// Code generated by ent, DO NOT EDIT. package ent import ( "context" "database/sql/driver" "fmt" "math" "thesis/ent/blocks" "thesis/ent/predicate" "thesis/ent/transactions" "thesis/ent/validators" "entgo.io/ent/dialect/sql" "entgo.io/ent/dialect/sql/sqlgraph" "entgo.io/ent/schema/field" ) // BlocksQuery is the builder for querying Blocks entities. type BlocksQuery struct { config ctx *QueryContext order []blocks.OrderOption inters []Interceptor predicates []predicate.Blocks withCaster *ValidatorsQuery withMinedTxs *TransactionsQuery // intermediate query (i.e. traversal path). sql *sql.Selector path func(context.Context) (*sql.Selector, error) } // Where adds a new predicate for the BlocksQuery builder. func (bq *BlocksQuery) Where(ps ...predicate.Blocks) *BlocksQuery { bq.predicates = append(bq.predicates, ps...) return bq } // Limit the number of records to be returned by this query. func (bq *BlocksQuery) Limit(limit int) *BlocksQuery { bq.ctx.Limit = &limit return bq } // Offset to start from. func (bq *BlocksQuery) Offset(offset int) *BlocksQuery { bq.ctx.Offset = &offset return bq } // Unique configures the query builder to filter duplicate records on query. // By default, unique is set to true, and can be disabled using this method. func (bq *BlocksQuery) Unique(unique bool) *BlocksQuery { bq.ctx.Unique = &unique return bq } // Order specifies how the records should be ordered. func (bq *BlocksQuery) Order(o ...blocks.OrderOption) *BlocksQuery { bq.order = append(bq.order, o...) return bq } // QueryCaster chains the current query on the "Caster" edge. func (bq *BlocksQuery) QueryCaster() *ValidatorsQuery { query := (&ValidatorsClient{config: bq.config}).Query() query.path = func(ctx context.Context) (fromU *sql.Selector, err error) { if err := bq.prepareQuery(ctx); err != nil { return nil, err } selector := bq.sqlQuery(ctx) if err := selector.Err(); err != nil { return nil, err } step := sqlgraph.NewStep( sqlgraph.From(blocks.Table, blocks.FieldID, selector), sqlgraph.To(validators.Table, validators.FieldID), sqlgraph.Edge(sqlgraph.O2M, false, blocks.CasterTable, blocks.CasterColumn), ) fromU = sqlgraph.SetNeighbors(bq.driver.Dialect(), step) return fromU, nil } return query } // QueryMinedTxs chains the current query on the "MinedTxs" edge. func (bq *BlocksQuery) QueryMinedTxs() *TransactionsQuery { query := (&TransactionsClient{config: bq.config}).Query() query.path = func(ctx context.Context) (fromU *sql.Selector, err error) { if err := bq.prepareQuery(ctx); err != nil { return nil, err } selector := bq.sqlQuery(ctx) if err := selector.Err(); err != nil { return nil, err } step := sqlgraph.NewStep( sqlgraph.From(blocks.Table, blocks.FieldID, selector), sqlgraph.To(transactions.Table, transactions.FieldID), sqlgraph.Edge(sqlgraph.M2M, false, blocks.MinedTxsTable, blocks.MinedTxsPrimaryKey...), ) fromU = sqlgraph.SetNeighbors(bq.driver.Dialect(), step) return fromU, nil } return query } // First returns the first Blocks entity from the query. // Returns a *NotFoundError when no Blocks was found. func (bq *BlocksQuery) First(ctx context.Context) (*Blocks, error) { nodes, err := bq.Limit(1).All(setContextOp(ctx, bq.ctx, "First")) if err != nil { return nil, err } if len(nodes) == 0 { return nil, &NotFoundError{blocks.Label} } return nodes[0], nil } // FirstX is like First, but panics if an error occurs. func (bq *BlocksQuery) FirstX(ctx context.Context) *Blocks { node, err := bq.First(ctx) if err != nil && !IsNotFound(err) { panic(err) } return node } // FirstID returns the first Blocks ID from the query. // Returns a *NotFoundError when no Blocks ID was found. func (bq *BlocksQuery) FirstID(ctx context.Context) (id int, err error) { var ids []int if ids, err = bq.Limit(1).IDs(setContextOp(ctx, bq.ctx, "FirstID")); err != nil { return } if len(ids) == 0 { err = &NotFoundError{blocks.Label} return } return ids[0], nil } // FirstIDX is like FirstID, but panics if an error occurs. func (bq *BlocksQuery) FirstIDX(ctx context.Context) int { id, err := bq.FirstID(ctx) if err != nil && !IsNotFound(err) { panic(err) } return id } // Only returns a single Blocks entity found by the query, ensuring it only returns one. // Returns a *NotSingularError when more than one Blocks entity is found. // Returns a *NotFoundError when no Blocks entities are found. func (bq *BlocksQuery) Only(ctx context.Context) (*Blocks, error) { nodes, err := bq.Limit(2).All(setContextOp(ctx, bq.ctx, "Only")) if err != nil { return nil, err } switch len(nodes) { case 1: return nodes[0], nil case 0: return nil, &NotFoundError{blocks.Label} default: return nil, &NotSingularError{blocks.Label} } } // OnlyX is like Only, but panics if an error occurs. func (bq *BlocksQuery) OnlyX(ctx context.Context) *Blocks { node, err := bq.Only(ctx) if err != nil { panic(err) } return node } // OnlyID is like Only, but returns the only Blocks ID in the query. // Returns a *NotSingularError when more than one Blocks ID is found. // Returns a *NotFoundError when no entities are found. func (bq *BlocksQuery) OnlyID(ctx context.Context) (id int, err error) { var ids []int if ids, err = bq.Limit(2).IDs(setContextOp(ctx, bq.ctx, "OnlyID")); err != nil { return } switch len(ids) { case 1: id = ids[0] case 0: err = &NotFoundError{blocks.Label} default: err = &NotSingularError{blocks.Label} } return } // OnlyIDX is like OnlyID, but panics if an error occurs. func (bq *BlocksQuery) OnlyIDX(ctx context.Context) int { id, err := bq.OnlyID(ctx) if err != nil { panic(err) } return id } // All executes the query and returns a list of BlocksSlice. func (bq *BlocksQuery) All(ctx context.Context) ([]*Blocks, error) { ctx = setContextOp(ctx, bq.ctx, "All") if err := bq.prepareQuery(ctx); err != nil { return nil, err } qr := querierAll[[]*Blocks, *BlocksQuery]() return withInterceptors[[]*Blocks](ctx, bq, qr, bq.inters) } // AllX is like All, but panics if an error occurs. func (bq *BlocksQuery) AllX(ctx context.Context) []*Blocks { nodes, err := bq.All(ctx) if err != nil { panic(err) } return nodes } // IDs executes the query and returns a list of Blocks IDs. func (bq *BlocksQuery) IDs(ctx context.Context) (ids []int, err error) { if bq.ctx.Unique == nil && bq.path != nil { bq.Unique(true) } ctx = setContextOp(ctx, bq.ctx, "IDs") if err = bq.Select(blocks.FieldID).Scan(ctx, &ids); err != nil { return nil, err } return ids, nil } // IDsX is like IDs, but panics if an error occurs. func (bq *BlocksQuery) IDsX(ctx context.Context) []int { ids, err := bq.IDs(ctx) if err != nil { panic(err) } return ids } // Count returns the count of the given query. func (bq *BlocksQuery) Count(ctx context.Context) (int, error) { ctx = setContextOp(ctx, bq.ctx, "Count") if err := bq.prepareQuery(ctx); err != nil { return 0, err } return withInterceptors[int](ctx, bq, querierCount[*BlocksQuery](), bq.inters) } // CountX is like Count, but panics if an error occurs. func (bq *BlocksQuery) CountX(ctx context.Context) int { count, err := bq.Count(ctx) if err != nil { panic(err) } return count } // Exist returns true if the query has elements in the graph. func (bq *BlocksQuery) Exist(ctx context.Context) (bool, error) { ctx = setContextOp(ctx, bq.ctx, "Exist") switch _, err := bq.FirstID(ctx); { case IsNotFound(err): return false, nil case err != nil: return false, fmt.Errorf("ent: check existence: %w", err) default: return true, nil } } // ExistX is like Exist, but panics if an error occurs. func (bq *BlocksQuery) ExistX(ctx context.Context) bool { exist, err := bq.Exist(ctx) if err != nil { panic(err) } return exist } // Clone returns a duplicate of the BlocksQuery builder, including all associated steps. It can be // used to prepare common query builders and use them differently after the clone is made. func (bq *BlocksQuery) Clone() *BlocksQuery { if bq == nil { return nil } return &BlocksQuery{ config: bq.config, ctx: bq.ctx.Clone(), order: append([]blocks.OrderOption{}, bq.order...), inters: append([]Interceptor{}, bq.inters...), predicates: append([]predicate.Blocks{}, bq.predicates...), withCaster: bq.withCaster.Clone(), withMinedTxs: bq.withMinedTxs.Clone(), // clone intermediate query. sql: bq.sql.Clone(), path: bq.path, } } // WithCaster tells the query-builder to eager-load the nodes that are connected to // the "Caster" edge. The optional arguments are used to configure the query builder of the edge. func (bq *BlocksQuery) WithCaster(opts ...func(*ValidatorsQuery)) *BlocksQuery { query := (&ValidatorsClient{config: bq.config}).Query() for _, opt := range opts { opt(query) } bq.withCaster = query return bq } // WithMinedTxs tells the query-builder to eager-load the nodes that are connected to // the "MinedTxs" edge. The optional arguments are used to configure the query builder of the edge. func (bq *BlocksQuery) WithMinedTxs(opts ...func(*TransactionsQuery)) *BlocksQuery { query := (&TransactionsClient{config: bq.config}).Query() for _, opt := range opts { opt(query) } bq.withMinedTxs = query return bq } // GroupBy is used to group vertices by one or more fields/columns. // It is often used with aggregate functions, like: count, max, mean, min, sum. // // Example: // // var v []struct { // Hash string `json:"hash,omitempty"` // Count int `json:"count,omitempty"` // } // // client.Blocks.Query(). // GroupBy(blocks.FieldHash). // Aggregate(ent.Count()). // Scan(ctx, &v) func (bq *BlocksQuery) GroupBy(field string, fields ...string) *BlocksGroupBy { bq.ctx.Fields = append([]string{field}, fields...) grbuild := &BlocksGroupBy{build: bq} grbuild.flds = &bq.ctx.Fields grbuild.label = blocks.Label grbuild.scan = grbuild.Scan return grbuild } // Select allows the selection one or more fields/columns for the given query, // instead of selecting all fields in the entity. // // Example: // // var v []struct { // Hash string `json:"hash,omitempty"` // } // // client.Blocks.Query(). // Select(blocks.FieldHash). // Scan(ctx, &v) func (bq *BlocksQuery) Select(fields ...string) *BlocksSelect { bq.ctx.Fields = append(bq.ctx.Fields, fields...) sbuild := &BlocksSelect{BlocksQuery: bq} sbuild.label = blocks.Label sbuild.flds, sbuild.scan = &bq.ctx.Fields, sbuild.Scan return sbuild } // Aggregate returns a BlocksSelect configured with the given aggregations. func (bq *BlocksQuery) Aggregate(fns ...AggregateFunc) *BlocksSelect { return bq.Select().Aggregate(fns...) } func (bq *BlocksQuery) prepareQuery(ctx context.Context) error { for _, inter := range bq.inters { if inter == nil { return fmt.Errorf("ent: uninitialized interceptor (forgotten import ent/runtime?)") } if trv, ok := inter.(Traverser); ok { if err := trv.Traverse(ctx, bq); err != nil { return err } } } for _, f := range bq.ctx.Fields { if !blocks.ValidColumn(f) { return &ValidationError{Name: f, err: fmt.Errorf("ent: invalid field %q for query", f)} } } if bq.path != nil { prev, err := bq.path(ctx) if err != nil { return err } bq.sql = prev } return nil } func (bq *BlocksQuery) sqlAll(ctx context.Context, hooks ...queryHook) ([]*Blocks, error) { var ( nodes = []*Blocks{} _spec = bq.querySpec() loadedTypes = [2]bool{ bq.withCaster != nil, bq.withMinedTxs != nil, } ) _spec.ScanValues = func(columns []string) ([]any, error) { return (*Blocks).scanValues(nil, columns) } _spec.Assign = func(columns []string, values []any) error { node := &Blocks{config: bq.config} nodes = append(nodes, node) node.Edges.loadedTypes = loadedTypes return node.assignValues(columns, values) } for i := range hooks { hooks[i](ctx, _spec) } if err := sqlgraph.QueryNodes(ctx, bq.driver, _spec); err != nil { return nil, err } if len(nodes) == 0 { return nodes, nil } if query := bq.withCaster; query != nil { if err := bq.loadCaster(ctx, query, nodes, func(n *Blocks) { n.Edges.Caster = []*Validators{} }, func(n *Blocks, e *Validators) { n.Edges.Caster = append(n.Edges.Caster, e) }); err != nil { return nil, err } } if query := bq.withMinedTxs; query != nil { if err := bq.loadMinedTxs(ctx, query, nodes, func(n *Blocks) { n.Edges.MinedTxs = []*Transactions{} }, func(n *Blocks, e *Transactions) { n.Edges.MinedTxs = append(n.Edges.MinedTxs, e) }); err != nil { return nil, err } } return nodes, nil } func (bq *BlocksQuery) loadCaster(ctx context.Context, query *ValidatorsQuery, nodes []*Blocks, init func(*Blocks), assign func(*Blocks, *Validators)) error { fks := make([]driver.Value, 0, len(nodes)) nodeids := make(map[int]*Blocks) for i := range nodes { fks = append(fks, nodes[i].ID) nodeids[nodes[i].ID] = nodes[i] if init != nil { init(nodes[i]) } } query.withFKs = true query.Where(predicate.Validators(func(s *sql.Selector) { s.Where(sql.InValues(s.C(blocks.CasterColumn), fks...)) })) neighbors, err := query.All(ctx) if err != nil { return err } for _, n := range neighbors { fk := n.blocks_caster if fk == nil { return fmt.Errorf(`foreign-key "blocks_caster" is nil for node %v`, n.ID) } node, ok := nodeids[*fk] if !ok { return fmt.Errorf(`unexpected referenced foreign-key "blocks_caster" returned %v for node %v`, *fk, n.ID) } assign(node, n) } return nil } func (bq *BlocksQuery) loadMinedTxs(ctx context.Context, query *TransactionsQuery, nodes []*Blocks, init func(*Blocks), assign func(*Blocks, *Transactions)) error { edgeIDs := make([]driver.Value, len(nodes)) byID := make(map[int]*Blocks) nids := make(map[int]map[*Blocks]struct{}) for i, node := range nodes { edgeIDs[i] = node.ID byID[node.ID] = node if init != nil { init(node) } } query.Where(func(s *sql.Selector) { joinT := sql.Table(blocks.MinedTxsTable) s.Join(joinT).On(s.C(transactions.FieldID), joinT.C(blocks.MinedTxsPrimaryKey[1])) s.Where(sql.InValues(joinT.C(blocks.MinedTxsPrimaryKey[0]), edgeIDs...)) columns := s.SelectedColumns() s.Select(joinT.C(blocks.MinedTxsPrimaryKey[0])) s.AppendSelect(columns...) s.SetDistinct(false) }) if err := query.prepareQuery(ctx); err != nil { return err } qr := QuerierFunc(func(ctx context.Context, q Query) (Value, error) { return query.sqlAll(ctx, func(_ context.Context, spec *sqlgraph.QuerySpec) { assign := spec.Assign values := spec.ScanValues spec.ScanValues = func(columns []string) ([]any, error) { values, err := values(columns[1:]) if err != nil { return nil, err } return append([]any{new(sql.NullInt64)}, values...), nil } spec.Assign = func(columns []string, values []any) error { outValue := int(values[0].(*sql.NullInt64).Int64) inValue := int(values[1].(*sql.NullInt64).Int64) if nids[inValue] == nil { nids[inValue] = map[*Blocks]struct{}{byID[outValue]: {}} return assign(columns[1:], values[1:]) } nids[inValue][byID[outValue]] = struct{}{} return nil } }) }) neighbors, err := withInterceptors[[]*Transactions](ctx, query, qr, query.inters) if err != nil { return err } for _, n := range neighbors { nodes, ok := nids[n.ID] if !ok { return fmt.Errorf(`unexpected "MinedTxs" node returned %v`, n.ID) } for kn := range nodes { assign(kn, n) } } return nil } func (bq *BlocksQuery) sqlCount(ctx context.Context) (int, error) { _spec := bq.querySpec() _spec.Node.Columns = bq.ctx.Fields if len(bq.ctx.Fields) > 0 { _spec.Unique = bq.ctx.Unique != nil && *bq.ctx.Unique } return sqlgraph.CountNodes(ctx, bq.driver, _spec) } func (bq *BlocksQuery) querySpec() *sqlgraph.QuerySpec { _spec := sqlgraph.NewQuerySpec(blocks.Table, blocks.Columns, sqlgraph.NewFieldSpec(blocks.FieldID, field.TypeInt)) _spec.From = bq.sql if unique := bq.ctx.Unique; unique != nil { _spec.Unique = *unique } else if bq.path != nil { _spec.Unique = true } if fields := bq.ctx.Fields; len(fields) > 0 { _spec.Node.Columns = make([]string, 0, len(fields)) _spec.Node.Columns = append(_spec.Node.Columns, blocks.FieldID) for i := range fields { if fields[i] != blocks.FieldID { _spec.Node.Columns = append(_spec.Node.Columns, fields[i]) } } } if ps := bq.predicates; len(ps) > 0 { _spec.Predicate = func(selector *sql.Selector) { for i := range ps { ps[i](selector) } } } if limit := bq.ctx.Limit; limit != nil { _spec.Limit = *limit } if offset := bq.ctx.Offset; offset != nil { _spec.Offset = *offset } if ps := bq.order; len(ps) > 0 { _spec.Order = func(selector *sql.Selector) { for i := range ps { ps[i](selector) } } } return _spec } func (bq *BlocksQuery) sqlQuery(ctx context.Context) *sql.Selector { builder := sql.Dialect(bq.driver.Dialect()) t1 := builder.Table(blocks.Table) columns := bq.ctx.Fields if len(columns) == 0 { columns = blocks.Columns } selector := builder.Select(t1.Columns(columns...)...).From(t1) if bq.sql != nil { selector = bq.sql selector.Select(selector.Columns(columns...)...) } if bq.ctx.Unique != nil && *bq.ctx.Unique { selector.Distinct() } for _, p := range bq.predicates { p(selector) } for _, p := range bq.order { p(selector) } if offset := bq.ctx.Offset; offset != nil { // limit is mandatory for offset clause. We start // with default value, and override it below if needed. selector.Offset(*offset).Limit(math.MaxInt32) } if limit := bq.ctx.Limit; limit != nil { selector.Limit(*limit) } return selector } // BlocksGroupBy is the group-by builder for Blocks entities. type BlocksGroupBy struct { selector build *BlocksQuery } // Aggregate adds the given aggregation functions to the group-by query. func (bgb *BlocksGroupBy) Aggregate(fns ...AggregateFunc) *BlocksGroupBy { bgb.fns = append(bgb.fns, fns...) return bgb } // Scan applies the selector query and scans the result into the given value. func (bgb *BlocksGroupBy) Scan(ctx context.Context, v any) error { ctx = setContextOp(ctx, bgb.build.ctx, "GroupBy") if err := bgb.build.prepareQuery(ctx); err != nil { return err } return scanWithInterceptors[*BlocksQuery, *BlocksGroupBy](ctx, bgb.build, bgb, bgb.build.inters, v) } func (bgb *BlocksGroupBy) sqlScan(ctx context.Context, root *BlocksQuery, v any) error { selector := root.sqlQuery(ctx).Select() aggregation := make([]string, 0, len(bgb.fns)) for _, fn := range bgb.fns { aggregation = append(aggregation, fn(selector)) } if len(selector.SelectedColumns()) == 0 { columns := make([]string, 0, len(*bgb.flds)+len(bgb.fns)) for _, f := range *bgb.flds { columns = append(columns, selector.C(f)) } columns = append(columns, aggregation...) selector.Select(columns...) } selector.GroupBy(selector.Columns(*bgb.flds...)...) if err := selector.Err(); err != nil { return err } rows := &sql.Rows{} query, args := selector.Query() if err := bgb.build.driver.Query(ctx, query, args, rows); err != nil { return err } defer rows.Close() return sql.ScanSlice(rows, v) } // BlocksSelect is the builder for selecting fields of Blocks entities. type BlocksSelect struct { *BlocksQuery selector } // Aggregate adds the given aggregation functions to the selector query. func (bs *BlocksSelect) Aggregate(fns ...AggregateFunc) *BlocksSelect { bs.fns = append(bs.fns, fns...) return bs } // Scan applies the selector query and scans the result into the given value. func (bs *BlocksSelect) Scan(ctx context.Context, v any) error { ctx = setContextOp(ctx, bs.ctx, "Select") if err := bs.prepareQuery(ctx); err != nil { return err } return scanWithInterceptors[*BlocksQuery, *BlocksSelect](ctx, bs.BlocksQuery, bs, bs.inters, v) } func (bs *BlocksSelect) sqlScan(ctx context.Context, root *BlocksQuery, v any) error { selector := root.sqlQuery(ctx) aggregation := make([]string, 0, len(bs.fns)) for _, fn := range bs.fns { aggregation = append(aggregation, fn(selector)) } switch n := len(*bs.selector.flds); { case n == 0 && len(aggregation) > 0: selector.Select(aggregation...) case n != 0 && len(aggregation) > 0: selector.AppendSelect(aggregation...) } rows := &sql.Rows{} query, args := selector.Query() if err := bs.driver.Query(ctx, query, args, rows); err != nil { return err } defer rows.Close() return sql.ScanSlice(rows, v) }