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where.go
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where.go
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// Code generated by entc, DO NOT EDIT.
package listing
import (
"entgo.io/ent/dialect/sql"
"entgo.io/ent/dialect/sql/sqlgraph"
"github.com/dopedao/dope-monorepo/packages/api/internal/ent/predicate"
)
// ID filters vertices based on their ID field.
func ID(id string) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.EQ(s.C(FieldID), id))
})
}
// IDEQ applies the EQ predicate on the ID field.
func IDEQ(id string) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.EQ(s.C(FieldID), id))
})
}
// IDNEQ applies the NEQ predicate on the ID field.
func IDNEQ(id string) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.NEQ(s.C(FieldID), id))
})
}
// IDIn applies the In predicate on the ID field.
func IDIn(ids ...string) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
// if not arguments were provided, append the FALSE constants,
// since we can't apply "IN ()". This will make this predicate falsy.
if len(ids) == 0 {
s.Where(sql.False())
return
}
v := make([]interface{}, len(ids))
for i := range v {
v[i] = ids[i]
}
s.Where(sql.In(s.C(FieldID), v...))
})
}
// IDNotIn applies the NotIn predicate on the ID field.
func IDNotIn(ids ...string) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
// if not arguments were provided, append the FALSE constants,
// since we can't apply "IN ()". This will make this predicate falsy.
if len(ids) == 0 {
s.Where(sql.False())
return
}
v := make([]interface{}, len(ids))
for i := range v {
v[i] = ids[i]
}
s.Where(sql.NotIn(s.C(FieldID), v...))
})
}
// IDGT applies the GT predicate on the ID field.
func IDGT(id string) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.GT(s.C(FieldID), id))
})
}
// IDGTE applies the GTE predicate on the ID field.
func IDGTE(id string) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.GTE(s.C(FieldID), id))
})
}
// IDLT applies the LT predicate on the ID field.
func IDLT(id string) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.LT(s.C(FieldID), id))
})
}
// IDLTE applies the LTE predicate on the ID field.
func IDLTE(id string) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.LTE(s.C(FieldID), id))
})
}
// Active applies equality check predicate on the "active" field. It's identical to ActiveEQ.
func Active(v bool) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.EQ(s.C(FieldActive), v))
})
}
// ActiveEQ applies the EQ predicate on the "active" field.
func ActiveEQ(v bool) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.EQ(s.C(FieldActive), v))
})
}
// ActiveNEQ applies the NEQ predicate on the "active" field.
func ActiveNEQ(v bool) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.NEQ(s.C(FieldActive), v))
})
}
// SourceEQ applies the EQ predicate on the "source" field.
func SourceEQ(v Source) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.EQ(s.C(FieldSource), v))
})
}
// SourceNEQ applies the NEQ predicate on the "source" field.
func SourceNEQ(v Source) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.NEQ(s.C(FieldSource), v))
})
}
// SourceIn applies the In predicate on the "source" field.
func SourceIn(vs ...Source) predicate.Listing {
v := make([]interface{}, len(vs))
for i := range v {
v[i] = vs[i]
}
return predicate.Listing(func(s *sql.Selector) {
// if not arguments were provided, append the FALSE constants,
// since we can't apply "IN ()". This will make this predicate falsy.
if len(v) == 0 {
s.Where(sql.False())
return
}
s.Where(sql.In(s.C(FieldSource), v...))
})
}
// SourceNotIn applies the NotIn predicate on the "source" field.
func SourceNotIn(vs ...Source) predicate.Listing {
v := make([]interface{}, len(vs))
for i := range v {
v[i] = vs[i]
}
return predicate.Listing(func(s *sql.Selector) {
// if not arguments were provided, append the FALSE constants,
// since we can't apply "IN ()". This will make this predicate falsy.
if len(v) == 0 {
s.Where(sql.False())
return
}
s.Where(sql.NotIn(s.C(FieldSource), v...))
})
}
// WyvernOrderIsNil applies the IsNil predicate on the "wyvern_order" field.
func WyvernOrderIsNil() predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.IsNull(s.C(FieldWyvernOrder)))
})
}
// WyvernOrderNotNil applies the NotNil predicate on the "wyvern_order" field.
func WyvernOrderNotNil() predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.NotNull(s.C(FieldWyvernOrder)))
})
}
// SeaportOrderIsNil applies the IsNil predicate on the "seaport_order" field.
func SeaportOrderIsNil() predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.IsNull(s.C(FieldSeaportOrder)))
})
}
// SeaportOrderNotNil applies the NotNil predicate on the "seaport_order" field.
func SeaportOrderNotNil() predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s.Where(sql.NotNull(s.C(FieldSeaportOrder)))
})
}
// HasDope applies the HasEdge predicate on the "dope" edge.
func HasDope() predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
step := sqlgraph.NewStep(
sqlgraph.From(Table, FieldID),
sqlgraph.To(DopeTable, FieldID),
sqlgraph.Edge(sqlgraph.M2O, true, DopeTable, DopeColumn),
)
sqlgraph.HasNeighbors(s, step)
})
}
// HasDopeWith applies the HasEdge predicate on the "dope" edge with a given conditions (other predicates).
func HasDopeWith(preds ...predicate.Dope) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
step := sqlgraph.NewStep(
sqlgraph.From(Table, FieldID),
sqlgraph.To(DopeInverseTable, FieldID),
sqlgraph.Edge(sqlgraph.M2O, true, DopeTable, DopeColumn),
)
sqlgraph.HasNeighborsWith(s, step, func(s *sql.Selector) {
for _, p := range preds {
p(s)
}
})
})
}
// HasDopeLastsales applies the HasEdge predicate on the "dope_lastsales" edge.
func HasDopeLastsales() predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
step := sqlgraph.NewStep(
sqlgraph.From(Table, FieldID),
sqlgraph.To(DopeLastsalesTable, FieldID),
sqlgraph.Edge(sqlgraph.O2O, false, DopeLastsalesTable, DopeLastsalesColumn),
)
sqlgraph.HasNeighbors(s, step)
})
}
// HasDopeLastsalesWith applies the HasEdge predicate on the "dope_lastsales" edge with a given conditions (other predicates).
func HasDopeLastsalesWith(preds ...predicate.Dope) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
step := sqlgraph.NewStep(
sqlgraph.From(Table, FieldID),
sqlgraph.To(DopeLastsalesInverseTable, FieldID),
sqlgraph.Edge(sqlgraph.O2O, false, DopeLastsalesTable, DopeLastsalesColumn),
)
sqlgraph.HasNeighborsWith(s, step, func(s *sql.Selector) {
for _, p := range preds {
p(s)
}
})
})
}
// HasInputs applies the HasEdge predicate on the "inputs" edge.
func HasInputs() predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
step := sqlgraph.NewStep(
sqlgraph.From(Table, FieldID),
sqlgraph.To(InputsTable, FieldID),
sqlgraph.Edge(sqlgraph.O2M, false, InputsTable, InputsColumn),
)
sqlgraph.HasNeighbors(s, step)
})
}
// HasInputsWith applies the HasEdge predicate on the "inputs" edge with a given conditions (other predicates).
func HasInputsWith(preds ...predicate.Amount) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
step := sqlgraph.NewStep(
sqlgraph.From(Table, FieldID),
sqlgraph.To(InputsInverseTable, FieldID),
sqlgraph.Edge(sqlgraph.O2M, false, InputsTable, InputsColumn),
)
sqlgraph.HasNeighborsWith(s, step, func(s *sql.Selector) {
for _, p := range preds {
p(s)
}
})
})
}
// HasOutputs applies the HasEdge predicate on the "outputs" edge.
func HasOutputs() predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
step := sqlgraph.NewStep(
sqlgraph.From(Table, FieldID),
sqlgraph.To(OutputsTable, FieldID),
sqlgraph.Edge(sqlgraph.O2M, false, OutputsTable, OutputsColumn),
)
sqlgraph.HasNeighbors(s, step)
})
}
// HasOutputsWith applies the HasEdge predicate on the "outputs" edge with a given conditions (other predicates).
func HasOutputsWith(preds ...predicate.Amount) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
step := sqlgraph.NewStep(
sqlgraph.From(Table, FieldID),
sqlgraph.To(OutputsInverseTable, FieldID),
sqlgraph.Edge(sqlgraph.O2M, false, OutputsTable, OutputsColumn),
)
sqlgraph.HasNeighborsWith(s, step, func(s *sql.Selector) {
for _, p := range preds {
p(s)
}
})
})
}
// And groups predicates with the AND operator between them.
func And(predicates ...predicate.Listing) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s1 := s.Clone().SetP(nil)
for _, p := range predicates {
p(s1)
}
s.Where(s1.P())
})
}
// Or groups predicates with the OR operator between them.
func Or(predicates ...predicate.Listing) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
s1 := s.Clone().SetP(nil)
for i, p := range predicates {
if i > 0 {
s1.Or()
}
p(s1)
}
s.Where(s1.P())
})
}
// Not applies the not operator on the given predicate.
func Not(p predicate.Listing) predicate.Listing {
return predicate.Listing(func(s *sql.Selector) {
p(s.Not())
})
}