[#35] policy: remove netmap/v2 dependency

Also, fix tests. Signed-off-by: Evgenii Stratonikov <evgeniy@nspcc.ru>
2021-09-13 11:04:51 +03:00 · 2021-09-13 11:04:51 +03:00 · 6e3836cb1d
commit 6e3836cb1d
parent 880f3a61e5
3 changed files with 144 additions and 165 deletions
--- a/policy/json.go
+++ b/policy/json.go
@ -5,7 +5,7 @@ import (
 	"fmt"
 	"strings"

-	"github.com/nspcc-dev/neofs-api-go/v2/netmap"
+	"github.com/nspcc-dev/neofs-api-go/pkg/netmap"
 )

 type (
@ -38,17 +38,17 @@ type (
 // ToJSON converts placement policy to JSON.
 func ToJSON(np *netmap.PlacementPolicy) ([]byte, error) {
 	p := new(placement)
-	p.CBF = np.GetContainerBackupFactor()
-	p.Filters = make([]filter, len(np.GetFilters()))
-	for i, f := range np.GetFilters() {
+	p.CBF = np.ContainerBackupFactor()
+	p.Filters = make([]filter, len(np.Filters()))
+	for i, f := range np.Filters() {
 		p.Filters[i].fromNetmap(f)
 	}
-	p.Selectors = make([]selector, len(np.GetSelectors()))
-	for i, s := range np.GetSelectors() {
+	p.Selectors = make([]selector, len(np.Selectors()))
+	for i, s := range np.Selectors() {
 		p.Selectors[i].fromNetmap(s)
 	}
-	p.Replicas = make([]replica, len(np.GetReplicas()))
-	for i, r := range np.GetReplicas() {
+	p.Replicas = make([]replica, len(np.Replicas()))
+	for i, r := range np.Replicas() {
 		p.Replicas[i].fromNetmap(r)
 	}
 	return json.Marshal(p)
@ -91,10 +91,10 @@ func FromJSON(data []byte) (*netmap.PlacementPolicy, error) {
 	}

 	pp := new(netmap.PlacementPolicy)
-	pp.SetReplicas(rs)
+	pp.SetReplicas(rs...)
 	pp.SetContainerBackupFactor(p.CBF)
-	pp.SetFilters(fs)
-	pp.SetSelectors(ss)
+	pp.SetFilters(fs...)
+	pp.SetSelectors(ss...)
 	return pp, nil
 }

@ -106,31 +106,30 @@ func (r *replica) toNetmap() *netmap.Replica {
 }

 func (r *replica) fromNetmap(nr *netmap.Replica) {
-	r.Count = nr.GetCount()
-	r.Selector = nr.GetSelector()
+	r.Count = nr.Count()
+	r.Selector = nr.Selector()
 }

 func (f *filter) toNetmap() (*netmap.Filter, error) {
 	var op netmap.Operation
 	switch strings.ToUpper(f.Op) {
 	case "EQ":
-		op = netmap.EQ
+		op = netmap.OpEQ
 	case "NE":
-		op = netmap.NE
+		op = netmap.OpNE
 	case "GT":
-		op = netmap.GT
+		op = netmap.OpGT
 	case "GE":
-		op = netmap.GE
+		op = netmap.OpGE
 	case "LT":
-		op = netmap.LT
+		op = netmap.OpLT
 	case "LE":
-		op = netmap.LE
+		op = netmap.OpLE
 	case "AND":
-		op = netmap.AND
+		op = netmap.OpAND
 	case "OR":
-		op = netmap.OR
+		op = netmap.OpOR
 	case "":
-		op = netmap.UnspecifiedOperation
 	default:
 		return nil, fmt.Errorf("%w: '%s'", ErrUnknownOp, f.Op)
 	}
@ -148,8 +147,8 @@ func (f *filter) toNetmap() (*netmap.Filter, error) {
 	}

 	nf := new(netmap.Filter)
-	nf.SetFilters(fs)
-	nf.SetOp(op)
+	nf.SetInnerFilters(fs...)
+	nf.SetOperation(op)
 	nf.SetName(f.Name)
 	nf.SetValue(f.Value)
 	nf.SetKey(f.Key)
@ -157,32 +156,32 @@ func (f *filter) toNetmap() (*netmap.Filter, error) {
 }

 func (f *filter) fromNetmap(nf *netmap.Filter) {
-	f.Name = nf.GetName()
-	f.Key = nf.GetKey()
-	f.Value = nf.GetValue()
-	switch nf.GetOp() {
-	case netmap.EQ:
+	f.Name = nf.Name()
+	f.Key = nf.Key()
+	f.Value = nf.Value()
+	switch nf.Operation() {
+	case netmap.OpEQ:
 		f.Op = "EQ"
-	case netmap.NE:
+	case netmap.OpNE:
 		f.Op = "NE"
-	case netmap.GT:
+	case netmap.OpGT:
 		f.Op = "GT"
-	case netmap.GE:
+	case netmap.OpGE:
 		f.Op = "GE"
-	case netmap.LT:
+	case netmap.OpLT:
 		f.Op = "LT"
-	case netmap.LE:
+	case netmap.OpLE:
 		f.Op = "LE"
-	case netmap.AND:
+	case netmap.OpAND:
 		f.Op = "AND"
-	case netmap.OR:
+	case netmap.OpOR:
 		f.Op = "OR"
 	default:
 		// do nothing
 	}
-	if nf.GetFilters() != nil {
-		f.Filters = make([]filter, len(nf.GetFilters()))
-		for i, sf := range nf.GetFilters() {
+	if nf.InnerFilters() != nil {
+		f.Filters = make([]filter, len(nf.InnerFilters()))
+		for i, sf := range nf.InnerFilters() {
 			f.Filters[i].fromNetmap(sf)
 		}
 	}
@ -192,9 +191,9 @@ func (s *selector) toNetmap() (*netmap.Selector, error) {
 	var c netmap.Clause
 	switch strings.ToUpper(s.Clause) {
 	case "SAME":
-		c = netmap.Same
+		c = netmap.ClauseSame
 	case "DISTINCT":
-		c = netmap.Distinct
+		c = netmap.ClauseDistinct
 	case "":
 	default:
 		return nil, fmt.Errorf("%w: '%s'", ErrUnknownClause, s.Clause)
@ -209,17 +208,17 @@ func (s *selector) toNetmap() (*netmap.Selector, error) {
 }

 func (s *selector) fromNetmap(ns *netmap.Selector) {
-	s.Name = ns.GetName()
-	s.Filter = ns.GetFilter()
-	s.Count = ns.GetCount()
-	s.Attribute = ns.GetAttribute()
-	switch ns.GetClause() {
-	case netmap.Same:
+	s.Name = ns.Name()
+	s.Filter = ns.Filter()
+	s.Count = ns.Count()
+	s.Attribute = ns.Attribute()
+	switch ns.Clause() {
+	case netmap.ClauseSame:
 		s.Clause = "same"
-	case netmap.Distinct:
+	case netmap.ClauseDistinct:
 		s.Clause = "distinct"
 	default:
 		// do nothing
 	}
-	s.Name = ns.GetName()
+	s.Name = ns.Name()
 }
--- a/policy/json_test.go
+++ b/policy/json_test.go
@ -3,7 +3,7 @@ package policy
 import (
 	"testing"

-	"github.com/nspcc-dev/neofs-api-go/v2/netmap"
+	"github.com/nspcc-dev/neofs-api-go/pkg/netmap"
 	"github.com/stretchr/testify/require"
 )

@ -19,22 +19,21 @@ func TestToJSON(t *testing.T) {
 	}
 	t.Run("SimpleREP", func(t *testing.T) {
 		p := new(netmap.PlacementPolicy)
-		p.SetReplicas([]*netmap.Replica{newReplica("", 3)})
+		p.SetReplicas(newReplica("", 3))
 		check(t, p, `{"replicas":[{"count":3}]}`)
 	})
 	t.Run("REPWithCBF", func(t *testing.T) {
 		p := new(netmap.PlacementPolicy)
-		p.SetReplicas([]*netmap.Replica{newReplica("", 3)})
+		p.SetReplicas(newReplica("", 3))
 		p.SetContainerBackupFactor(3)
 		check(t, p, `{"replicas":[{"count":3}],"container_backup_factor":3}`)
 	})
 	t.Run("REPFromSelector", func(t *testing.T) {
 		p := new(netmap.PlacementPolicy)
-		p.SetReplicas([]*netmap.Replica{newReplica("Nodes", 3)})
+		p.SetReplicas(newReplica("Nodes", 3))
 		p.SetContainerBackupFactor(3)
-		p.SetSelectors([]*netmap.Selector{
-			newSelector(1, netmap.Distinct, "City", "", "Nodes"),
-		})
+		p.SetSelectors(
+			newSelector(1, netmap.ClauseDistinct, "City", "", "Nodes"))
 		check(t, p, `{
 			"replicas":[{"count":3,"selector":"Nodes"}],
 			"container_backup_factor":3,
@ -47,22 +46,21 @@ func TestToJSON(t *testing.T) {
 	})
 	t.Run("FilterOps", func(t *testing.T) {
 		p := new(netmap.PlacementPolicy)
-		p.SetReplicas([]*netmap.Replica{newReplica("Nodes", 3)})
+		p.SetReplicas(newReplica("Nodes", 3))
 		p.SetContainerBackupFactor(3)
-		p.SetSelectors([]*netmap.Selector{
-			newSelector(1, netmap.Same, "City", "Good", "Nodes"),
-		})
-		p.SetFilters([]*netmap.Filter{
-			newFilter("GoodRating", "Rating", "5", netmap.GE),
-			newFilter("Good", "", "", netmap.OR,
-				newFilter("GoodRating", "", "", netmap.UnspecifiedOperation),
-				newFilter("", "Attr1", "Val1", netmap.EQ),
-				newFilter("", "Attr2", "Val2", netmap.NE),
-				newFilter("", "", "", netmap.AND,
-					newFilter("", "Attr4", "2", netmap.LT),
-					newFilter("", "Attr5", "3", netmap.LE)),
-				newFilter("", "Attr3", "1", netmap.GT)),
-		})
+		p.SetSelectors(
+			newSelector(1, netmap.ClauseSame, "City", "Good", "Nodes"))
+		p.SetFilters(
+			newFilter("GoodRating", "Rating", "5", netmap.OpGE),
+			newFilter("Good", "", "", netmap.OpOR,
+				newFilter("GoodRating", "", "", 0),
+				newFilter("", "Attr1", "Val1", netmap.OpEQ),
+				newFilter("", "Attr2", "Val2", netmap.OpNE),
+				newFilter("", "", "", netmap.OpAND,
+					newFilter("", "Attr4", "2", netmap.OpLT),
+					newFilter("", "Attr5", "3", netmap.OpLE)),
+				newFilter("", "Attr3", "1", netmap.OpGT)),
+		)
 		check(t, p, `{
 			"replicas":[{"count":3,"selector":"Nodes"}],
 			"container_backup_factor":3,
--- a/policy/query_test.go
+++ b/policy/query_test.go
@ -6,16 +6,16 @@ import (
 	"math"
 	"testing"

-	"github.com/nspcc-dev/neofs-api-go/v2/netmap"
+	"github.com/nspcc-dev/neofs-api-go/pkg/netmap"
 	"github.com/stretchr/testify/require"
 )

 func TestSimple(t *testing.T) {
 	q := `REP 3`
 	expected := new(netmap.PlacementPolicy)
-	expected.SetFilters([]*netmap.Filter{})
-	expected.SetSelectors([]*netmap.Selector{})
-	expected.SetReplicas([]*netmap.Replica{newReplica("", 3)})
+	expected.SetFilters([]*netmap.Filter{}...)
+	expected.SetSelectors([]*netmap.Selector{}...)
+	expected.SetReplicas(newReplica("", 3))

 	r, err := Parse(q)
 	require.NoError(t, err)
@ -25,9 +25,9 @@ func TestSimple(t *testing.T) {
 func TestSimpleWithHRWB(t *testing.T) {
 	q := `REP 3 CBF 4`
 	expected := new(netmap.PlacementPolicy)
-	expected.SetFilters([]*netmap.Filter{})
-	expected.SetSelectors([]*netmap.Selector{})
-	expected.SetReplicas([]*netmap.Replica{newReplica("", 3)})
+	expected.SetFilters([]*netmap.Filter{}...)
+	expected.SetSelectors([]*netmap.Selector{}...)
+	expected.SetReplicas(newReplica("", 3))
 	expected.SetContainerBackupFactor(4)

 	r, err := Parse(q)
@ -39,11 +39,9 @@ func TestFromSelect(t *testing.T) {
 	q := `REP 1 IN SPB
 SELECT 1 IN City FROM * AS SPB`
 	expected := new(netmap.PlacementPolicy)
-	expected.SetFilters([]*netmap.Filter{})
-	expected.SetSelectors([]*netmap.Selector{
-		newSelector(1, netmap.UnspecifiedClause, "City", "*", "SPB"),
-	})
-	expected.SetReplicas([]*netmap.Replica{newReplica("SPB", 1)})
+	expected.SetFilters([]*netmap.Filter{}...)
+	expected.SetSelectors(newSelector(1, netmap.ClauseUnspecified, "City", "*", "SPB"))
+	expected.SetReplicas(newReplica("SPB", 1))

 	r, err := Parse(q)
 	require.NoError(t, err)
@ -57,9 +55,9 @@ func TestFromSelectNoAttribute(t *testing.T) {
 		SELECT 6 FROM *`

 		expected := new(netmap.PlacementPolicy)
-		expected.SetFilters([]*netmap.Filter{})
-		expected.SetSelectors([]*netmap.Selector{newSelector(6, netmap.UnspecifiedClause, "", "*", "")})
-		expected.SetReplicas([]*netmap.Replica{newReplica("", 2)})
+		expected.SetFilters([]*netmap.Filter{}...)
+		expected.SetSelectors(newSelector(6, netmap.ClauseUnspecified, "", "*", ""))
+		expected.SetReplicas(newReplica("", 2))

 		r, err := Parse(q)
 		require.NoError(t, err)
@ -72,9 +70,9 @@ func TestFromSelectNoAttribute(t *testing.T) {
 		FILTER StorageType EQ SSD AS F`

 		expected := new(netmap.PlacementPolicy)
-		expected.SetFilters([]*netmap.Filter{newFilter("F", "StorageType", "SSD", netmap.EQ)})
-		expected.SetSelectors([]*netmap.Selector{newSelector(6, netmap.UnspecifiedClause, "", "F", "")})
-		expected.SetReplicas([]*netmap.Replica{newReplica("", 2)})
+		expected.SetFilters(newFilter("F", "StorageType", "SSD", netmap.OpEQ))
+		expected.SetSelectors(newSelector(6, netmap.ClauseUnspecified, "", "F", ""))
+		expected.SetReplicas(newReplica("", 2))

 		r, err := Parse(q)
 		require.NoError(t, err)
@ -100,9 +98,9 @@ FILTER Property EQ %s AND Something NE 7 AS Filt`
 			r, err := Parse(q)
 			require.NoError(t, err)

-			expected := newFilter("Filt", "", "", netmap.AND,
-				newFilter("", "Property", s[1:len(s)-1], netmap.EQ),
-				newFilter("", "Something", "7", netmap.NE))
+			expected := newFilter("Filt", "", "", netmap.OpAND,
+				newFilter("", "Property", s[1:len(s)-1], netmap.OpEQ),
+				newFilter("", "Something", "7", netmap.OpNE))
 			require.EqualValues(t, []*netmap.Filter{expected}, r.Filters())
 		})
 	}
@ -114,13 +112,12 @@ SELECT 3 IN Country FROM *
 SELECT 2 IN SAME City FROM *
 SELECT 1 IN DISTINCT Continent FROM *`
 	expected := new(netmap.PlacementPolicy)
-	expected.SetFilters([]*netmap.Filter{})
-	expected.SetSelectors([]*netmap.Selector{
-		newSelector(3, netmap.UnspecifiedClause, "Country", "*", ""),
-		newSelector(2, netmap.Same, "City", "*", ""),
-		newSelector(1, netmap.Distinct, "Continent", "*", ""),
-	})
-	expected.SetReplicas([]*netmap.Replica{newReplica("", 4)})
+	expected.SetFilters([]*netmap.Filter{}...)
+	expected.SetSelectors(
+		newSelector(3, netmap.ClauseUnspecified, "Country", "*", ""),
+		newSelector(2, netmap.ClauseSame, "City", "*", ""),
+		newSelector(1, netmap.ClauseDistinct, "Continent", "*", ""))
+	expected.SetReplicas(newReplica("", 4))

 	r, err := Parse(q)
 	require.NoError(t, err)
@ -132,13 +129,10 @@ func TestSimpleFilter(t *testing.T) {
 SELECT 1 IN City FROM Good
 FILTER Rating GT 7 AS Good`
 	expected := new(netmap.PlacementPolicy)
-	expected.SetReplicas([]*netmap.Replica{newReplica("", 1)})
-	expected.SetSelectors([]*netmap.Selector{
-		newSelector(1, netmap.UnspecifiedClause, "City", "Good", ""),
-	})
-	expected.SetFilters([]*netmap.Filter{
-		newFilter("Good", "Rating", "7", netmap.GT),
-	})
+	expected.SetReplicas(newReplica("", 1))
+	expected.SetSelectors(
+		newSelector(1, netmap.ClauseUnspecified, "City", "Good", ""))
+	expected.SetFilters(newFilter("Good", "Rating", "7", netmap.OpGT))

 	r, err := Parse(q)
 	require.NoError(t, err)
@ -151,16 +145,15 @@ SELECT 2 IN City FROM Good
 FILTER Country EQ "RU" AS FromRU
 FILTER @FromRU AND Rating GT 7 AS Good`
 	expected := new(netmap.PlacementPolicy)
-	expected.SetReplicas([]*netmap.Replica{newReplica("", 1)})
-	expected.SetSelectors([]*netmap.Selector{
-		newSelector(2, netmap.UnspecifiedClause, "City", "Good", ""),
-	})
-	expected.SetFilters([]*netmap.Filter{
-		newFilter("FromRU", "Country", "RU", netmap.EQ),
-		newFilter("Good", "", "", netmap.AND,
-			newFilter("FromRU", "", "", netmap.UnspecifiedOperation),
-			newFilter("", "Rating", "7", netmap.GT)),
-	})
+	expected.SetReplicas(newReplica("", 1))
+	expected.SetSelectors(
+		newSelector(2, netmap.ClauseUnspecified, "City", "Good", ""))
+	expected.SetFilters(
+		newFilter("FromRU", "Country", "RU", netmap.OpEQ),
+		newFilter("Good", "", "", netmap.OpAND,
+			newFilter("FromRU", "", "", 0),
+			newFilter("", "Rating", "7", netmap.OpGT)),
+	)

 	r, err := Parse(q)
 	require.NoError(t, err)
@ -173,19 +166,16 @@ SELECT 2 IN City FROM Good
 FILTER A GT 1 AND B GE 2 AND C LT 3 AND D LE 4
  AND E EQ 5 AND F NE 6 AS Good`
 	expected := new(netmap.PlacementPolicy)
-	expected.SetReplicas([]*netmap.Replica{newReplica("", 1)})
-	expected.SetSelectors([]*netmap.Selector{
-		newSelector(2, netmap.UnspecifiedClause, "City", "Good", ""),
-	})
-	expected.SetFilters([]*netmap.Filter{
-		newFilter("Good", "", "", netmap.AND,
-			newFilter("", "A", "1", netmap.GT),
-			newFilter("", "B", "2", netmap.GE),
-			newFilter("", "C", "3", netmap.LT),
-			newFilter("", "D", "4", netmap.LE),
-			newFilter("", "E", "5", netmap.EQ),
-			newFilter("", "F", "6", netmap.NE)),
-	})
+	expected.SetReplicas(newReplica("", 1))
+	expected.SetSelectors(
+		newSelector(2, netmap.ClauseUnspecified, "City", "Good", ""))
+	expected.SetFilters(newFilter("Good", "", "", netmap.OpAND,
+		newFilter("", "A", "1", netmap.OpGT),
+		newFilter("", "B", "2", netmap.OpGE),
+		newFilter("", "C", "3", netmap.OpLT),
+		newFilter("", "D", "4", netmap.OpLE),
+		newFilter("", "E", "5", netmap.OpEQ),
+		newFilter("", "F", "6", netmap.OpNE)))

 	r, err := Parse(q)
 	require.NoError(t, err)
@ -197,19 +187,17 @@ func TestWithFilterPrecedence(t *testing.T) {
 SELECT 1 IN City FROM SPBSSD AS SPB
 FILTER City EQ "SPB" AND SSD EQ true OR City EQ "SPB" AND Rating GE 5 AS SPBSSD`
 	expected := new(netmap.PlacementPolicy)
-	expected.SetReplicas([]*netmap.Replica{newReplica("SPB", 7)})
-	expected.SetSelectors([]*netmap.Selector{
-		newSelector(1, netmap.UnspecifiedClause, "City", "SPBSSD", "SPB"),
-	})
-	expected.SetFilters([]*netmap.Filter{
-		newFilter("SPBSSD", "", "", netmap.OR,
-			newFilter("", "", "", netmap.AND,
-				newFilter("", "City", "SPB", netmap.EQ),
-				newFilter("", "SSD", "true", netmap.EQ)),
-			newFilter("", "", "", netmap.AND,
-				newFilter("", "City", "SPB", netmap.EQ),
-				newFilter("", "Rating", "5", netmap.GE))),
-	})
+	expected.SetReplicas(newReplica("SPB", 7))
+	expected.SetSelectors(
+		newSelector(1, netmap.ClauseUnspecified, "City", "SPBSSD", "SPB"))
+	expected.SetFilters(
+		newFilter("SPBSSD", "", "", netmap.OpOR,
+			newFilter("", "", "", netmap.OpAND,
+				newFilter("", "City", "SPB", netmap.OpEQ),
+				newFilter("", "SSD", "true", netmap.OpEQ)),
+			newFilter("", "", "", netmap.OpAND,
+				newFilter("", "City", "SPB", netmap.OpEQ),
+				newFilter("", "Rating", "5", netmap.OpGE))))

 	r, err := Parse(q)
 	require.NoError(t, err)
@ -222,18 +210,17 @@ SELECT 1 IN City FROM SPBSSD AS SPB
 FILTER ( City EQ "SPB" OR SSD EQ true ) AND (City EQ "SPB" OR Rating GE 5) AS SPBSSD`

 	expected := new(netmap.PlacementPolicy)
-	expected.SetReplicas([]*netmap.Replica{newReplica("SPB", 7)})
-	expected.SetSelectors([]*netmap.Selector{
-		newSelector(1, netmap.UnspecifiedClause, "City", "SPBSSD", "SPB"),
-	})
-	expected.SetFilters([]*netmap.Filter{
-		newFilter("SPBSSD", "", "", netmap.AND,
-			newFilter("", "", "", netmap.OR,
-				newFilter("", "City", "SPB", netmap.EQ),
-				newFilter("", "SSD", "true", netmap.EQ)),
-			newFilter("", "", "", netmap.OR,
-				newFilter("", "City", "SPB", netmap.EQ),
-				newFilter("", "Rating", "5", netmap.GE)))})
+	expected.SetReplicas(newReplica("SPB", 7))
+	expected.SetSelectors(
+		newSelector(1, netmap.ClauseUnspecified, "City", "SPBSSD", "SPB"))
+	expected.SetFilters(
+		newFilter("SPBSSD", "", "", netmap.OpAND,
+			newFilter("", "", "", netmap.OpOR,
+				newFilter("", "City", "SPB", netmap.OpEQ),
+				newFilter("", "SSD", "true", netmap.OpEQ)),
+			newFilter("", "", "", netmap.OpOR,
+				newFilter("", "City", "SPB", netmap.OpEQ),
+				newFilter("", "Rating", "5", netmap.OpGE))))

 	r, err := Parse(q)
 	require.NoError(t, err)
@ -302,15 +289,10 @@ SELECT 1 FROM F AS S
 FILTER "UN-LOCODE" EQ "RU LED" AS F`

 	expected := new(netmap.PlacementPolicy)
-	expected.SetReplicas([]*netmap.Replica{
-		newReplica("S", 1),
-	})
-	expected.SetSelectors([]*netmap.Selector{
-		newSelector(1, netmap.UnspecifiedClause, "", "F", "S"),
-	})
-	expected.SetFilters([]*netmap.Filter{
-		newFilter("F", "UN-LOCODE", "RU LED", netmap.EQ),
-	})
+	expected.SetReplicas(newReplica("S", 1))
+	expected.SetSelectors(
+		newSelector(1, netmap.ClauseUnspecified, "", "F", "S"))
+	expected.SetFilters(newFilter("F", "UN-LOCODE", "RU LED", netmap.OpEQ))

 	r, err := Parse(q)
 	require.NoError(t, err)
@ -322,8 +304,8 @@ func newFilter(name, key, value string, op netmap.Operation, sub ...*netmap.Filt
 	f.SetName(name)
 	f.SetKey(key)
 	f.SetValue(value)
-	f.SetOp(op)
-	f.SetFilters(sub)
+	f.SetOperation(op)
+	f.SetInnerFilters(sub...)
 	return f
 }