DB) { if db.Error != nil { return } if db.Statement.Schema != nil && !db.Statement.Unscoped { for _, c := range db.Statement.Schema.CreateClauses { db.Statement.AddClause(c) } } if db.Statement.SQL.String() == "" { db.Statement.SQL.Grow(180) db.Statement.AddClauseIfNotExists(clause.Insert{}) db.Statement.AddClause(ConvertToCreateValues(db.Statement)) db.Statement.Build(db.Statement.BuildClauses...) } if !db.DryRun && db.Error == nil { result, err := db.Statement.ConnPool.ExecContext(db.Statement.Context, db.Statement.SQL.String(), db.Statement.Vars...) if err != nil { db.AddError(err) return } db.RowsAffected, _ = result.RowsAffected() if db.RowsAffected != 0 && db.Statement.Schema != nil && db.Statement.Schema.PrioritizedPrimaryField != nil && db.Statement.Schema.PrioritizedPrimaryField.HasDefaultValue { if insertID, err := result.LastInsertId(); err == nil && insertID > 0 { switch db.Statement.ReflectValue.Kind() { case reflect.Slice, reflect.Array: if config.LastInsertIDReversed { for i := db.Statement.ReflectValue.Len() - 1; i >= 0; i-- { rv := db.Statement.ReflectValue.Index(i) if reflect.Indirect(rv).Kind() != reflect.Struct { break } _, isZero := db.Statement.Schema.PrioritizedPrimaryField.ValueOf(rv) if isZero { db.Statement.Schema.PrioritizedPrimaryField.Set(rv, insertID) insertID -= db.Statement.Schema.PrioritizedPrimaryField.AutoIncrementIncrement } } } else { for i := 0; i < db.Statement.ReflectValue.Len(); i++ { rv := db.Statement.ReflectValue.Index(i) if reflect.Indirect(rv).Kind() != reflect.Struct { break } if _, isZero := db.Statement.Schema.PrioritizedPrimaryField.ValueOf(rv); isZero { db.Statement.Schema.PrioritizedPrimaryField.Set(rv, insertID) insertID += db.Statement.Schema.PrioritizedPrimaryField.AutoIncrementIncrement } } } case reflect.Struct: if _, isZero := db.Statement.Schema.PrioritizedPrimaryField.ValueOf(db.Statement.ReflectValue); isZero { db.Statement.Schema.PrioritizedPrimaryField.Set(db.Statement.ReflectValue, insertID) } } } else { db.AddError(err) } } } } } func CreateWithReturning(db *gorm.DB) { if db.Error == nil { if db.Statement.Schema != nil && !db.Statement.Unscoped { for _, c := range db.Statement.Schema.CreateClauses { db.Statement.AddClause(c) } } if db.Statement.SQL.String() == "" { db.Statement.AddClauseIfNotExists(clause.Insert{}) db.Statement.AddClause(ConvertToCreateValues(db.Statement)) db.Statement.Build(db.Statement.BuildClauses...) } if sch := db.Statement.Schema; sch != nil && len(sch.FieldsWithDefaultDBValue) > 0 { db.Statement.WriteString(" RETURNING ") var ( fields = make([]*schema.Field, len(sch.FieldsWithDefaultDBValue)) values = make([]interface{}, len(sch.FieldsWithDefaultDBValue)) ) for idx, field := range sch.FieldsWithDefaultDBValue { if idx > 0 { db.Statement.WriteByte(',') } fields[idx] = field db.Statement.WriteQuoted(field.DBName) } if !db.DryRun && db.Error == nil { db.RowsAffected = 0 rows, err := db.Statement.ConnPool.QueryContext(db.Statement.Context, db.Statement.SQL.String(), db.Statement.Vars...) if err == nil { defer rows.Close() switch db.Statement.ReflectValue.Kind() { case reflect.Slice, reflect.Array: c := db.Statement.Clauses["ON CONFLICT"] onConflict, _ := c.Expression.(clause.OnConflict) for rows.Next() { BEGIN: reflectValue := db.Statement.ReflectValue.Index(int(db.RowsAffected)) if reflect.Indirect(reflectValue).Kind() != reflect.Struct { break } resetFields := map[int]*schema.Field{} for idx, field := range fields { fieldValue := field.ReflectValueOf(reflectValue) if onConflict.DoNothing && !fieldValue.IsZero() { db.RowsAffected++ if int(db.RowsAffected) >= db.Statement.ReflectValue.Len() { return } goto BEGIN } if field.FieldType.Kind() == reflect.Ptr { values[idx] = fieldValue.Addr().Interface() } else { reflectValue := reflect.New(reflect.PtrTo(field.FieldType)) reflectValue.Elem().Set(fieldValue.Addr()) values[idx] = reflectValue.Interface() resetFields[idx] = field } } db.RowsAffected++ if err := rows.Scan(values...); err != nil { db.AddError(err) } for idx, field := range resetFields { if v := reflect.ValueOf(values[idx]).Elem().Elem(); v.IsValid() { field.ReflectValueOf(reflectValue).Set(v) } } } case reflect.Struct: resetFields := map[int]*schema.Field{} for idx, field := range fields { if field.FieldType.Kind() == reflect.Ptr { values[idx] = field.ReflectValueOf(db.Statement.ReflectValue).Addr().Interface() } else { reflectValue := reflect.New(reflect.PtrTo(field.FieldType)) reflectValue.Elem().Set(field.ReflectValueOf(db.Statement.ReflectValue).Addr()) values[idx] = reflectValue.Interface() resetFields[idx] = field } } if rows.Next() { db.RowsAffected++ db.AddError(rows.Scan(values...)) for idx, field := range resetFields { if v := reflect.ValueOf(values[idx]).Elem().Elem(); v.IsValid() { field.ReflectValueOf(db.Statement.ReflectValue).Set(v) } } } } } else { db.AddError(err) } } } else if !db.DryRun && db.Error == nil { if result, err := db.Statement.ConnPool.ExecContext(db.Statement.Context, db.Statement.SQL.String(), db.Statement.Vars...); err == nil { db.RowsAffected, _ = result.RowsAffected() } else { db.AddError(err) } } } } func AfterCreate(db *gorm.DB) { if db.Error == nil && db.Statement.Schema != nil && !db.Statement.SkipHooks && (db.Statement.Schema.AfterSave || db.Statement.Schema.AfterCreate) { callMethod(db, func(value interface{}, tx *gorm.DB) (called bool) { if db.Statement.Schema.AfterSave { if i, ok := value.(AfterSaveInterface); ok { called = true db.AddError(i.AfterSave(tx)) } } if db.Statement.Schema.AfterCreate { if i, ok := value.(AfterCreateInterface); ok { called = true db.AddError(i.AfterCreate(tx)) } } return called }) } } // ConvertToCreateValues convert to create values func ConvertToCreateValues(stmt *gorm.Statement) (values clause.Values) { curTime := stmt.DB.NowFunc() switch value := stmt.Dest.(type) { case map[string]interface{}: values = ConvertMapToValuesForCreate(stmt, value) case *map[string]interface{}: values = ConvertMapToValuesForCreate(stmt, *value) case []map[string]interface{}: values = ConvertSliceOfMapToValuesForCreate(stmt, value) case *[]map[string]interface{}: values = ConvertSliceOfMapToValuesForCreate(stmt, *value) default: var ( selectColumns, restricted = stmt.SelectAndOmitColumns(true, false) _, updateTrackTime = stmt.Get("gorm:update_track_time") isZero bool ) stmt.Settings.Delete("gorm:update_track_time") values = clause.Values{Columns: make([]clause.Column, 0, len(stmt.Schema.DBNames))} for _, db := range stmt.Schema.DBNames { if field := stmt.Schema.FieldsByDBName[db]; !field.HasDefaultValue || field.DefaultValueInterface != nil { if v, ok := selectColumns[db]; (ok && v) || (!ok && (!restricted || field.AutoCreateTime > 0 || field.AutoUpdateTime > 0)) { values.Columns = append(values.Columns, clause.Column{Name: db}) } } } switch stmt.ReflectValue.Kind() { case reflect.Slice, reflect.Array: stmt.SQL.Grow(stmt.ReflectValue.Len() * 18) values.Values = make([][]interface{}, stmt.ReflectValue.Len()) defaultValueFieldsHavingValue := map[*schema.Field][]interface{}{} if stmt.ReflectValue.Len() == 0 { stmt.AddError(gorm.ErrEmptySlice) return } for i := 0; i < stmt.ReflectValue.Len(); i++ { rv := reflect.Indirect(stmt.ReflectValue.Index(i)) if !rv.IsValid() { stmt.AddError(fmt.Errorf("slice data #%v is invalid: %w", i, gorm.ErrInvalidData)) return } values.Values[i] = make([]interface{}, len(values.Columns)) for idx, column := range values.Columns { field := stmt.Schema.FieldsByDBName[column.Name] if values.Values[i][idx], isZero = field.ValueOf(rv); isZero { if field.DefaultValueInterface != nil { values.Values[i][idx] = field.DefaultValueInterface field.Set(rv, field.DefaultValueInterface) } else if field.AutoCreateTime > 0 || field.AutoUpdateTime > 0 { field.Set(rv, curTime) values.Values[i][idx], _ = field.ValueOf(rv) } } else if field.AutoUpdateTime > 0 && updateTrackTime { field.Set(rv, curTime) values.Values[i][idx], _ = field.ValueOf(rv) } } for _, field := range stmt.Schema.FieldsWithDefaultDBValue { if v, ok := selectColumns[field.DBName]; (ok && v) || (!ok && !restricted) { if v, isZero := field.ValueOf(rv); !isZero { if len(defaultValueFieldsHavingValue[field]) == 0 { defaultValueFieldsHavingValue[field] = make([]interface{}, stmt.ReflectValue.Len()) } defaultValueFieldsHavingValue[field][i] = v } } } } for field, vs := range defaultValueFieldsHavingValue { values.Columns = append(values.Columns, clause.Column{Name: field.DBName}) for idx := range values.Values { if vs[idx] == nil { values.Values[idx] = append(values.Values[idx], stmt.Dialector.DefaultValueOf(field)) } else { values.Values[idx] = append(values.Values[idx], vs[idx]) } } } case reflect.Struct: values.Values = [][]interface{}{make([]interface{}, len(values.Columns))} for idx, column := range values.Columns { field := stmt.Schema.FieldsByDBName[column.Name] if values.Values[0][idx], isZero = field.ValueOf(stmt.ReflectValue); isZero { if field.DefaultValueInterface != nil { values.Values[0][idx] = field.DefaultValueInterface field.Set(stmt.ReflectValue, field.DefaultValueInterface) } else if field.AutoCreateTime > 0 || field.AutoUpdateTime > 0 { field.Set(stmt.ReflectValue, curTime) values.Values[0][idx], _ = field.ValueOf(stmt.ReflectValue) } } else if field.AutoUpdateTime > 0 && updateTrackTime { field.Set(stmt.ReflectValue, curTime) values.Values[0][idx], _ = field.ValueOf(stmt.ReflectValue) } } for _, field := range stmt.Schema.FieldsWithDefaultDBValue { if v, ok := selectColumns[field.DBName]; (ok && v) || (!ok && !restricted) { if v, isZero := field.ValueOf(stmt.ReflectValue); !isZero { values.Columns = append(values.Columns, clause.Column{Name: field.DBName}) values.Values[0] = append(values.Values[0], v) } } } default: stmt.AddError(gorm.ErrInvalidData) } } if c, ok := stmt.Clauses["ON CONFLICT"]; ok { if onConflict, _ := c.Expression.(clause.OnConflict); onConflict.UpdateAll { if stmt.Schema != nil && len(values.Columns) >= 1 { selectColumns, restricted := stmt.SelectAndOmitColumns(true, true) columns := make([]string, 0, len(values.Columns)-1) for _, column := range values.Columns { if field := stmt.Schema.LookUpField(column.Name); field != nil { if v, ok := selectColumns[field.DBName]; (ok && v) || (!ok && !restricted) { if !field.PrimaryKey && (!field.HasDefaultValue || field.DefaultValueInterface != nil) && field.AutoCreateTime == 0 { if field.AutoUpdateTime > 0 { assignment := clause.Assignment{Column: clause.Column{Name: field.DBName}, Value: curTime} switch field.AutoUpdateTime { case schema.UnixNanosecond: assignment.Value = curTime.UnixNano() case schema.UnixMillisecond: assignment.Value = curTime.UnixNano() / 1e6 case schema.UnixSecond: assignment.Value = curTime.Unix() } onConflict.DoUpdates = append(onConflict.DoUpdates, assignment) } else { columns = append(columns, column.Name) } } } } } onConflict.DoUpdates = append(onConflict.DoUpdates, clause.AssignmentColumns(columns)...) // use primary fields as default OnConflict columns if len(onConflict.Columns) == 0 { for _, field := range stmt.Schema.PrimaryFields { onConflict.Columns = append(onConflict.Columns, clause.Column{Name: field.DBName}) } } stmt.AddClause(onConflict) } } } return values }