package model import ( "context" "database/sql" "fmt" "github.com/fthvgb1/wp-go/helper" "github.com/fthvgb1/wp-go/helper/slice" str "github.com/fthvgb1/wp-go/helper/strings" "golang.org/x/exp/constraints" "strings" ) func setTable[T Model](q *QueryCondition) { if q.From == "" { q.From = Table[T]() } } const ( HasOne = "hasOne" HasMany = "hasMany" ) // Relationship join table // // # RelationType HasOne| HasMany // // eg: hasOne, post has a user. ForeignKey is user's id , Local is post's userId field // // eg: hasMany, post has many comments,ForeignKey is comment's postId field, Local is post's id field // // On is additional join on conditions type Relationship struct { RelationType string Table string ForeignKey string Local string On string Middle *Relationship } func parseBeforeJoin(qq *QueryCondition, ship Relationship) { var fromTable, foreignKey, local string if ship.Middle != nil { parseBeforeJoin(qq, *ship.Middle) local = ship.Local fromTable = ship.Middle.Table } else { fromTable = qq.From } foreignKey = ship.ForeignKey local = ship.Local tables := strings.Split(ship.Table, " ") from := strings.Split(fromTable, " ") on := "" if ship.On != "" { on = fmt.Sprintf("and %s", on) } qq.Join = append(qq.Join, []string{ "left join", ship.Table, fmt.Sprintf("%s.%s=%s.%s %s", tables[len(tables)-1], foreignKey, from[len(from)-1], local, on, )}) } func parseAfterJoin(fromTable string, ids [][]any, qq *QueryCondition, ship Relationship) bool { tables := strings.Split(ship.Middle.Table, " ") from := strings.Split(fromTable, " ") on := "" if ship.On != "" { on = fmt.Sprintf("and %s", on) } foreignKey := ship.ForeignKey local := ship.Local qq.Join = append(qq.Join, []string{ "left join", ship.Middle.Table, fmt.Sprintf("%s.%s=%s.%s %s", tables[len(tables)-1], foreignKey, from[len(from)-1], local, on, ), }) if ship.Middle != nil && ship.Middle.Middle != nil { return parseAfterJoin(tables[len(tables)-1], ids, qq, *ship.Middle) } else { from := strings.Split(qq.From, " ") ww, ok := qq.Where.(SqlBuilder) if ok { ww = append(ww, []string{fmt.Sprintf("%s.%s", tables[len(tables)-1], ship.Middle.ForeignKey), "in", ""}, ) qq.Where = ww } else { aw, ok := helper.IsImplements[AndWhere](qq.Where) if ok { vv := aw.AndWhere(fmt.Sprintf("%s.%s", tables[len(tables)-1], ship.Middle.ForeignKey), "in", strings.Join(slice.DecompressBy(ids, func(t any) (string, bool) { return fmt.Sprintf("%v", t), true }), ","), "int") wa, ok := helper.IsImplements[ParseWhere](vv) if ok { qq.Where = wa } } } if qq.Fields == "" || qq.Fields == "*" { qq.Fields = str.Join(from[len(from)-1], ".", "*", ",", tables[len(tables)-1], ".", ship.Middle.ForeignKey) } qq.In = ids return ship.Middle.RelationType == HasMany } } func Relation(isPlural bool, db dbQuery, ctx context.Context, r any, q *QueryCondition) ([]func(), []func() error) { var beforeFn []func() var afterFn []func() error qx := helper.GetContextVal(ctx, "ancestorsQueryCondition", q) for _, f := range q.RelationFn { getVal, isJoin, qq, relationship := f() idFn, assignmentFn, rr, rrs, ship := relationship() if isJoin { beforeFn = append(beforeFn, func() { parseBeforeJoin(qx, ship) }) } if !getVal { continue } afterFn = append(afterFn, func() error { ids := idFn(r) if len(ids) < 1 { return nil } var err error if qq == nil { qq = &QueryCondition{ Fields: "*", } } if qq.From == "" { qq.From = ship.Table } var w any = qq.Where if w == nil { qq.Where = SqlBuilder{} } in := [][]any{ids} if ship.Middle != nil { isPlural = parseAfterJoin(qq.From, in, qq, ship) } else { ww, ok := qq.Where.(SqlBuilder) if ok { ww = append(ww, SqlBuilder{{ ship.ForeignKey, "in", "", }}...) qq.Where = ww } else { aw, ok := helper.IsImplements[AndWhere](qq.Where) if ok { ww := aw.AndWhere(ship.ForeignKey, "in", strings.Join(slice.Map(ids, func(t any) string { return fmt.Sprintf("%v", t) }), ","), "int") qq.Where = ww } } qq.In = in } err = ParseRelation(isPlural || ship.RelationType == HasMany, db, ctx, helper.Or(isPlural, rrs, rr), qq) if err != nil { if err == sql.ErrNoRows { err = nil } else { return err } } assignmentFn(r, helper.Or(isPlural, rrs, rr)) return err }) } return beforeFn, afterFn } func GetWithID[T, V any](fn func(*T) V) func(any) []any { return func(a any) []any { one, ok := a.(*T) if ok { return []any{fn(one)} } return slice.ToAnySlice(slice.Unique(slice.Map(*a.(*[]T), func(t T) any { return fn(&t) }))) } } // SetHasOne mIdFn is main , pIdFn is part // // eg: post has a user. mIdFn is post's userId, iddFn is user's id func SetHasOne[T, V any, K comparable](assignmentFn func(*T, *V), mIdFn func(*T) K, pIdFn func(*V) K) func(any, any) { return func(m, p any) { one, ok := m.(*T) if ok { assignmentFn(one, p.(*V)) return } mSlice := m.(*[]T) pSLice := p.(*[]V) mm := slice.SimpleToMap(*pSLice, func(v V) K { return pIdFn(&v) }) for i := 0; i < len(*mSlice); i++ { m := &(*mSlice)[i] id := mIdFn(m) p, ok := mm[id] if ok { assignmentFn(m, &p) } } } } // SetHasMany // eg: post has many comments,pIdFn is comment's postId, mIdFn is post's id func SetHasMany[T, V any, K comparable](assignmentFn func(*T, *[]V), pIdFn func(*T) K, mIdFn func(*V) K) func(any, any) { return func(m, p any) { one, ok := m.(*T) if ok { assignmentFn(one, p.(*[]V)) return } r := m.(*[]T) vv := p.(*[]V) mm := slice.GroupBy(*vv, func(t V) (K, V) { return mIdFn(&t), t }) for i := 0; i < len(*r); i++ { m := &(*r)[i] id := pIdFn(m) p, ok := mm[id] if ok { assignmentFn(m, &p) } } } } // RelationHasOne // eg: post has a user. fId is post's userId, pId is user's id func RelationHasOne[M, P any, I constraints.Integer | constraints.Unsigned](fId func(*M) I, pId func(*P) I, setVal func(*M, *P), r Relationship) RelationFn { idFn := GetWithID(fId) setFn := SetHasOne(setVal, fId, pId) return func() (func(any) []any, func(any, any), any, any, Relationship) { var s P var ss []P return idFn, setFn, &s, &ss, r } } // RelationHasMany // eg: post has many comments,mId is post's id, pId is comment's postId func RelationHasMany[M, P any, I constraints.Integer | constraints.Unsigned](mId func(*M) I, pId func(*P) I, setVal func(*M, *[]P), r Relationship) RelationFn { idFn := GetWithID(mId) setFn := SetHasMany(setVal, mId, pId) return func() (func(any) []any, func(any, any), any, any, Relationship) { var ss []P return idFn, setFn, &ss, &ss, r } } func AddRelationFn(getVal, join bool, q *QueryCondition, r RelationFn) func() (bool, bool, *QueryCondition, RelationFn) { return func() (bool, bool, *QueryCondition, RelationFn) { return getVal, join, q, r } }