// Code generated by BobGen psql v0.42.5. DO NOT EDIT. // This file is meant to be re-generated in place and/or deleted at any time. package models import ( "context" "fmt" "io" "time" "github.com/Gleipnir-Technology/bob" "github.com/Gleipnir-Technology/bob/dialect/psql" "github.com/Gleipnir-Technology/bob/dialect/psql/dialect" "github.com/Gleipnir-Technology/bob/dialect/psql/dm" "github.com/Gleipnir-Technology/bob/dialect/psql/sm" "github.com/Gleipnir-Technology/bob/dialect/psql/um" "github.com/Gleipnir-Technology/bob/expr" "github.com/Gleipnir-Technology/bob/mods" "github.com/Gleipnir-Technology/bob/orm" "github.com/Gleipnir-Technology/bob/types/pgtypes" enums "github.com/Gleipnir-Technology/nidus-sync/db/enums" "github.com/aarondl/opt/omit" ) // Pool is an object representing the database table. type Pool struct { Condition enums.Poolconditiontype `db:"condition" ` Created time.Time `db:"created" ` CreatorID int32 `db:"creator_id" ` ID int32 `db:"id,pk" ` SiteID int32 `db:"site_id" ` SiteVersion int32 `db:"site_version" ` R poolR `db:"-" ` } // PoolSlice is an alias for a slice of pointers to Pool. // This should almost always be used instead of []*Pool. type PoolSlice []*Pool // Pools contains methods to work with the pool table var Pools = psql.NewTablex[*Pool, PoolSlice, *PoolSetter]("", "pool", buildPoolColumns("pool")) // PoolsQuery is a query on the pool table type PoolsQuery = *psql.ViewQuery[*Pool, PoolSlice] // poolR is where relationships are stored. type poolR struct { CreatorUser *User // pool.pool_creator_id_fkey Site *Site // pool.pool_site_id_site_version_fkey } func buildPoolColumns(alias string) poolColumns { return poolColumns{ ColumnsExpr: expr.NewColumnsExpr( "condition", "created", "creator_id", "id", "site_id", "site_version", ).WithParent("pool"), tableAlias: alias, Condition: psql.Quote(alias, "condition"), Created: psql.Quote(alias, "created"), CreatorID: psql.Quote(alias, "creator_id"), ID: psql.Quote(alias, "id"), SiteID: psql.Quote(alias, "site_id"), SiteVersion: psql.Quote(alias, "site_version"), } } type poolColumns struct { expr.ColumnsExpr tableAlias string Condition psql.Expression Created psql.Expression CreatorID psql.Expression ID psql.Expression SiteID psql.Expression SiteVersion psql.Expression } func (c poolColumns) Alias() string { return c.tableAlias } func (poolColumns) AliasedAs(alias string) poolColumns { return buildPoolColumns(alias) } // PoolSetter is used for insert/upsert/update operations // All values are optional, and do not have to be set // Generated columns are not included type PoolSetter struct { Condition omit.Val[enums.Poolconditiontype] `db:"condition" ` Created omit.Val[time.Time] `db:"created" ` CreatorID omit.Val[int32] `db:"creator_id" ` ID omit.Val[int32] `db:"id,pk" ` SiteID omit.Val[int32] `db:"site_id" ` SiteVersion omit.Val[int32] `db:"site_version" ` } func (s PoolSetter) SetColumns() []string { vals := make([]string, 0, 6) if s.Condition.IsValue() { vals = append(vals, "condition") } if s.Created.IsValue() { vals = append(vals, "created") } if s.CreatorID.IsValue() { vals = append(vals, "creator_id") } if s.ID.IsValue() { vals = append(vals, "id") } if s.SiteID.IsValue() { vals = append(vals, "site_id") } if s.SiteVersion.IsValue() { vals = append(vals, "site_version") } return vals } func (s PoolSetter) Overwrite(t *Pool) { if s.Condition.IsValue() { t.Condition = s.Condition.MustGet() } if s.Created.IsValue() { t.Created = s.Created.MustGet() } if s.CreatorID.IsValue() { t.CreatorID = s.CreatorID.MustGet() } if s.ID.IsValue() { t.ID = s.ID.MustGet() } if s.SiteID.IsValue() { t.SiteID = s.SiteID.MustGet() } if s.SiteVersion.IsValue() { t.SiteVersion = s.SiteVersion.MustGet() } } func (s *PoolSetter) Apply(q *dialect.InsertQuery) { q.AppendHooks(func(ctx context.Context, exec bob.Executor) (context.Context, error) { return Pools.BeforeInsertHooks.RunHooks(ctx, exec, s) }) q.AppendValues(bob.ExpressionFunc(func(ctx context.Context, w io.StringWriter, d bob.Dialect, start int) ([]any, error) { vals := make([]bob.Expression, 6) if s.Condition.IsValue() { vals[0] = psql.Arg(s.Condition.MustGet()) } else { vals[0] = psql.Raw("DEFAULT") } if s.Created.IsValue() { vals[1] = psql.Arg(s.Created.MustGet()) } else { vals[1] = psql.Raw("DEFAULT") } if s.CreatorID.IsValue() { vals[2] = psql.Arg(s.CreatorID.MustGet()) } else { vals[2] = psql.Raw("DEFAULT") } if s.ID.IsValue() { vals[3] = psql.Arg(s.ID.MustGet()) } else { vals[3] = psql.Raw("DEFAULT") } if s.SiteID.IsValue() { vals[4] = psql.Arg(s.SiteID.MustGet()) } else { vals[4] = psql.Raw("DEFAULT") } if s.SiteVersion.IsValue() { vals[5] = psql.Arg(s.SiteVersion.MustGet()) } else { vals[5] = psql.Raw("DEFAULT") } return bob.ExpressSlice(ctx, w, d, start, vals, "", ", ", "") })) } func (s PoolSetter) UpdateMod() bob.Mod[*dialect.UpdateQuery] { return um.Set(s.Expressions()...) } func (s PoolSetter) Expressions(prefix ...string) []bob.Expression { exprs := make([]bob.Expression, 0, 6) if s.Condition.IsValue() { exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{ psql.Quote(append(prefix, "condition")...), psql.Arg(s.Condition), }}) } if s.Created.IsValue() { exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{ psql.Quote(append(prefix, "created")...), psql.Arg(s.Created), }}) } if s.CreatorID.IsValue() { exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{ psql.Quote(append(prefix, "creator_id")...), psql.Arg(s.CreatorID), }}) } if s.ID.IsValue() { exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{ psql.Quote(append(prefix, "id")...), psql.Arg(s.ID), }}) } if s.SiteID.IsValue() { exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{ psql.Quote(append(prefix, "site_id")...), psql.Arg(s.SiteID), }}) } if s.SiteVersion.IsValue() { exprs = append(exprs, expr.Join{Sep: " = ", Exprs: []bob.Expression{ psql.Quote(append(prefix, "site_version")...), psql.Arg(s.SiteVersion), }}) } return exprs } // FindPool retrieves a single record by primary key // If cols is empty Find will return all columns. func FindPool(ctx context.Context, exec bob.Executor, IDPK int32, cols ...string) (*Pool, error) { if len(cols) == 0 { return Pools.Query( sm.Where(Pools.Columns.ID.EQ(psql.Arg(IDPK))), ).One(ctx, exec) } return Pools.Query( sm.Where(Pools.Columns.ID.EQ(psql.Arg(IDPK))), sm.Columns(Pools.Columns.Only(cols...)), ).One(ctx, exec) } // PoolExists checks the presence of a single record by primary key func PoolExists(ctx context.Context, exec bob.Executor, IDPK int32) (bool, error) { return Pools.Query( sm.Where(Pools.Columns.ID.EQ(psql.Arg(IDPK))), ).Exists(ctx, exec) } // AfterQueryHook is called after Pool is retrieved from the database func (o *Pool) AfterQueryHook(ctx context.Context, exec bob.Executor, queryType bob.QueryType) error { var err error switch queryType { case bob.QueryTypeSelect: ctx, err = Pools.AfterSelectHooks.RunHooks(ctx, exec, PoolSlice{o}) case bob.QueryTypeInsert: ctx, err = Pools.AfterInsertHooks.RunHooks(ctx, exec, PoolSlice{o}) case bob.QueryTypeUpdate: ctx, err = Pools.AfterUpdateHooks.RunHooks(ctx, exec, PoolSlice{o}) case bob.QueryTypeDelete: ctx, err = Pools.AfterDeleteHooks.RunHooks(ctx, exec, PoolSlice{o}) } return err } // primaryKeyVals returns the primary key values of the Pool func (o *Pool) primaryKeyVals() bob.Expression { return psql.Arg(o.ID) } func (o *Pool) pkEQ() dialect.Expression { return psql.Quote("pool", "id").EQ(bob.ExpressionFunc(func(ctx context.Context, w io.StringWriter, d bob.Dialect, start int) ([]any, error) { return o.primaryKeyVals().WriteSQL(ctx, w, d, start) })) } // Update uses an executor to update the Pool func (o *Pool) Update(ctx context.Context, exec bob.Executor, s *PoolSetter) error { v, err := Pools.Update(s.UpdateMod(), um.Where(o.pkEQ())).One(ctx, exec) if err != nil { return err } o.R = v.R *o = *v return nil } // Delete deletes a single Pool record with an executor func (o *Pool) Delete(ctx context.Context, exec bob.Executor) error { _, err := Pools.Delete(dm.Where(o.pkEQ())).Exec(ctx, exec) return err } // Reload refreshes the Pool using the executor func (o *Pool) Reload(ctx context.Context, exec bob.Executor) error { o2, err := Pools.Query( sm.Where(Pools.Columns.ID.EQ(psql.Arg(o.ID))), ).One(ctx, exec) if err != nil { return err } o2.R = o.R *o = *o2 return nil } // AfterQueryHook is called after PoolSlice is retrieved from the database func (o PoolSlice) AfterQueryHook(ctx context.Context, exec bob.Executor, queryType bob.QueryType) error { var err error switch queryType { case bob.QueryTypeSelect: ctx, err = Pools.AfterSelectHooks.RunHooks(ctx, exec, o) case bob.QueryTypeInsert: ctx, err = Pools.AfterInsertHooks.RunHooks(ctx, exec, o) case bob.QueryTypeUpdate: ctx, err = Pools.AfterUpdateHooks.RunHooks(ctx, exec, o) case bob.QueryTypeDelete: ctx, err = Pools.AfterDeleteHooks.RunHooks(ctx, exec, o) } return err } func (o PoolSlice) pkIN() dialect.Expression { if len(o) == 0 { return psql.Raw("NULL") } return psql.Quote("pool", "id").In(bob.ExpressionFunc(func(ctx context.Context, w io.StringWriter, d bob.Dialect, start int) ([]any, error) { pkPairs := make([]bob.Expression, len(o)) for i, row := range o { pkPairs[i] = row.primaryKeyVals() } return bob.ExpressSlice(ctx, w, d, start, pkPairs, "", ", ", "") })) } // copyMatchingRows finds models in the given slice that have the same primary key // then it first copies the existing relationships from the old model to the new model // and then replaces the old model in the slice with the new model func (o PoolSlice) copyMatchingRows(from ...*Pool) { for i, old := range o { for _, new := range from { if new.ID != old.ID { continue } new.R = old.R o[i] = new break } } } // UpdateMod modifies an update query with "WHERE primary_key IN (o...)" func (o PoolSlice) UpdateMod() bob.Mod[*dialect.UpdateQuery] { return bob.ModFunc[*dialect.UpdateQuery](func(q *dialect.UpdateQuery) { q.AppendHooks(func(ctx context.Context, exec bob.Executor) (context.Context, error) { return Pools.BeforeUpdateHooks.RunHooks(ctx, exec, o) }) q.AppendLoader(bob.LoaderFunc(func(ctx context.Context, exec bob.Executor, retrieved any) error { var err error switch retrieved := retrieved.(type) { case *Pool: o.copyMatchingRows(retrieved) case []*Pool: o.copyMatchingRows(retrieved...) case PoolSlice: o.copyMatchingRows(retrieved...) default: // If the retrieved value is not a Pool or a slice of Pool // then run the AfterUpdateHooks on the slice _, err = Pools.AfterUpdateHooks.RunHooks(ctx, exec, o) } return err })) q.AppendWhere(o.pkIN()) }) } // DeleteMod modifies an delete query with "WHERE primary_key IN (o...)" func (o PoolSlice) DeleteMod() bob.Mod[*dialect.DeleteQuery] { return bob.ModFunc[*dialect.DeleteQuery](func(q *dialect.DeleteQuery) { q.AppendHooks(func(ctx context.Context, exec bob.Executor) (context.Context, error) { return Pools.BeforeDeleteHooks.RunHooks(ctx, exec, o) }) q.AppendLoader(bob.LoaderFunc(func(ctx context.Context, exec bob.Executor, retrieved any) error { var err error switch retrieved := retrieved.(type) { case *Pool: o.copyMatchingRows(retrieved) case []*Pool: o.copyMatchingRows(retrieved...) case PoolSlice: o.copyMatchingRows(retrieved...) default: // If the retrieved value is not a Pool or a slice of Pool // then run the AfterDeleteHooks on the slice _, err = Pools.AfterDeleteHooks.RunHooks(ctx, exec, o) } return err })) q.AppendWhere(o.pkIN()) }) } func (o PoolSlice) UpdateAll(ctx context.Context, exec bob.Executor, vals PoolSetter) error { if len(o) == 0 { return nil } _, err := Pools.Update(vals.UpdateMod(), o.UpdateMod()).All(ctx, exec) return err } func (o PoolSlice) DeleteAll(ctx context.Context, exec bob.Executor) error { if len(o) == 0 { return nil } _, err := Pools.Delete(o.DeleteMod()).Exec(ctx, exec) return err } func (o PoolSlice) ReloadAll(ctx context.Context, exec bob.Executor) error { if len(o) == 0 { return nil } o2, err := Pools.Query(sm.Where(o.pkIN())).All(ctx, exec) if err != nil { return err } o.copyMatchingRows(o2...) return nil } // CreatorUser starts a query for related objects on user_ func (o *Pool) CreatorUser(mods ...bob.Mod[*dialect.SelectQuery]) UsersQuery { return Users.Query(append(mods, sm.Where(Users.Columns.ID.EQ(psql.Arg(o.CreatorID))), )...) } func (os PoolSlice) CreatorUser(mods ...bob.Mod[*dialect.SelectQuery]) UsersQuery { pkCreatorID := make(pgtypes.Array[int32], 0, len(os)) for _, o := range os { if o == nil { continue } pkCreatorID = append(pkCreatorID, o.CreatorID) } PKArgExpr := psql.Select(sm.Columns( psql.F("unnest", psql.Cast(psql.Arg(pkCreatorID), "integer[]")), )) return Users.Query(append(mods, sm.Where(psql.Group(Users.Columns.ID).OP("IN", PKArgExpr)), )...) } // Site starts a query for related objects on site func (o *Pool) Site(mods ...bob.Mod[*dialect.SelectQuery]) SitesQuery { return Sites.Query(append(mods, sm.Where(Sites.Columns.ID.EQ(psql.Arg(o.SiteID))), sm.Where(Sites.Columns.Version.EQ(psql.Arg(o.SiteVersion))), )...) } func (os PoolSlice) Site(mods ...bob.Mod[*dialect.SelectQuery]) SitesQuery { pkSiteID := make(pgtypes.Array[int32], 0, len(os)) pkSiteVersion := make(pgtypes.Array[int32], 0, len(os)) for _, o := range os { if o == nil { continue } pkSiteID = append(pkSiteID, o.SiteID) pkSiteVersion = append(pkSiteVersion, o.SiteVersion) } PKArgExpr := psql.Select(sm.Columns( psql.F("unnest", psql.Cast(psql.Arg(pkSiteID), "integer[]")), psql.F("unnest", psql.Cast(psql.Arg(pkSiteVersion), "integer[]")), )) return Sites.Query(append(mods, sm.Where(psql.Group(Sites.Columns.ID, Sites.Columns.Version).OP("IN", PKArgExpr)), )...) } func attachPoolCreatorUser0(ctx context.Context, exec bob.Executor, count int, pool0 *Pool, user1 *User) (*Pool, error) { setter := &PoolSetter{ CreatorID: omit.From(user1.ID), } err := pool0.Update(ctx, exec, setter) if err != nil { return nil, fmt.Errorf("attachPoolCreatorUser0: %w", err) } return pool0, nil } func (pool0 *Pool) InsertCreatorUser(ctx context.Context, exec bob.Executor, related *UserSetter) error { var err error user1, err := Users.Insert(related).One(ctx, exec) if err != nil { return fmt.Errorf("inserting related objects: %w", err) } _, err = attachPoolCreatorUser0(ctx, exec, 1, pool0, user1) if err != nil { return err } pool0.R.CreatorUser = user1 user1.R.CreatorPools = append(user1.R.CreatorPools, pool0) return nil } func (pool0 *Pool) AttachCreatorUser(ctx context.Context, exec bob.Executor, user1 *User) error { var err error _, err = attachPoolCreatorUser0(ctx, exec, 1, pool0, user1) if err != nil { return err } pool0.R.CreatorUser = user1 user1.R.CreatorPools = append(user1.R.CreatorPools, pool0) return nil } func attachPoolSite0(ctx context.Context, exec bob.Executor, count int, pool0 *Pool, site1 *Site) (*Pool, error) { setter := &PoolSetter{ SiteID: omit.From(site1.ID), SiteVersion: omit.From(site1.Version), } err := pool0.Update(ctx, exec, setter) if err != nil { return nil, fmt.Errorf("attachPoolSite0: %w", err) } return pool0, nil } func (pool0 *Pool) InsertSite(ctx context.Context, exec bob.Executor, related *SiteSetter) error { var err error site1, err := Sites.Insert(related).One(ctx, exec) if err != nil { return fmt.Errorf("inserting related objects: %w", err) } _, err = attachPoolSite0(ctx, exec, 1, pool0, site1) if err != nil { return err } pool0.R.Site = site1 site1.R.Pools = append(site1.R.Pools, pool0) return nil } func (pool0 *Pool) AttachSite(ctx context.Context, exec bob.Executor, site1 *Site) error { var err error _, err = attachPoolSite0(ctx, exec, 1, pool0, site1) if err != nil { return err } pool0.R.Site = site1 site1.R.Pools = append(site1.R.Pools, pool0) return nil } type poolWhere[Q psql.Filterable] struct { Condition psql.WhereMod[Q, enums.Poolconditiontype] Created psql.WhereMod[Q, time.Time] CreatorID psql.WhereMod[Q, int32] ID psql.WhereMod[Q, int32] SiteID psql.WhereMod[Q, int32] SiteVersion psql.WhereMod[Q, int32] } func (poolWhere[Q]) AliasedAs(alias string) poolWhere[Q] { return buildPoolWhere[Q](buildPoolColumns(alias)) } func buildPoolWhere[Q psql.Filterable](cols poolColumns) poolWhere[Q] { return poolWhere[Q]{ Condition: psql.Where[Q, enums.Poolconditiontype](cols.Condition), Created: psql.Where[Q, time.Time](cols.Created), CreatorID: psql.Where[Q, int32](cols.CreatorID), ID: psql.Where[Q, int32](cols.ID), SiteID: psql.Where[Q, int32](cols.SiteID), SiteVersion: psql.Where[Q, int32](cols.SiteVersion), } } func (o *Pool) Preload(name string, retrieved any) error { if o == nil { return nil } switch name { case "CreatorUser": rel, ok := retrieved.(*User) if !ok { return fmt.Errorf("pool cannot load %T as %q", retrieved, name) } o.R.CreatorUser = rel if rel != nil { rel.R.CreatorPools = PoolSlice{o} } return nil case "Site": rel, ok := retrieved.(*Site) if !ok { return fmt.Errorf("pool cannot load %T as %q", retrieved, name) } o.R.Site = rel if rel != nil { rel.R.Pools = PoolSlice{o} } return nil default: return fmt.Errorf("pool has no relationship %q", name) } } type poolPreloader struct { CreatorUser func(...psql.PreloadOption) psql.Preloader Site func(...psql.PreloadOption) psql.Preloader } func buildPoolPreloader() poolPreloader { return poolPreloader{ CreatorUser: func(opts ...psql.PreloadOption) psql.Preloader { return psql.Preload[*User, UserSlice](psql.PreloadRel{ Name: "CreatorUser", Sides: []psql.PreloadSide{ { From: Pools, To: Users, FromColumns: []string{"creator_id"}, ToColumns: []string{"id"}, }, }, }, Users.Columns.Names(), opts...) }, Site: func(opts ...psql.PreloadOption) psql.Preloader { return psql.Preload[*Site, SiteSlice](psql.PreloadRel{ Name: "Site", Sides: []psql.PreloadSide{ { From: Pools, To: Sites, FromColumns: []string{"site_id", "site_version"}, ToColumns: []string{"id", "version"}, }, }, }, Sites.Columns.Names(), opts...) }, } } type poolThenLoader[Q orm.Loadable] struct { CreatorUser func(...bob.Mod[*dialect.SelectQuery]) orm.Loader[Q] Site func(...bob.Mod[*dialect.SelectQuery]) orm.Loader[Q] } func buildPoolThenLoader[Q orm.Loadable]() poolThenLoader[Q] { type CreatorUserLoadInterface interface { LoadCreatorUser(context.Context, bob.Executor, ...bob.Mod[*dialect.SelectQuery]) error } type SiteLoadInterface interface { LoadSite(context.Context, bob.Executor, ...bob.Mod[*dialect.SelectQuery]) error } return poolThenLoader[Q]{ CreatorUser: thenLoadBuilder[Q]( "CreatorUser", func(ctx context.Context, exec bob.Executor, retrieved CreatorUserLoadInterface, mods ...bob.Mod[*dialect.SelectQuery]) error { return retrieved.LoadCreatorUser(ctx, exec, mods...) }, ), Site: thenLoadBuilder[Q]( "Site", func(ctx context.Context, exec bob.Executor, retrieved SiteLoadInterface, mods ...bob.Mod[*dialect.SelectQuery]) error { return retrieved.LoadSite(ctx, exec, mods...) }, ), } } // LoadCreatorUser loads the pool's CreatorUser into the .R struct func (o *Pool) LoadCreatorUser(ctx context.Context, exec bob.Executor, mods ...bob.Mod[*dialect.SelectQuery]) error { if o == nil { return nil } // Reset the relationship o.R.CreatorUser = nil related, err := o.CreatorUser(mods...).One(ctx, exec) if err != nil { return err } related.R.CreatorPools = PoolSlice{o} o.R.CreatorUser = related return nil } // LoadCreatorUser loads the pool's CreatorUser into the .R struct func (os PoolSlice) LoadCreatorUser(ctx context.Context, exec bob.Executor, mods ...bob.Mod[*dialect.SelectQuery]) error { if len(os) == 0 { return nil } users, err := os.CreatorUser(mods...).All(ctx, exec) if err != nil { return err } for _, o := range os { if o == nil { continue } for _, rel := range users { if !(o.CreatorID == rel.ID) { continue } rel.R.CreatorPools = append(rel.R.CreatorPools, o) o.R.CreatorUser = rel break } } return nil } // LoadSite loads the pool's Site into the .R struct func (o *Pool) LoadSite(ctx context.Context, exec bob.Executor, mods ...bob.Mod[*dialect.SelectQuery]) error { if o == nil { return nil } // Reset the relationship o.R.Site = nil related, err := o.Site(mods...).One(ctx, exec) if err != nil { return err } related.R.Pools = PoolSlice{o} o.R.Site = related return nil } // LoadSite loads the pool's Site into the .R struct func (os PoolSlice) LoadSite(ctx context.Context, exec bob.Executor, mods ...bob.Mod[*dialect.SelectQuery]) error { if len(os) == 0 { return nil } sites, err := os.Site(mods...).All(ctx, exec) if err != nil { return err } for _, o := range os { if o == nil { continue } for _, rel := range sites { if !(o.SiteID == rel.ID) { continue } if !(o.SiteVersion == rel.Version) { continue } rel.R.Pools = append(rel.R.Pools, o) o.R.Site = rel break } } return nil } type poolJoins[Q dialect.Joinable] struct { typ string CreatorUser modAs[Q, userColumns] Site modAs[Q, siteColumns] } func (j poolJoins[Q]) aliasedAs(alias string) poolJoins[Q] { return buildPoolJoins[Q](buildPoolColumns(alias), j.typ) } func buildPoolJoins[Q dialect.Joinable](cols poolColumns, typ string) poolJoins[Q] { return poolJoins[Q]{ typ: typ, CreatorUser: modAs[Q, userColumns]{ c: Users.Columns, f: func(to userColumns) bob.Mod[Q] { mods := make(mods.QueryMods[Q], 0, 1) { mods = append(mods, dialect.Join[Q](typ, Users.Name().As(to.Alias())).On( to.ID.EQ(cols.CreatorID), )) } return mods }, }, Site: modAs[Q, siteColumns]{ c: Sites.Columns, f: func(to siteColumns) bob.Mod[Q] { mods := make(mods.QueryMods[Q], 0, 1) { mods = append(mods, dialect.Join[Q](typ, Sites.Name().As(to.Alias())).On( to.ID.EQ(cols.SiteID), to.Version.EQ(cols.SiteVersion), )) } return mods }, }, } }