【go】依赖倒置demo
文章目录
- 前言
- 1 项目目录结构:
- 2 初始化函数
- 3 router
- 4 api
- 5 service
- 6 dao
- 7 Reference
前言
为降低代码耦合性,采用依赖注入的设计模式。原始请求路径:router -> api -> service -> dao。请求的为实际方法,具有层层依赖的关系。现将方法抽象为接口,即a依赖b,但a不创建(或销毁)b,仅使用b,b的创建(或销毁)交给容器。
1 项目目录结构:
├─ddd
│ ├─router.go
│ │
│ ├─api
│ │ └─api_abstract.go // 抽象接口
│ │ └─api_dog.go // dog实现接口
│ │
│ ├─service
│ │ └─srv_abstract.go
│ │ └─srv_dog.go
│ │
│ ├─dao
│ │ └─dao_abstract.go
│ │ └─dao_dog.go
│ │
│ ├─model
│ │ ├─dto
│ │ └─schema2 初始化函数
// 依赖注入
func InitDog() *DogApiImpl {d := dao.NewDogDaoImpl(global.DB)s := service.NewDogSrvImpl(d)return api.NewDogApiImpl(s)
}
3 router
func Router() *gin.Engine {dog := init.InitDog()r.GET("/info", dog.Info)...
}
4 api
api_abstract.go中为抽象接口:
type DogAPIIface interface {Create(ctx *gin.Context)Update(ctx *gin.Context)Info(ctx *gin.Context)List(ctx *gin.Context)
}
api_dog.go中为api的实现方法:
type DogApiImpl struct {srv service.DogSrvIface
}var _ DogAPIIface = (*DogApiImpl)(nil)func NewDogApiImpl(srv service.DogSrvIface) *DogApiImpl {return &DogApiImpl{srv: srv,}
}func (da *DogApiImpl) Info(ctx *gin.Context) {var req dto.DogInfoReqif err := ctx.ShouldBindUri(&req); err != nil {return}res, err := da.srv.Info(ctx, req.ID)if err != nil {return}helper.Response.ResponseSuccessWithData(ctx, consts.Success, res)
}// 其他待实现方法
func (da *DogApiImpl) Create(ctx *gin.Context) {
}...
5 service
srv_abstract.go中为抽象接口:
type DogSrvIface interface {Create(ctx *gin.Context, req *dto.DogCreateReq) errorUpdate(ctx *gin.Context, req *dto.DogUpdateReq) errorInfo(ctx *gin.Context, req *dto.DogInfoReq) (*dto.DogInfoRes, error)List(ctx *gin.Context, req *dto.DogListReq) ([]*dto.DogInfoRes, int, error)
}
srv_dog.go中为service的实现方法:
type DogSrvImpl struct {dao dao.DogDaoIface
}var _ DogSrvIface = (*DogSrvImpl)(nil)func NewDogSrvImpl(dao dao.DogDaoIface) *DogSrvImpl {return &DogSrvImpl{dao: dao,}
}func (ds *DogSrvImpl) Info(ctx *gin.Context, req *dto.DogInfoReq) (*dto.DogInfoRes, error) {var data dto.DogInfoReq// 具体业务逻辑dog, err := ds.dao.FindByID(ctx, id)if err != nil {return nil, err}return &dog, err
}
...
6 dao
dao_abstract.go中为抽象接口:
type DogDaoIface interface {Create(ctx *gin.Context, req *dto.DogCreateReq) errorUpdate(ctx *gin.Context, req *dto.DogUpdateReq) errorInfo(ctx *gin.Context, req *dto.DogInfoReq) (*dto.DogInfoRes, error)List(ctx *gin.Context, req *dto.DogListReq) ([]*dto.DogInfoRes, int, error)
}
dao_dog.go中为dao的实现方法:
type DogDaoImpl struct {db *gorm.DB
}var _ dao.DogDaoIface = (*DogDaoImpl )(nil)func NewDogDaoImpl(db gorm.DB) *DogDaoImpl{return &DogDaoImpl{db: &db,}
}func (ds *DogSrvImpl) Info(ctx *gin.Context, req *dto.DogInfoReq) (*dto.DogInfoRes, error) {// 具体业务逻辑return nil, nil
}
...
7 Reference
https://blog.hackerpie.com/posts/testing/golang-write-testable-codes/
https://juejin.cn/post/7146852457774055437