package gorm import ( "errors" "fmt" "reflect" "strings" ) type Association struct { Scope *Scope Column string Error error Field *Field } func (association *Association) setErr(err error) *Association { if err != nil { association.Error = err } return association } func (association *Association) Find(value interface{}) *Association { association.Scope.related(value, association.Column) return association.setErr(association.Scope.db.Error) } func (association *Association) Append(values ...interface{}) *Association { scope := association.Scope field := association.Field for _, value := range values { reflectvalue := reflect.Indirect(reflect.ValueOf(value)) if reflectvalue.Kind() == reflect.Struct { field.Set(reflect.Append(field.Field, reflectvalue)) } else if reflectvalue.Kind() == reflect.Slice { field.Set(reflect.AppendSlice(field.Field, reflectvalue)) } else { association.setErr(errors.New("invalid association type")) } } scope.Search.Select(association.Column) scope.callCallbacks(scope.db.parent.callback.updates) return association.setErr(scope.db.Error) } func (association *Association) Delete(values ...interface{}) *Association { scope := association.Scope relationship := association.Field.Relationship // many to many if relationship.Kind == "many_to_many" { query := scope.NewDB() for idx, foreignKey := range relationship.ForeignDBNames { if field, ok := scope.FieldByName(relationship.ForeignFieldNames[idx]); ok { query = query.Where(fmt.Sprintf("%v = ?", scope.Quote(foreignKey)), field.Field.Interface()) } } primaryKeys := association.getPrimaryKeys(relationship.AssociationForeignFieldNames, values...) sql := fmt.Sprintf("%v IN (%v)", toQueryCondition(scope, relationship.AssociationForeignDBNames), toQueryMarks(primaryKeys)) query = query.Where(sql, toQueryValues(primaryKeys)...) if err := relationship.JoinTableHandler.Delete(relationship.JoinTableHandler, query, relationship); err == nil { leftValues := reflect.Zero(association.Field.Field.Type()) for i := 0; i < association.Field.Field.Len(); i++ { reflectValue := association.Field.Field.Index(i) primaryKey := association.getPrimaryKeys(relationship.ForeignFieldNames, reflectValue.Interface())[0] var included = false for _, pk := range primaryKeys { if equalAsString(primaryKey, pk) { included = true } } if !included { leftValues = reflect.Append(leftValues, reflectValue) } } association.Field.Set(leftValues) } } else { association.setErr(errors.New("delete only support many to many")) } return association } func (association *Association) Replace(values ...interface{}) *Association { relationship := association.Field.Relationship scope := association.Scope if relationship.Kind == "many_to_many" { field := association.Field.Field oldPrimaryKeys := association.getPrimaryKeys(relationship.AssociationForeignFieldNames, field.Interface()) association.Field.Set(reflect.Zero(association.Field.Field.Type())) association.Append(values...) newPrimaryKeys := association.getPrimaryKeys(relationship.AssociationForeignFieldNames, field.Interface()) var addedPrimaryKeys = [][]interface{}{} for _, newKey := range newPrimaryKeys { hasEqual := false for _, oldKey := range oldPrimaryKeys { if equalAsString(newKey, oldKey) { hasEqual = true break } } if !hasEqual { addedPrimaryKeys = append(addedPrimaryKeys, newKey) } } for _, primaryKey := range association.getPrimaryKeys(relationship.AssociationForeignFieldNames, values...) { addedPrimaryKeys = append(addedPrimaryKeys, primaryKey) } if len(addedPrimaryKeys) > 0 { query := scope.NewDB() for idx, foreignKey := range relationship.ForeignDBNames { if field, ok := scope.FieldByName(relationship.ForeignFieldNames[idx]); ok { query = query.Where(fmt.Sprintf("%v = ?", scope.Quote(foreignKey)), field.Field.Interface()) } } sql := fmt.Sprintf("%v NOT IN (%v)", toQueryCondition(scope, relationship.AssociationForeignDBNames), toQueryMarks(addedPrimaryKeys)) query = query.Where(sql, toQueryValues(addedPrimaryKeys)...) association.setErr(relationship.JoinTableHandler.Delete(relationship.JoinTableHandler, query, relationship)) } } else { association.setErr(errors.New("replace only support many to many")) } return association } func (association *Association) Clear() *Association { relationship := association.Field.Relationship scope := association.Scope if relationship.Kind == "many_to_many" { query := scope.NewDB() for idx, foreignKey := range relationship.ForeignDBNames { if field, ok := scope.FieldByName(relationship.ForeignFieldNames[idx]); ok { query = query.Where(fmt.Sprintf("%v = ?", scope.Quote(foreignKey)), field.Field.Interface()) } } if err := relationship.JoinTableHandler.Delete(relationship.JoinTableHandler, query, relationship); err == nil { association.Field.Set(reflect.Zero(association.Field.Field.Type())) } else { association.setErr(err) } } else { association.setErr(errors.New("clear only support many to many")) } return association } func (association *Association) Count() int { count := -1 relationship := association.Field.Relationship scope := association.Scope newScope := scope.New(association.Field.Field.Interface()) if relationship.Kind == "many_to_many" { relationship.JoinTableHandler.JoinWith(relationship.JoinTableHandler, scope.NewDB(), association.Scope.Value).Table(newScope.TableName()).Count(&count) } else if relationship.Kind == "has_many" || relationship.Kind == "has_one" { query := scope.DB() for idx, foreignKey := range relationship.ForeignDBNames { if field, ok := scope.FieldByName(relationship.AssociationForeignDBNames[idx]); ok { query = query.Where(fmt.Sprintf("%v.%v = ?", newScope.QuotedTableName(), scope.Quote(foreignKey)), field.Field.Interface()) } } if relationship.PolymorphicType != "" { query = query.Where(fmt.Sprintf("%v.%v = ?", newScope.QuotedTableName(), newScope.Quote(relationship.PolymorphicDBName)), scope.TableName()) } query.Count(&count) } else if relationship.Kind == "belongs_to" { query := scope.DB() for idx, foreignKey := range relationship.ForeignDBNames { if field, ok := scope.FieldByName(relationship.AssociationForeignDBNames[idx]); ok { query = query.Where(fmt.Sprintf("%v.%v = ?", newScope.QuotedTableName(), scope.Quote(foreignKey)), field.Field.Interface()) } } query.Table(newScope.TableName()).Count(&count) } return count } func (association *Association) getPrimaryKeys(columns []string, values ...interface{}) [][]interface{} { results := [][]interface{}{} scope := association.Scope for _, value := range values { reflectValue := reflect.Indirect(reflect.ValueOf(value)) if reflectValue.Kind() == reflect.Slice { for i := 0; i < reflectValue.Len(); i++ { primaryKeys := []interface{}{} newScope := scope.New(reflectValue.Index(i).Interface()) for _, column := range columns { if field, ok := newScope.FieldByName(column); ok { primaryKeys = append(primaryKeys, field.Field.Interface()) } else { primaryKeys = append(primaryKeys, "") } } results = append(results, primaryKeys) } } else if reflectValue.Kind() == reflect.Struct { newScope := scope.New(value) var primaryKeys []interface{} for _, column := range columns { if field, ok := newScope.FieldByName(column); ok { primaryKeys = append(primaryKeys, field.Field.Interface()) } else { primaryKeys = append(primaryKeys, "") } } results = append(results, primaryKeys) } } return results } func toQueryMarks(primaryValues [][]interface{}) string { var results []string for _, primaryValue := range primaryValues { var marks []string for range primaryValue { marks = append(marks, "?") } if len(marks) > 1 { results = append(results, fmt.Sprintf("(%v)", strings.Join(marks, ","))) } else { results = append(results, strings.Join(marks, "")) } } return strings.Join(results, ",") } func toQueryCondition(scope *Scope, columns []string) string { var newColumns []string for _, column := range columns { newColumns = append(newColumns, scope.Quote(column)) } if len(columns) > 1 { return fmt.Sprintf("(%v)", strings.Join(newColumns, ",")) } else { return strings.Join(columns, ",") } } func toQueryValues(primaryValues [][]interface{}) (values []interface{}) { for _, primaryValue := range primaryValues { for _, value := range primaryValue { values = append(values, value) } } return values }