package gorm import ( "database/sql" "errors" "fmt" "go/ast" "reflect" "strconv" "strings" "sync" "time" "github.com/jinzhu/inflection" ) var DefaultTableNameHandler = func(db *DB, defaultTableName string) string { return defaultTableName } type safeModelStructsMap struct { m map[reflect.Type]*ModelStruct l *sync.RWMutex } func (s *safeModelStructsMap) Set(key reflect.Type, value *ModelStruct) { s.l.Lock() defer s.l.Unlock() s.m[key] = value } func (s *safeModelStructsMap) Get(key reflect.Type) *ModelStruct { s.l.RLock() defer s.l.RUnlock() return s.m[key] } func newModelStructsMap() *safeModelStructsMap { return &safeModelStructsMap{l: new(sync.RWMutex), m: make(map[reflect.Type]*ModelStruct)} } var modelStructsMap = newModelStructsMap() type ModelStruct struct { PrimaryFields []*StructField StructFields []*StructField ModelType reflect.Type defaultTableName string } func (s *ModelStruct) TableName(db *DB) string { return DefaultTableNameHandler(db, s.defaultTableName) } type StructField struct { DBName string Name string Names []string IsPrimaryKey bool IsNormal bool IsIgnored bool IsScanner bool HasDefaultValue bool Tag reflect.StructTag TagSettings map[string]string Struct reflect.StructField IsForeignKey bool Relationship *Relationship } func (structField *StructField) clone() *StructField { return &StructField{ DBName: structField.DBName, Name: structField.Name, Names: structField.Names, IsPrimaryKey: structField.IsPrimaryKey, IsNormal: structField.IsNormal, IsIgnored: structField.IsIgnored, IsScanner: structField.IsScanner, HasDefaultValue: structField.HasDefaultValue, Tag: structField.Tag, Struct: structField.Struct, IsForeignKey: structField.IsForeignKey, Relationship: structField.Relationship, } } // Relationship described the relationship between models type Relationship struct { Kind string PolymorphicType string PolymorphicDBName string ForeignFieldNames []string ForeignDBNames []string AssociationForeignFieldNames []string AssociationForeignDBNames []string JoinTableHandler JoinTableHandlerInterface } func getForeignField(column string, fields []*StructField) *StructField { for _, field := range fields { if field.Name == column || field.DBName == ToDBName(column) { return field } } return nil } // GetModelStruct generate model struct & relationships based on struct and tag definition func (scope *Scope) GetModelStruct() *ModelStruct { var modelStruct ModelStruct // Scope value can't be nil if scope.Value == nil { return &modelStruct } reflectType := reflect.ValueOf(scope.Value).Type() for reflectType.Kind() == reflect.Slice || reflectType.Kind() == reflect.Ptr { reflectType = reflectType.Elem() } // Scope value need to be a struct if reflectType.Kind() != reflect.Struct { return &modelStruct } // Get Cached model struct if value := modelStructsMap.Get(reflectType); value != nil { return value } modelStruct.ModelType = reflectType // Set default table name if tabler, ok := reflect.New(reflectType).Interface().(tabler); ok { modelStruct.defaultTableName = tabler.TableName() } else { tableName := ToDBName(reflectType.Name()) if scope.db == nil || !scope.db.parent.singularTable { tableName = inflection.Plural(tableName) } modelStruct.defaultTableName = tableName } // Get all fields for i := 0; i < reflectType.NumField(); i++ { if fieldStruct := reflectType.Field(i); ast.IsExported(fieldStruct.Name) { field := &StructField{ Struct: fieldStruct, Name: fieldStruct.Name, Names: []string{fieldStruct.Name}, Tag: fieldStruct.Tag, TagSettings: parseTagSetting(fieldStruct.Tag), } // is ignored field if fieldStruct.Tag.Get("sql") == "-" { field.IsIgnored = true } else { if _, ok := field.TagSettings["PRIMARY_KEY"]; ok { field.IsPrimaryKey = true modelStruct.PrimaryFields = append(modelStruct.PrimaryFields, field) } if _, ok := field.TagSettings["DEFAULT"]; ok { field.HasDefaultValue = true } fieldValue := reflect.New(fieldStruct.Type).Interface() if _, isScanner := fieldValue.(sql.Scanner); isScanner { // is scanner field.IsScanner, field.IsNormal = true, true } else if _, isTime := fieldValue.(*time.Time); isTime { // is time field.IsNormal = true } else if _, ok := field.TagSettings["EMBEDDED"]; ok || fieldStruct.Anonymous { // is embedded struct for _, subField := range scope.New(fieldValue).GetStructFields() { subField = subField.clone() subField.Names = append([]string{fieldStruct.Name}, subField.Names...) if subField.IsPrimaryKey { modelStruct.PrimaryFields = append(modelStruct.PrimaryFields, subField) } modelStruct.StructFields = append(modelStruct.StructFields, subField) } continue } else { // build relationships indirectType := fieldStruct.Type for indirectType.Kind() == reflect.Ptr { indirectType = indirectType.Elem() } switch indirectType.Kind() { case reflect.Slice: defer func(field *StructField) { var ( relationship = &Relationship{} toScope = scope.New(reflect.New(field.Struct.Type).Interface()) foreignKeys []string associationForeignKeys []string elemType = field.Struct.Type ) if foreignKey := field.TagSettings["FOREIGNKEY"]; foreignKey != "" { foreignKeys = strings.Split(field.TagSettings["FOREIGNKEY"], ",") } if foreignKey := field.TagSettings["ASSOCIATIONFOREIGNKEY"]; foreignKey != "" { associationForeignKeys = strings.Split(field.TagSettings["ASSOCIATIONFOREIGNKEY"], ",") } for elemType.Kind() == reflect.Slice || elemType.Kind() == reflect.Ptr { elemType = elemType.Elem() } if elemType.Kind() == reflect.Struct { if many2many := field.TagSettings["MANY2MANY"]; many2many != "" { relationship.Kind = "many_to_many" // if no foreign keys defined with tag if len(foreignKeys) == 0 { for _, field := range modelStruct.PrimaryFields { foreignKeys = append(foreignKeys, field.DBName) } } for _, foreignKey := range foreignKeys { if foreignField := getForeignField(foreignKey, modelStruct.StructFields); foreignField != nil { // source foreign keys (db names) relationship.ForeignFieldNames = append(relationship.ForeignFieldNames, foreignField.DBName) // join table foreign keys for source joinTableDBName := ToDBName(reflectType.Name()) + "_" + foreignField.DBName relationship.ForeignDBNames = append(relationship.ForeignDBNames, joinTableDBName) } } // if no association foreign keys defined with tag if len(associationForeignKeys) == 0 { for _, field := range toScope.PrimaryFields() { associationForeignKeys = append(associationForeignKeys, field.DBName) } } for _, name := range associationForeignKeys { if field, ok := toScope.FieldByName(name); ok { // association foreign keys (db names) relationship.AssociationForeignFieldNames = append(relationship.AssociationForeignFieldNames, field.DBName) // join table foreign keys for association joinTableDBName := ToDBName(elemType.Name()) + "_" + field.DBName relationship.AssociationForeignDBNames = append(relationship.AssociationForeignDBNames, joinTableDBName) } } joinTableHandler := JoinTableHandler{} joinTableHandler.Setup(relationship, many2many, reflectType, elemType) relationship.JoinTableHandler = &joinTableHandler field.Relationship = relationship } else { // User has many comments, associationType is User, comment use UserID as foreign key var associationType = reflectType.Name() var toFields = toScope.GetStructFields() relationship.Kind = "has_many" if polymorphic := field.TagSettings["POLYMORPHIC"]; polymorphic != "" { // Dog has many toys, tag polymorphic is Owner, then associationType is Owner // Toy use OwnerID, OwnerType ('dogs') as foreign key if polymorphicType := getForeignField(polymorphic+"Type", toFields); polymorphicType != nil { associationType = polymorphic relationship.PolymorphicType = polymorphicType.Name relationship.PolymorphicDBName = polymorphicType.DBName polymorphicType.IsForeignKey = true } } // if no foreign keys defined with tag if len(foreignKeys) == 0 { // if no association foreign keys defined with tag if len(associationForeignKeys) == 0 { for _, field := range modelStruct.PrimaryFields { foreignKeys = append(foreignKeys, associationType+field.Name) associationForeignKeys = append(associationForeignKeys, field.Name) } } else { // generate foreign keys from defined association foreign keys for _, scopeFieldName := range associationForeignKeys { if foreignField := getForeignField(scopeFieldName, modelStruct.StructFields); foreignField != nil { foreignKeys = append(foreignKeys, associationType+foreignField.Name) associationForeignKeys = append(associationForeignKeys, foreignField.Name) } } } } else { // generate association foreign keys from foreign keys if len(associationForeignKeys) == 0 { for _, foreignKey := range foreignKeys { if strings.HasPrefix(foreignKey, associationType) { associationForeignKeys = append(associationForeignKeys, strings.TrimPrefix(foreignKey, associationType)) } else { scope.Err(fmt.Errorf("invalid foreign keys, foreign key %v should start with %v", foreignKey, associationType)) } } } else if len(foreignKeys) != len(associationForeignKeys) { scope.Err(errors.New("invalid foreign keys, should have same length")) return } } for idx, foreignKey := range foreignKeys { if foreignField := getForeignField(foreignKey, toFields); foreignField != nil { if associationField := getForeignField(associationForeignKeys[idx], modelStruct.StructFields); associationField != nil { // source foreign keys foreignField.IsForeignKey = true relationship.AssociationForeignFieldNames = append(relationship.AssociationForeignFieldNames, associationField.Name) relationship.AssociationForeignDBNames = append(relationship.AssociationForeignDBNames, associationField.DBName) // association foreign keys relationship.ForeignFieldNames = append(relationship.ForeignFieldNames, foreignField.Name) relationship.ForeignDBNames = append(relationship.ForeignDBNames, foreignField.DBName) } } } if len(relationship.ForeignFieldNames) != 0 { field.Relationship = relationship } } } else { field.IsNormal = true } }(field) case reflect.Struct: defer func(field *StructField) { var ( // user has one profile, associationType is User, profile use UserID as foreign key // user belongs to profile, associationType is Profile, user use ProfileID as foreign key associationType = reflectType.Name() relationship = &Relationship{} toScope = scope.New(reflect.New(field.Struct.Type).Interface()) toFields = toScope.GetStructFields() tagForeignKeys []string tagAssociationForeignKeys []string ) if foreignKey := field.TagSettings["FOREIGNKEY"]; foreignKey != "" { tagForeignKeys = strings.Split(field.TagSettings["FOREIGNKEY"], ",") } if foreignKey := field.TagSettings["ASSOCIATIONFOREIGNKEY"]; foreignKey != "" { tagAssociationForeignKeys = strings.Split(field.TagSettings["ASSOCIATIONFOREIGNKEY"], ",") } if polymorphic := field.TagSettings["POLYMORPHIC"]; polymorphic != "" { // Cat has one toy, tag polymorphic is Owner, then associationType is Owner // Toy use OwnerID, OwnerType ('cats') as foreign key if polymorphicType := getForeignField(polymorphic+"Type", toFields); polymorphicType != nil { associationType = polymorphic relationship.PolymorphicType = polymorphicType.Name relationship.PolymorphicDBName = polymorphicType.DBName polymorphicType.IsForeignKey = true } } // Has One { var foreignKeys = tagForeignKeys var associationForeignKeys = tagAssociationForeignKeys // if no foreign keys defined with tag if len(foreignKeys) == 0 { // if no association foreign keys defined with tag if len(associationForeignKeys) == 0 { for _, primaryField := range modelStruct.PrimaryFields { foreignKeys = append(foreignKeys, associationType+primaryField.Name) associationForeignKeys = append(associationForeignKeys, primaryField.Name) } } else { // generate foreign keys form association foreign keys for _, associationForeignKey := range tagAssociationForeignKeys { if foreignField := getForeignField(associationForeignKey, modelStruct.StructFields); foreignField != nil { foreignKeys = append(foreignKeys, associationType+foreignField.Name) associationForeignKeys = append(associationForeignKeys, foreignField.Name) } } } } else { // generate association foreign keys from foreign keys if len(associationForeignKeys) == 0 { for _, foreignKey := range foreignKeys { if strings.HasPrefix(foreignKey, associationType) { associationForeignKeys = append(associationForeignKeys, strings.TrimPrefix(foreignKey, associationType)) } else { scope.Err(fmt.Errorf("invalid foreign keys, foreign key %v should start with %v", foreignKey, associationType)) } } } else if len(foreignKeys) != len(associationForeignKeys) { scope.Err(errors.New("invalid foreign keys, should have same length")) return } } for idx, foreignKey := range foreignKeys { if foreignField := getForeignField(foreignKey, toFields); foreignField != nil { if scopeField := getForeignField(associationForeignKeys[idx], modelStruct.StructFields); scopeField != nil { foreignField.IsForeignKey = true // source foreign keys relationship.AssociationForeignFieldNames = append(relationship.AssociationForeignFieldNames, scopeField.Name) relationship.AssociationForeignDBNames = append(relationship.AssociationForeignDBNames, scopeField.DBName) // association foreign keys relationship.ForeignFieldNames = append(relationship.ForeignFieldNames, foreignField.Name) relationship.ForeignDBNames = append(relationship.ForeignDBNames, foreignField.DBName) } } } } if len(relationship.ForeignFieldNames) != 0 { relationship.Kind = "has_one" field.Relationship = relationship } else { var foreignKeys = tagForeignKeys var associationForeignKeys = tagAssociationForeignKeys if len(foreignKeys) == 0 { // generate foreign keys & association foreign keys if len(associationForeignKeys) == 0 { for _, primaryField := range toScope.PrimaryFields() { foreignKeys = append(foreignKeys, field.Name+primaryField.Name) associationForeignKeys = append(associationForeignKeys, primaryField.Name) } } else { // generate foreign keys with association foreign keys for _, associationForeignKey := range associationForeignKeys { if foreignField := getForeignField(associationForeignKey, toFields); foreignField != nil { foreignKeys = append(foreignKeys, field.Name+foreignField.Name) associationForeignKeys = append(associationForeignKeys, foreignField.Name) } } } } else { // generate foreign keys & association foreign keys if len(associationForeignKeys) == 0 { for _, foreignKey := range foreignKeys { if strings.HasPrefix(foreignKey, field.Name) { associationForeignKeys = append(associationForeignKeys, strings.TrimPrefix(foreignKey, field.Name)) } else { scope.Err(fmt.Errorf("invalid foreign keys, foreign key %v should start with %v", foreignKey, field.Name)) } } } else if len(foreignKeys) != len(associationForeignKeys) { scope.Err(errors.New("invalid foreign keys, should have same length")) return } } for idx, foreignKey := range foreignKeys { if foreignField := getForeignField(foreignKey, modelStruct.StructFields); foreignField != nil { if associationField := getForeignField(associationForeignKeys[idx], toFields); associationField != nil { foreignField.IsForeignKey = true // association foreign keys relationship.AssociationForeignFieldNames = append(relationship.AssociationForeignFieldNames, associationField.Name) relationship.AssociationForeignDBNames = append(relationship.AssociationForeignDBNames, associationField.DBName) // source foreign keys relationship.ForeignFieldNames = append(relationship.ForeignFieldNames, foreignField.Name) relationship.ForeignDBNames = append(relationship.ForeignDBNames, foreignField.DBName) } } } if len(relationship.ForeignFieldNames) != 0 { relationship.Kind = "belongs_to" field.Relationship = relationship } } }(field) default: field.IsNormal = true } } } // Even it is ignored, also possible to decode db value into the field if value, ok := field.TagSettings["COLUMN"]; ok { field.DBName = value } else { field.DBName = ToDBName(fieldStruct.Name) } modelStruct.StructFields = append(modelStruct.StructFields, field) } } if len(modelStruct.PrimaryFields) == 0 { if field := getForeignField("id", modelStruct.StructFields); field != nil { field.IsPrimaryKey = true modelStruct.PrimaryFields = append(modelStruct.PrimaryFields, field) } } modelStructsMap.Set(reflectType, &modelStruct) return &modelStruct } func (scope *Scope) GetStructFields() (fields []*StructField) { return scope.GetModelStruct().StructFields } func (scope *Scope) generateSqlTag(field *StructField) string { var sqlType string structType := field.Struct.Type if structType.Kind() == reflect.Ptr { structType = structType.Elem() } reflectValue := reflect.Indirect(reflect.New(structType)) if value, ok := field.TagSettings["TYPE"]; ok { sqlType = value } additionalType := field.TagSettings["NOT NULL"] + " " + field.TagSettings["UNIQUE"] if value, ok := field.TagSettings["DEFAULT"]; ok { additionalType = additionalType + " DEFAULT " + value } if field.IsScanner { var getScannerValue func(reflect.Value) getScannerValue = func(value reflect.Value) { reflectValue = value if _, isScanner := reflect.New(reflectValue.Type()).Interface().(sql.Scanner); isScanner && reflectValue.Kind() == reflect.Struct { getScannerValue(reflectValue.Field(0)) } } getScannerValue(reflectValue) } if sqlType == "" { var size = 255 if value, ok := field.TagSettings["SIZE"]; ok { size, _ = strconv.Atoi(value) } v, autoIncrease := field.TagSettings["AUTO_INCREMENT"] if field.IsPrimaryKey { autoIncrease = true } if v == "FALSE" { autoIncrease = false } sqlType = scope.Dialect().SqlTag(reflectValue, size, autoIncrease) } if strings.TrimSpace(additionalType) == "" { return sqlType } else { return fmt.Sprintf("%v %v", sqlType, additionalType) } } func parseTagSetting(tags reflect.StructTag) map[string]string { setting := map[string]string{} for _, str := range []string{tags.Get("sql"), tags.Get("gorm")} { tags := strings.Split(str, ";") for _, value := range tags { v := strings.Split(value, ":") k := strings.TrimSpace(strings.ToUpper(v[0])) if len(v) >= 2 { setting[k] = strings.Join(v[1:], ":") } else { setting[k] = k } } } return setting }