// Code generated by gorm.io/gen. DO NOT EDIT. // Code generated by gorm.io/gen. DO NOT EDIT. // Code generated by gorm.io/gen. DO NOT EDIT. package dao import ( "context" "gorm.io/gorm" "gorm.io/gorm/clause" "gorm.io/gorm/schema" "gorm.io/gen" "gorm.io/gen/field" "gorm.io/plugin/dbresolver" "mini-chat/internal/repository/mysql/model" ) func newMiniProgram(db *gorm.DB, opts ...gen.DOOption) miniProgram { _miniProgram := miniProgram{} _miniProgram.miniProgramDo.UseDB(db, opts...) _miniProgram.miniProgramDo.UseModel(&model.MiniProgram{}) tableName := _miniProgram.miniProgramDo.TableName() _miniProgram.ALL = field.NewAsterisk(tableName) _miniProgram.ID = field.NewInt32(tableName, "id") _miniProgram.AppID = field.NewString(tableName, "app_id") _miniProgram.Name = field.NewString(tableName, "name") _miniProgram.Description = field.NewString(tableName, "description") _miniProgram.Avatar = field.NewString(tableName, "avatar") _miniProgram.CreatedUser = field.NewString(tableName, "created_user") _miniProgram.CreatedAt = field.NewTime(tableName, "created_at") _miniProgram.UpdatedUser = field.NewString(tableName, "updated_user") _miniProgram.UpdatedAt = field.NewTime(tableName, "updated_at") _miniProgram.fillFieldMap() return _miniProgram } // miniProgram 小程序表 type miniProgram struct { miniProgramDo ALL field.Asterisk ID field.Int32 // 主键ID AppID field.String // 小程序ID Name field.String // 名称 Description field.String // 描述 Avatar field.String // 头像 CreatedUser field.String // 创建人 CreatedAt field.Time // 创建时间 UpdatedUser field.String // 更新人 UpdatedAt field.Time // 更新时间 fieldMap map[string]field.Expr } func (m miniProgram) Table(newTableName string) *miniProgram { m.miniProgramDo.UseTable(newTableName) return m.updateTableName(newTableName) } func (m miniProgram) As(alias string) *miniProgram { m.miniProgramDo.DO = *(m.miniProgramDo.As(alias).(*gen.DO)) return m.updateTableName(alias) } func (m *miniProgram) updateTableName(table string) *miniProgram { m.ALL = field.NewAsterisk(table) m.ID = field.NewInt32(table, "id") m.AppID = field.NewString(table, "app_id") m.Name = field.NewString(table, "name") m.Description = field.NewString(table, "description") m.Avatar = field.NewString(table, "avatar") m.CreatedUser = field.NewString(table, "created_user") m.CreatedAt = field.NewTime(table, "created_at") m.UpdatedUser = field.NewString(table, "updated_user") m.UpdatedAt = field.NewTime(table, "updated_at") m.fillFieldMap() return m } func (m *miniProgram) GetFieldByName(fieldName string) (field.OrderExpr, bool) { _f, ok := m.fieldMap[fieldName] if !ok || _f == nil { return nil, false } _oe, ok := _f.(field.OrderExpr) return _oe, ok } func (m *miniProgram) fillFieldMap() { m.fieldMap = make(map[string]field.Expr, 9) m.fieldMap["id"] = m.ID m.fieldMap["app_id"] = m.AppID m.fieldMap["name"] = m.Name m.fieldMap["description"] = m.Description m.fieldMap["avatar"] = m.Avatar m.fieldMap["created_user"] = m.CreatedUser m.fieldMap["created_at"] = m.CreatedAt m.fieldMap["updated_user"] = m.UpdatedUser m.fieldMap["updated_at"] = m.UpdatedAt } func (m miniProgram) clone(db *gorm.DB) miniProgram { m.miniProgramDo.ReplaceConnPool(db.Statement.ConnPool) return m } func (m miniProgram) replaceDB(db *gorm.DB) miniProgram { m.miniProgramDo.ReplaceDB(db) return m } type miniProgramDo struct{ gen.DO } func (m miniProgramDo) Debug() *miniProgramDo { return m.withDO(m.DO.Debug()) } func (m miniProgramDo) WithContext(ctx context.Context) *miniProgramDo { return m.withDO(m.DO.WithContext(ctx)) } func (m miniProgramDo) ReadDB() *miniProgramDo { return m.Clauses(dbresolver.Read) } func (m miniProgramDo) WriteDB() *miniProgramDo { return m.Clauses(dbresolver.Write) } func (m miniProgramDo) Session(config *gorm.Session) *miniProgramDo { return m.withDO(m.DO.Session(config)) } func (m miniProgramDo) Clauses(conds ...clause.Expression) *miniProgramDo { return m.withDO(m.DO.Clauses(conds...)) } func (m miniProgramDo) Returning(value interface{}, columns ...string) *miniProgramDo { return m.withDO(m.DO.Returning(value, columns...)) } func (m miniProgramDo) Not(conds ...gen.Condition) *miniProgramDo { return m.withDO(m.DO.Not(conds...)) } func (m miniProgramDo) Or(conds ...gen.Condition) *miniProgramDo { return m.withDO(m.DO.Or(conds...)) } func (m miniProgramDo) Select(conds ...field.Expr) *miniProgramDo { return m.withDO(m.DO.Select(conds...)) } func (m miniProgramDo) Where(conds ...gen.Condition) *miniProgramDo { return m.withDO(m.DO.Where(conds...)) } func (m miniProgramDo) Order(conds ...field.Expr) *miniProgramDo { return m.withDO(m.DO.Order(conds...)) } func (m miniProgramDo) Distinct(cols ...field.Expr) *miniProgramDo { return m.withDO(m.DO.Distinct(cols...)) } func (m miniProgramDo) Omit(cols ...field.Expr) *miniProgramDo { return m.withDO(m.DO.Omit(cols...)) } func (m miniProgramDo) Join(table schema.Tabler, on ...field.Expr) *miniProgramDo { return m.withDO(m.DO.Join(table, on...)) } func (m miniProgramDo) LeftJoin(table schema.Tabler, on ...field.Expr) *miniProgramDo { return m.withDO(m.DO.LeftJoin(table, on...)) } func (m miniProgramDo) RightJoin(table schema.Tabler, on ...field.Expr) *miniProgramDo { return m.withDO(m.DO.RightJoin(table, on...)) } func (m miniProgramDo) Group(cols ...field.Expr) *miniProgramDo { return m.withDO(m.DO.Group(cols...)) } func (m miniProgramDo) Having(conds ...gen.Condition) *miniProgramDo { return m.withDO(m.DO.Having(conds...)) } func (m miniProgramDo) Limit(limit int) *miniProgramDo { return m.withDO(m.DO.Limit(limit)) } func (m miniProgramDo) Offset(offset int) *miniProgramDo { return m.withDO(m.DO.Offset(offset)) } func (m miniProgramDo) Scopes(funcs ...func(gen.Dao) gen.Dao) *miniProgramDo { return m.withDO(m.DO.Scopes(funcs...)) } func (m miniProgramDo) Unscoped() *miniProgramDo { return m.withDO(m.DO.Unscoped()) } func (m miniProgramDo) Create(values ...*model.MiniProgram) error { if len(values) == 0 { return nil } return m.DO.Create(values) } func (m miniProgramDo) CreateInBatches(values []*model.MiniProgram, batchSize int) error { return m.DO.CreateInBatches(values, batchSize) } // Save : !!! underlying implementation is different with GORM // The method is equivalent to executing the statement: db.Clauses(clause.OnConflict{UpdateAll: true}).Create(values) func (m miniProgramDo) Save(values ...*model.MiniProgram) error { if len(values) == 0 { return nil } return m.DO.Save(values) } func (m miniProgramDo) First() (*model.MiniProgram, error) { if result, err := m.DO.First(); err != nil { return nil, err } else { return result.(*model.MiniProgram), nil } } func (m miniProgramDo) Take() (*model.MiniProgram, error) { if result, err := m.DO.Take(); err != nil { return nil, err } else { return result.(*model.MiniProgram), nil } } func (m miniProgramDo) Last() (*model.MiniProgram, error) { if result, err := m.DO.Last(); err != nil { return nil, err } else { return result.(*model.MiniProgram), nil } } func (m miniProgramDo) Find() ([]*model.MiniProgram, error) { result, err := m.DO.Find() return result.([]*model.MiniProgram), err } func (m miniProgramDo) FindInBatch(batchSize int, fc func(tx gen.Dao, batch int) error) (results []*model.MiniProgram, err error) { buf := make([]*model.MiniProgram, 0, batchSize) err = m.DO.FindInBatches(&buf, batchSize, func(tx gen.Dao, batch int) error { defer func() { results = append(results, buf...) }() return fc(tx, batch) }) return results, err } func (m miniProgramDo) FindInBatches(result *[]*model.MiniProgram, batchSize int, fc func(tx gen.Dao, batch int) error) error { return m.DO.FindInBatches(result, batchSize, fc) } func (m miniProgramDo) Attrs(attrs ...field.AssignExpr) *miniProgramDo { return m.withDO(m.DO.Attrs(attrs...)) } func (m miniProgramDo) Assign(attrs ...field.AssignExpr) *miniProgramDo { return m.withDO(m.DO.Assign(attrs...)) } func (m miniProgramDo) Joins(fields ...field.RelationField) *miniProgramDo { for _, _f := range fields { m = *m.withDO(m.DO.Joins(_f)) } return &m } func (m miniProgramDo) Preload(fields ...field.RelationField) *miniProgramDo { for _, _f := range fields { m = *m.withDO(m.DO.Preload(_f)) } return &m } func (m miniProgramDo) FirstOrInit() (*model.MiniProgram, error) { if result, err := m.DO.FirstOrInit(); err != nil { return nil, err } else { return result.(*model.MiniProgram), nil } } func (m miniProgramDo) FirstOrCreate() (*model.MiniProgram, error) { if result, err := m.DO.FirstOrCreate(); err != nil { return nil, err } else { return result.(*model.MiniProgram), nil } } func (m miniProgramDo) FindByPage(offset int, limit int) (result []*model.MiniProgram, count int64, err error) { result, err = m.Offset(offset).Limit(limit).Find() if err != nil { return } if size := len(result); 0 < limit && 0 < size && size < limit { count = int64(size + offset) return } count, err = m.Offset(-1).Limit(-1).Count() return } func (m miniProgramDo) ScanByPage(result interface{}, offset int, limit int) (count int64, err error) { count, err = m.Count() if err != nil { return } err = m.Offset(offset).Limit(limit).Scan(result) return } func (m miniProgramDo) Scan(result interface{}) (err error) { return m.DO.Scan(result) } func (m miniProgramDo) Delete(models ...*model.MiniProgram) (result gen.ResultInfo, err error) { return m.DO.Delete(models) } func (m *miniProgramDo) withDO(do gen.Dao) *miniProgramDo { m.DO = *do.(*gen.DO) return m }