删除多余文件

opms_parent/app/dao/internal/cust_customer.go

@@ -1,468 +0,0 @@
-// ==========================================================================
-// This is auto-generated by gf cli tool. DO NOT EDIT THIS FILE MANUALLY.
-// ==========================================================================
-
-package internal
-
-import (
-	"context"
-	"database/sql"
-	"github.com/gogf/gf/database/gdb"
-	"github.com/gogf/gf/frame/g"
-	"github.com/gogf/gf/frame/gmvc"
-	"time"
-
-	"dashoo.cn/micro/app/model"
-)
-
-// CustCustomerDao is the manager for logic model data accessing
-// and custom defined data operations functions management.
-type CustCustomerDao struct {
-	gmvc.M
-	DB      gdb.DB
-	Table   string
-	Columns custCustomerColumns
-}
-
-// CustCustomerColumns defines and stores column names for table cust_customer.
-type custCustomerColumns struct {
-	Id           string // 主键
-	CustCode     string // 客户编号
-	CustName     string // 客户名称
-	AbbrName     string // 助记名
-	CustDistCode string // 客户所在省级ID
-	CustLocation string // 所在地区
-	CustAddress  string // 详细地址
-	CustIndustry string // 客户行业
-	CustLevel    string // 客户级别（10 重点客户 20 普通客户 30非优客户）
-	CustStatus   string // 客户状态(10正常20)
-	CustSource   string // 客户来源
-	IsPublic     string // 公海客户(10是20否)
-	DeptId       string // 所属部门ID
-	DeptName     string // 所属部门
-	SalesId      string // 所属销售ID
-	SalesName    string // 所属销售
-	FollowUpDate string // 最后跟进时间
-	Remark       string // 备注
-	CreatedBy    string // 创建者
-	CreatedName  string // 创建人
-	CreatedTime  string // 创建时间
-	UpdatedBy    string // 更新者
-	UpdatedName  string // 更新人
-	UpdatedTime  string // 更新时间
-	DeletedTime  string // 删除时间
-}
-
-var (
-	// CustCustomer is globally public accessible object for table cust_customer operations.
-	CustCustomer = CustCustomerDao{
-		M:     g.DB("default").Model("cust_customer").Safe(),
-		DB:    g.DB("default"),
-		Table: "cust_customer",
-		Columns: custCustomerColumns{
-			Id:           "id",
-			CustCode:     "cust_code",
-			CustName:     "cust_name",
-			AbbrName:     "abbr_name",
-			CustDistCode: "cust_dist_code",
-			CustLocation: "cust_location",
-			CustAddress:  "cust_address",
-			CustIndustry: "cust_industry",
-			CustLevel:    "cust_level",
-			CustStatus:   "cust_status",
-			CustSource:   "cust_source",
-			IsPublic:     "is_public",
-			DeptId:       "dept_id",
-			DeptName:     "dept_name",
-			SalesId:      "sales_id",
-			SalesName:    "sales_name",
-			FollowUpDate: "follow_up_date",
-			Remark:       "remark",
-			CreatedBy:    "created_by",
-			CreatedName:  "created_name",
-			CreatedTime:  "created_time",
-			UpdatedBy:    "updated_by",
-			UpdatedName:  "updated_name",
-			UpdatedTime:  "updated_time",
-			DeletedTime:  "deleted_time",
-		},
-	}
-)
-
-func NewCustCustomerDao(tenant string) CustCustomerDao {
-	var dao CustCustomerDao
-	dao = CustCustomerDao{
-		M:     g.DB(tenant).Model("cust_customer").Safe(),
-		DB:    g.DB(tenant),
-		Table: "cust_customer",
-		Columns: custCustomerColumns{
-			Id:           "id",
-			CustCode:     "cust_code",
-			CustName:     "cust_name",
-			AbbrName:     "abbr_name",
-			CustDistCode: "cust_dist_code",
-			CustLocation: "cust_location",
-			CustAddress:  "cust_address",
-			CustIndustry: "cust_industry",
-			CustLevel:    "cust_level",
-			CustStatus:   "cust_status",
-			CustSource:   "cust_source",
-			IsPublic:     "is_public",
-			DeptId:       "dept_id",
-			DeptName:     "dept_name",
-			SalesId:      "sales_id",
-			SalesName:    "sales_name",
-			FollowUpDate: "follow_up_date",
-			Remark:       "remark",
-			CreatedBy:    "created_by",
-			CreatedName:  "created_name",
-			CreatedTime:  "created_time",
-			UpdatedBy:    "updated_by",
-			UpdatedName:  "updated_name",
-			UpdatedTime:  "updated_time",
-			DeletedTime:  "deleted_time",
-		},
-	}
-	return dao
-}
-
-// Ctx is a chaining function, which creates and returns a new DB that is a shallow copy
-// of current DB object and with given context in it.
-// Note that this returned DB object can be used only once, so do not assign it to
-// a global or package variable for long using.
-func (d *CustCustomerDao) Ctx(ctx context.Context) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Ctx(ctx)}
-}
-
-// As sets an alias name for current table.
-func (d *CustCustomerDao) As(as string) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.As(as)}
-}
-
-// TX sets the transaction for current operation.
-func (d *CustCustomerDao) TX(tx *gdb.TX) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.TX(tx)}
-}
-
-// Master marks the following operation on master node.
-func (d *CustCustomerDao) Master() *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Master()}
-}
-
-// Slave marks the following operation on slave node.
-// Note that it makes sense only if there's any slave node configured.
-func (d *CustCustomerDao) Slave() *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Slave()}
-}
-
-// Args sets custom arguments for model operation.
-func (d *CustCustomerDao) Args(args ...interface{}) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Args(args...)}
-}
-
-// LeftJoin does "LEFT JOIN ... ON ..." statement on the model.
-// The parameter <table> can be joined table and its joined condition,
-// and also with its alias name, like:
-// Table("user").LeftJoin("user_detail", "user_detail.uid=user.uid")
-// Table("user", "u").LeftJoin("user_detail", "ud", "ud.uid=u.uid")
-func (d *CustCustomerDao) LeftJoin(table ...string) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.LeftJoin(table...)}
-}
-
-// RightJoin does "RIGHT JOIN ... ON ..." statement on the model.
-// The parameter <table> can be joined table and its joined condition,
-// and also with its alias name, like:
-// Table("user").RightJoin("user_detail", "user_detail.uid=user.uid")
-// Table("user", "u").RightJoin("user_detail", "ud", "ud.uid=u.uid")
-func (d *CustCustomerDao) RightJoin(table ...string) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.RightJoin(table...)}
-}
-
-// InnerJoin does "INNER JOIN ... ON ..." statement on the model.
-// The parameter <table> can be joined table and its joined condition,
-// and also with its alias name, like:
-// Table("user").InnerJoin("user_detail", "user_detail.uid=user.uid")
-// Table("user", "u").InnerJoin("user_detail", "ud", "ud.uid=u.uid")
-func (d *CustCustomerDao) InnerJoin(table ...string) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.InnerJoin(table...)}
-}
-
-// Fields sets the operation fields of the model, multiple fields joined using char ','.
-// The parameter <fieldNamesOrMapStruct> can be type of string/map/*map/struct/*struct.
-func (d *CustCustomerDao) Fields(fieldNamesOrMapStruct ...interface{}) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Fields(fieldNamesOrMapStruct...)}
-}
-
-// FieldsEx sets the excluded operation fields of the model, multiple fields joined using char ','.
-// The parameter <fieldNamesOrMapStruct> can be type of string/map/*map/struct/*struct.
-func (d *CustCustomerDao) FieldsEx(fieldNamesOrMapStruct ...interface{}) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.FieldsEx(fieldNamesOrMapStruct...)}
-}
-
-// Option sets the extra operation option for the model.
-func (d *CustCustomerDao) Option(option int) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Option(option)}
-}
-
-// OmitEmpty sets OPTION_OMITEMPTY option for the model, which automatically filers
-// the data and where attributes for empty values.
-func (d *CustCustomerDao) OmitEmpty() *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.OmitEmpty()}
-}
-
-// Filter marks filtering the fields which does not exist in the fields of the operated table.
-func (d *CustCustomerDao) Filter() *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Filter()}
-}
-
-// Where sets the condition statement for the model. The parameter <where> can be type of
-// string/map/gmap/slice/struct/*struct, etc. Note that, if it's called more than one times,
-// multiple conditions will be joined into where statement using "AND".
-// Eg:
-// Where("uid=10000")
-// Where("uid", 10000)
-// Where("money>? AND name like ?", 99999, "vip_%")
-// Where("uid", 1).Where("name", "john")
-// Where("status IN (?)", g.Slice{1,2,3})
-// Where("age IN(?,?)", 18, 50)
-// Where(User{ Id : 1, UserName : "john"})
-func (d *CustCustomerDao) Where(where interface{}, args ...interface{}) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Where(where, args...)}
-}
-
-// WherePri does the same logic as M.Where except that if the parameter <where>
-// is a single condition like int/string/float/slice, it treats the condition as the primary
-// key value. That is, if primary key is "id" and given <where> parameter as "123", the
-// WherePri function treats the condition as "id=123", but M.Where treats the condition
-// as string "123".
-func (d *CustCustomerDao) WherePri(where interface{}, args ...interface{}) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.WherePri(where, args...)}
-}
-
-// And adds "AND" condition to the where statement.
-func (d *CustCustomerDao) And(where interface{}, args ...interface{}) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.And(where, args...)}
-}
-
-// Or adds "OR" condition to the where statement.
-func (d *CustCustomerDao) Or(where interface{}, args ...interface{}) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Or(where, args...)}
-}
-
-// Group sets the "GROUP BY" statement for the model.
-func (d *CustCustomerDao) Group(groupBy string) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Group(groupBy)}
-}
-
-// Order sets the "ORDER BY" statement for the model.
-func (d *CustCustomerDao) Order(orderBy ...string) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Order(orderBy...)}
-}
-
-// Limit sets the "LIMIT" statement for the model.
-// The parameter <limit> can be either one or two number, if passed two number is passed,
-// it then sets "LIMIT limit[0],limit[1]" statement for the model, or else it sets "LIMIT limit[0]"
-// statement.
-func (d *CustCustomerDao) Limit(limit ...int) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Limit(limit...)}
-}
-
-// Offset sets the "OFFSET" statement for the model.
-// It only makes sense for some databases like SQLServer, PostgreSQL, etc.
-func (d *CustCustomerDao) Offset(offset int) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Offset(offset)}
-}
-
-// Page sets the paging number for the model.
-// The parameter <page> is started from 1 for paging.
-// Note that, it differs that the Limit function start from 0 for "LIMIT" statement.
-func (d *CustCustomerDao) Page(page, limit int) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Page(page, limit)}
-}
-
-// Batch sets the batch operation number for the model.
-func (d *CustCustomerDao) Batch(batch int) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Batch(batch)}
-}
-
-// Cache sets the cache feature for the model. It caches the result of the sql, which means
-// if there's another same sql request, it just reads and returns the result from cache, it
-// but not committed and executed into the database.
-//
-// If the parameter <duration> < 0, which means it clear the cache with given <name>.
-// If the parameter <duration> = 0, which means it never expires.
-// If the parameter <duration> > 0, which means it expires after <duration>.
-//
-// The optional parameter <name> is used to bind a name to the cache, which means you can later
-// control the cache like changing the <duration> or clearing the cache with specified <name>.
-//
-// Note that, the cache feature is disabled if the model is operating on a transaction.
-func (d *CustCustomerDao) Cache(duration time.Duration, name ...string) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Cache(duration, name...)}
-}
-
-// Data sets the operation data for the model.
-// The parameter <data> can be type of string/map/gmap/slice/struct/*struct, etc.
-// Eg:
-// Data("uid=10000")
-// Data("uid", 10000)
-// Data(g.Map{"uid": 10000, "name":"john"})
-// Data(g.Slice{g.Map{"uid": 10000, "name":"john"}, g.Map{"uid": 20000, "name":"smith"})
-func (d *CustCustomerDao) Data(data ...interface{}) *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Data(data...)}
-}
-
-// All does "SELECT FROM ..." statement for the model.
-// It retrieves the records from table and returns the result as []*model.CustCustomer.
-// It returns nil if there's no record retrieved with the given conditions from table.
-//
-// The optional parameter <where> is the same as the parameter of M.Where function,
-// see M.Where.
-func (d *CustCustomerDao) All(where ...interface{}) ([]*model.CustCustomer, error) {
-	all, err := d.M.All(where...)
-	if err != nil {
-		return nil, err
-	}
-	var entities []*model.CustCustomer
-	if err = all.Structs(&entities); err != nil && err != sql.ErrNoRows {
-		return nil, err
-	}
-	return entities, nil
-}
-
-// One retrieves one record from table and returns the result as *model.CustCustomer.
-// It returns nil if there's no record retrieved with the given conditions from table.
-//
-// The optional parameter <where> is the same as the parameter of M.Where function,
-// see M.Where.
-func (d *CustCustomerDao) One(where ...interface{}) (*model.CustCustomer, error) {
-	one, err := d.M.One(where...)
-	if err != nil {
-		return nil, err
-	}
-	var entity *model.CustCustomer
-	if err = one.Struct(&entity); err != nil && err != sql.ErrNoRows {
-		return nil, err
-	}
-	return entity, nil
-}
-
-// FindOne retrieves and returns a single Record by M.WherePri and M.One.
-// Also see M.WherePri and M.One.
-func (d *CustCustomerDao) FindOne(where ...interface{}) (*model.CustCustomer, error) {
-	one, err := d.M.FindOne(where...)
-	if err != nil {
-		return nil, err
-	}
-	var entity *model.CustCustomer
-	if err = one.Struct(&entity); err != nil && err != sql.ErrNoRows {
-		return nil, err
-	}
-	return entity, nil
-}
-
-// FindAll retrieves and returns Result by by M.WherePri and M.All.
-// Also see M.WherePri and M.All.
-func (d *CustCustomerDao) FindAll(where ...interface{}) ([]*model.CustCustomer, error) {
-	all, err := d.M.FindAll(where...)
-	if err != nil {
-		return nil, err
-	}
-	var entities []*model.CustCustomer
-	if err = all.Structs(&entities); err != nil && err != sql.ErrNoRows {
-		return nil, err
-	}
-	return entities, nil
-}
-
-// Struct retrieves one record from table and converts it into given struct.
-// The parameter <pointer> should be type of *struct/**struct. If type **struct is given,
-// it can create the struct internally during converting.
-//
-// The optional parameter <where> is the same as the parameter of Model.Where function,
-// see Model.Where.
-//
-// Note that it returns sql.ErrNoRows if there's no record retrieved with the given conditions
-// from table and <pointer> is not nil.
-//
-// Eg:
-// user := new(User)
-// err  := dao.User.Where("id", 1).Struct(user)
-//
-// user := (*User)(nil)
-// err  := dao.User.Where("id", 1).Struct(&user)
-func (d *CustCustomerDao) Struct(pointer interface{}, where ...interface{}) error {
-	return d.M.Struct(pointer, where...)
-}
-
-// Structs retrieves records from table and converts them into given struct slice.
-// The parameter <pointer> should be type of *[]struct/*[]*struct. It can create and fill the struct
-// slice internally during converting.
-//
-// The optional parameter <where> is the same as the parameter of Model.Where function,
-// see Model.Where.
-//
-// Note that it returns sql.ErrNoRows if there's no record retrieved with the given conditions
-// from table and <pointer> is not empty.
-//
-// Eg:
-// users := ([]User)(nil)
-// err   := dao.User.Structs(&users)
-//
-// users := ([]*User)(nil)
-// err   := dao.User.Structs(&users)
-func (d *CustCustomerDao) Structs(pointer interface{}, where ...interface{}) error {
-	return d.M.Structs(pointer, where...)
-}
-
-// Scan automatically calls Struct or Structs function according to the type of parameter <pointer>.
-// It calls function Struct if <pointer> is type of *struct/**struct.
-// It calls function Structs if <pointer> is type of *[]struct/*[]*struct.
-//
-// The optional parameter <where> is the same as the parameter of Model.Where function,
-// see Model.Where.
-//
-// Note that it returns sql.ErrNoRows if there's no record retrieved and given pointer is not empty or nil.
-//
-// Eg:
-// user  := new(User)
-// err   := dao.User.Where("id", 1).Scan(user)
-//
-// user  := (*User)(nil)
-// err   := dao.User.Where("id", 1).Scan(&user)
-//
-// users := ([]User)(nil)
-// err   := dao.User.Scan(&users)
-//
-// users := ([]*User)(nil)
-// err   := dao.User.Scan(&users)
-func (d *CustCustomerDao) Scan(pointer interface{}, where ...interface{}) error {
-	return d.M.Scan(pointer, where...)
-}
-
-// Chunk iterates the table with given size and callback function.
-func (d *CustCustomerDao) Chunk(limit int, callback func(entities []*model.CustCustomer, err error) bool) {
-	d.M.Chunk(limit, func(result gdb.Result, err error) bool {
-		var entities []*model.CustCustomer
-		err = result.Structs(&entities)
-		if err == sql.ErrNoRows {
-			return false
-		}
-		return callback(entities, err)
-	})
-}
-
-// LockUpdate sets the lock for update for current operation.
-func (d *CustCustomerDao) LockUpdate() *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.LockUpdate()}
-}
-
-// LockShared sets the lock in share mode for current operation.
-func (d *CustCustomerDao) LockShared() *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.LockShared()}
-}
-
-// Unscoped enables/disables the soft deleting feature.
-func (d *CustCustomerDao) Unscoped() *CustCustomerDao {
-	return &CustCustomerDao{M: d.M.Unscoped()}
-}

opms_parent/app/model/internal/cust_customer.go

@@ -1,38 +0,0 @@
-// ==========================================================================
-// This is auto-generated by gf cli tool. DO NOT EDIT THIS FILE MANUALLY.
-// ==========================================================================
-
-package internal
-
-import (
-	"github.com/gogf/gf/os/gtime"
-)
-
-// CustCustomer is the golang structure for table cust_customer.
-type CustCustomer struct {
-	Id           int         `orm:"id,primary"     json:"id"`           // 主键
-	CustCode     string      `orm:"cust_code"      json:"custCode"`     // 客户编号
-	CustName     string      `orm:"cust_name"      json:"custName"`     // 客户名称
-	AbbrName     string      `orm:"abbr_name"      json:"abbrName"`     // 助记名
-	CustDistCode int         `orm:"cust_dist_code" json:"custDistCode"` // 客户所在省级ID
-	CustLocation string      `orm:"cust_location"  json:"custLocation"` // 所在地区
-	CustAddress  string      `orm:"cust_address"   json:"custAddress"`  // 详细地址
-	CustIndustry string      `orm:"cust_industry"  json:"custIndustry"` // 客户行业
-	CustLevel    string      `orm:"cust_level"     json:"custLevel"`    // 客户级别（10 重点客户 20 普通客户 30非优客户）
-	CustStatus   string      `orm:"cust_status"    json:"custStatus"`   // 客户状态(10正常20)
-	CustSource   string      `orm:"cust_source"    json:"custSource"`   // 客户来源
-	IsPublic     string      `orm:"is_public"      json:"isPublic"`     // 公海客户(10是20否)
-	DeptId       int         `orm:"dept_id"        json:"deptId"`       // 所属部门ID
-	DeptName     string      `orm:"dept_name"      json:"deptName"`     // 所属部门
-	SalesId      int         `orm:"sales_id"       json:"salesId"`      // 所属销售ID
-	SalesName    string      `orm:"sales_name"     json:"salesName"`    // 所属销售
-	FollowUpDate *gtime.Time `orm:"follow_up_date" json:"followUpDate"` // 最后跟进时间
-	Remark       string      `orm:"remark"         json:"remark"`       // 备注
-	CreatedBy    int         `orm:"created_by"     json:"createdBy"`    // 创建者
-	CreatedName  string      `orm:"created_name"   json:"createdName"`  // 创建人
-	CreatedTime  *gtime.Time `orm:"created_time"   json:"createdTime"`  // 创建时间
-	UpdatedBy    int         `orm:"updated_by"     json:"updatedBy"`    // 更新者
-	UpdatedName  string      `orm:"updated_name"   json:"updatedName"`  // 更新人
-	UpdatedTime  *gtime.Time `orm:"updated_time"   json:"updatedTime"`  // 更新时间
-	DeletedTime  *gtime.Time `orm:"deleted_time"   json:"deletedTime"`  // 删除时间
-}