use pointers as identifier.

pkg/pools/communities.go

@@ -2,7 +2,9 @@ package pools
 
 import (
 	"math"
+	"reflect"
 	"sync"
+	"unsafe"
 
 	"github.com/alice-lg/alice-lg/pkg/api"
 )
@@ -12,7 +14,6 @@ import (
 // communities, use the ExtCommunityPool.
 type CommunitiesPool struct {
 	root *Node[int, api.Community]
-	counter uint64
 	sync.RWMutex
 }
 
@@ -23,32 +24,22 @@ func NewCommunitiesPool() *CommunitiesPool {
 	}
 }
 
-// AcquireGid acquires a single bgp community with gid
-func (p *CommunitiesPool) AcquireGid(c api.Community) (api.Community, uint64) {
+// Acquire a single bgp community
+func (p *CommunitiesPool) Acquire(c api.Community) api.Community {
 	p.Lock()
 	defer p.Unlock()
 	if len(c) == 0 {
-		return p.root.value, p.root.gid
+		return p.root.value
 	}
-	v, gid := p.root.traverse(p.counter+1, c, c)
-	if gid > p.counter {
-		p.counter = gid
-	}
-	return v, gid
-}
-
-// Acquire a single bgp community without gid
-func (p *CommunitiesPool) Acquire(c api.Community) api.Community {
-	v, _ := p.AcquireGid(c)
-	return v
+	return p.root.traverse(c, c)
 }
 
 // Read a single bgp community
-func (p *CommunitiesPool) Read(c api.Community) (api.Community, uint64) {
+func (p *CommunitiesPool) Read(c api.Community) api.Community {
 	p.RLock()
 	defer p.RUnlock()
 	if len(c) == 0 {
-		return p.root.value, p.root.gid
+		return p.root.value
 	}
 	return p.root.read(c)
 }
@@ -57,8 +48,7 @@ func (p *CommunitiesPool) Read(c api.Community) (api.Community, uint64) {
 // (Large and default. The ext communities representation right now
 // makes problems and need to be fixed. TODO.)
 type CommunitiesSetPool struct {
-	root    *Node[uint64, []api.Community]
-	counter uint64
+	root *Node[unsafe.Pointer, []api.Community]
 	sync.Mutex
 }
 
@@ -66,47 +56,34 @@ type CommunitiesSetPool struct {
 // of BGP communities.
 func NewCommunitiesSetPool() *CommunitiesSetPool {
 	return &CommunitiesSetPool{
-		root: NewNode[uint64, []api.Community]([]api.Community{}),
+		root: NewNode[unsafe.Pointer, []api.Community]([]api.Community{}),
 	}
 }
 
-// AcquireGid acquires a list of bgp communities and returns a gid
-func (p *CommunitiesSetPool) AcquireGid(
-	communities []api.Community,
-) ([]api.Community, uint64) {
-	p.Lock()
-	defer p.Unlock()
-	// Make identification list by using the pointer address
-	// of the deduplicated community as ID
-	ids := make([]uint64, len(communities))
-	set := make([]api.Community, len(communities))
-	for i, comm := range communities {
-		ptr, gid := Communities.AcquireGid(comm)
-		ids[i] = gid
-		set[i] = ptr
-	}
-	if len(ids) == 0 {
-		return p.root.value, p.root.gid
-	}
-	v, id := p.root.traverse(p.counter+1, set, ids)
-	if id > p.counter {
-		p.counter = id
-	}
-	return v, id
-}
-
 // Acquire a list of bgp communities
 func (p *CommunitiesSetPool) Acquire(
 	communities []api.Community,
 ) []api.Community {
-	v, _ := p.AcquireGid(communities)
-	return v
+	p.Lock()
+	defer p.Unlock()
+	// Make identification list by using the pointer address
+	// of the deduplicated community as ID
+	ids := make([]unsafe.Pointer, len(communities))
+	set := make([]api.Community, len(communities))
+	for i, comm := range communities {
+		ptr := Communities.Acquire(comm)
+		ids[i] = reflect.ValueOf(ptr).UnsafePointer()
+		set[i] = ptr
+	}
+	if len(ids) == 0 {
+		return p.root.value
+	}
+	return p.root.traverse(set, ids)
 }
 
 // ExtCommunitiesSetPool is for deduplicating a list of ext. BGP communities
 type ExtCommunitiesSetPool struct {
-	root    *Node[uint64, []api.ExtCommunity]
-	counter uint64
+	root *Node[unsafe.Pointer, []api.ExtCommunity]
 	sync.Mutex
 }
 
@@ -114,7 +91,7 @@ type ExtCommunitiesSetPool struct {
 // of BGP communities.
 func NewExtCommunitiesSetPool() *ExtCommunitiesSetPool {
 	return &ExtCommunitiesSetPool{
-		root: NewNode[uint64, []api.ExtCommunity]([]api.ExtCommunity{}),
+		root: NewNode[unsafe.Pointer, []api.ExtCommunity]([]api.ExtCommunity{}),
 	}
 }
 
@@ -126,37 +103,25 @@ func extPrefixToInt(s string) int {
 	return v
 }
 
-// AcquireGid acquires a list of ext bgp communities
-func (p *ExtCommunitiesSetPool) AcquireGid(
+// Acquire a list of ext bgp communities
+func (p *ExtCommunitiesSetPool) Acquire(
 	communities []api.ExtCommunity,
-) ([]api.ExtCommunity, uint64) {
+) []api.ExtCommunity {
 	p.Lock()
 	defer p.Unlock()
 
 	// Make identification list
-	ids := make([]uint64, len(communities))
+	ids := make([]unsafe.Pointer, len(communities))
 	for i, comm := range communities {
 		r := extPrefixToInt(comm[0].(string))
 		icomm := []int{r, comm[1].(int), comm[2].(int)}
 
 		// get community identifier
-		_, gid := ExtCommunities.AcquireGid(icomm)
-		ids[i] = gid
+		ptr := ExtCommunities.Acquire(icomm)
+		ids[i] = reflect.ValueOf(ptr).UnsafePointer()
 	}
 	if len(ids) == 0 {
-		return p.root.value, p.root.gid
+		return p.root.value
 	}
-	v, id := p.root.traverse(p.counter+1, communities, ids)
-	if id > p.counter {
-		p.counter = id
-	}
-	return v, id
-}
-
-// Acquire a list of ext bgp communities
-func (p *ExtCommunitiesSetPool) Acquire(
-	communities []api.ExtCommunity,
-) []api.ExtCommunity {
-	v, _ := p.AcquireGid(communities)
-	return v
+	return p.root.traverse(communities, ids)
 }

pkg/pools/communities_test.go

@@ -9,16 +9,16 @@ import (
 	"github.com/alice-lg/alice-lg/pkg/api"
 )
 
-func TestAcquireGidCommunity(t *testing.T) {
+func TestAcquireCommunity(t *testing.T) {
 	c1 := api.Community{2342, 5, 1}
 	c2 := api.Community{2342, 5, 1}
 	c3 := api.Community{2342, 5}
 
 	p := NewCommunitiesPool()
 
-	pc1, gid1 := p.AcquireGid(c1)
-	pc2, gid2 := p.AcquireGid(c2)
-	pc3, gid3 := p.AcquireGid(c3)
+	pc1 := p.Acquire(c1)
+	pc2 := p.Acquire(c2)
+	pc3 := p.Acquire(c3)
 
 	if fmt.Sprintf("%p", c1) == fmt.Sprintf("%p", c2) {
 		t.Error("expected c1 !== c2")
@@ -28,19 +28,10 @@ func TestAcquireGidCommunity(t *testing.T) {
 		t.Error("expected pc1 == pc2")
 	}
 
-	if gid1 != gid2 {
-		t.Error("expected gid1 == gid2")
-	}
-
-	if gid1 == gid3 {
-		t.Error("expected gid1 != gid3")
-	}
-
 	fmt.Printf("c1:  %p, c2:  %p, c3:  %p\n", c1, c2, c3)
 	fmt.Printf("pc1: %p, pc2: %p, pc3: %p\n", pc1, pc2, pc3)
 
 	log.Println(c3, pc3)
-	log.Println(gid1, gid2, gid3)
 }
 
 func TestCommunityRead(t *testing.T) {
@@ -50,29 +41,22 @@ func TestCommunityRead(t *testing.T) {
 
 	p := NewCommunitiesPool()
 
-	pc1, gid1 := p.AcquireGid(c1)
-	pc2, gid2 := p.Read(c2)
-	pc3, gid3 := p.Read(c3)
+	pc1 := p.Acquire(c1)
+	pc2 := p.Read(c2)
+	pc3 := p.Read(c3)
 
 	fmt.Printf("pc1: %p, pc2: %p, pc3: %p\n", pc1, pc2, pc3)
-	fmt.Printf("gid1: %d, gid2: %d, gid3: %d\n", gid1, gid2, gid3)
 
 	if fmt.Sprintf("%p", pc1) != fmt.Sprintf("%p", pc2) {
 		t.Error("expected pc1 == pc2")
 	}
-	if gid1 != gid2 {
-		t.Error("expected gid1 == gid2")
-	}
 
 	if pc3 != nil {
 		t.Error("expected pc3 == nil, got", pc3)
 	}
-	if gid3 != 0 {
-		t.Error("expected gid3 == 0, got", gid3)
-	}
 }
 
-func TestAcquireGidCommunitiesSets(t *testing.T) {
+func TestAcquireCommunitiesSets(t *testing.T) {
 	c1 := []api.Community{
 		{2342, 5, 1},
 		{2342, 5, 2},
@@ -91,9 +75,9 @@ func TestAcquireGidCommunitiesSets(t *testing.T) {
 
 	p := NewCommunitiesSetPool()
 
-	pc1, gid1 := p.AcquireGid(c1)
-	pc2, gid2 := p.AcquireGid(c2)
-	pc3, gid3 := p.AcquireGid(c3)
+	pc1 := p.Acquire(c1)
+	pc2 := p.Acquire(c2)
+	pc3 := p.Acquire(c3)
 
 	if fmt.Sprintf("%p", c1) == fmt.Sprintf("%p", c2) {
 		t.Error("expected c1 !== c2")
@@ -102,14 +86,9 @@ func TestAcquireGidCommunitiesSets(t *testing.T) {
 	if fmt.Sprintf("%p", pc1) != fmt.Sprintf("%p", pc2) {
 		t.Error("expected pc1 == pc2")
 	}
-	if gid1 != gid2 {
-		t.Error("expected gid1 == gid2")
-	}
 
 	fmt.Printf("c1:  %p, c2:  %p, c3:  %p\n", c1, c2, c3)
 	fmt.Printf("pc1: %p, pc2: %p, pc3: %p\n", pc1, pc2, pc3)
-
-	t.Logf("gid1: %d, gid2: %d, gid3: %d\n", gid1, gid2, gid3)
 }
 
 func TestSetCommunityIdentity(t *testing.T) {
@@ -119,11 +98,10 @@ func TestSetCommunityIdentity(t *testing.T) {
 		{2341, 1, 1},
 	}
 
-	pset, gid1 := CommunitiesSets.AcquireGid(set)
-	pval, gid2 := Communities.AcquireGid(api.Community{2341, 6, 2})
+	pset := CommunitiesSets.Acquire(set)
+	pval := Communities.Acquire(api.Community{2341, 6, 2})
 
 	fmt.Printf("set:  %p, pset[1]:  %p, pval:  %p\n", set, pset[1], pval)
-	fmt.Printf("gid1: %d, gid2: %d\n", gid1, gid2)
 
 	p1 := reflect.ValueOf(pset[1]).UnsafePointer()
 	p2 := reflect.ValueOf(pval).UnsafePointer()
@@ -133,7 +111,7 @@ func TestSetCommunityIdentity(t *testing.T) {
 	}
 }
 
-func TestAcquireGidExtCommunitiesSets(t *testing.T) {
+func TestAcquireExtCommunitiesSets(t *testing.T) {
 	c1 := []api.ExtCommunity{
 		{"ro", 5, 1},
 		{"ro", 5, 2},
@@ -152,9 +130,9 @@ func TestAcquireGidExtCommunitiesSets(t *testing.T) {
 
 	p := NewExtCommunitiesSetPool()
 
-	pc1, gid1 := p.AcquireGid(c1)
-	pc2, gid2 := p.AcquireGid(c2)
-	pc3, gid3 := p.AcquireGid(c3)
+	pc1 := p.Acquire(c1)
+	pc2 := p.Acquire(c2)
+	pc3 := p.Acquire(c3)
 
 	if fmt.Sprintf("%p", c1) == fmt.Sprintf("%p", c2) {
 		t.Error("expected c1 !== c2")
@@ -163,11 +141,7 @@ func TestAcquireGidExtCommunitiesSets(t *testing.T) {
 	if fmt.Sprintf("%p", pc1) != fmt.Sprintf("%p", pc2) {
 		t.Error("expected pc1 == pc2")
 	}
-	if gid1 != gid2 {
-		t.Error("expected gid1 == gid2")
-	}
 
 	fmt.Printf("c1:  %p, c2:  %p, c3:  %p\n", c1, c2, c3)
 	fmt.Printf("pc1: %p, pc2: %p, pc3: %p\n", pc1, pc2, pc3)
-	fmt.Printf("gid1: %d, gid2: %d, gid3: %d\n", gid1, gid2, gid3)
 }

pkg/pools/lists.go

@@ -21,25 +21,15 @@ func NewIntListPool() *IntListPool {
 	}
 }
 
-// AcquireGid int list from pool and return with gid
-func (p *IntListPool) AcquireGid(list []int) ([]int, uint64) {
+// Acquire int list from pool
+func (p *IntListPool) Acquire(list []int) []int {
 	p.Lock()
 	defer p.Unlock()
 
 	if len(list) == 0 {
-		return p.root.value, p.root.gid // root
+		return p.root.value // root
 	}
-	v, c := p.root.traverse(p.counter+1, list, list)
-	if c > p.counter {
-		p.counter = c
-	}
-	return v, c
-}
-
-// Acquire int list from pool without gid
-func (p *IntListPool) Acquire(list []int) []int {
-	v, _ := p.AcquireGid(list)
-	return v
+	return p.root.traverse(list, list)
 }
 
 // A StringListPool can be used for deduplicating lists
@@ -61,11 +51,10 @@ func NewStringListPool() *StringListPool {
 	}
 }
 
-// AcquireGid aquires the string list pointer from the pool
-// and also returns the gid.
-func (p *StringListPool) AcquireGid(list []string) ([]string, uint64) {
+// Acquire the string list pointer from the pool.
+func (p *StringListPool) Acquire(list []string) []string {
 	if len(list) == 0 {
-		return p.root.value, p.root.gid
+		return p.root.value
 	}
 
 	// Make idenfier list
@@ -81,11 +70,5 @@ func (p *StringListPool) AcquireGid(list []string) ([]string, uint64) {
 		id[i] = v
 	}
 
-	return p.root.traverse(uint64(p.head), list, id)
-}
-
-// Acquire aquires the string list pointer from the pool
-func (p *StringListPool) Acquire(list []string) []string {
-	v, _ := p.AcquireGid(list)
-	return v
+	return p.root.traverse(list, id)
 }

pkg/pools/lists_test.go

@@ -13,12 +13,12 @@ func TestAcquireIntList(t *testing.T) {
 
 	p := NewIntListPool()
 
-	r1, gid1 := p.AcquireGid(a)
+	r1 := p.Acquire(a)
 	p.Acquire(c)
-	r2, gid2 := p.AcquireGid(b)
+	r2 := p.Acquire(b)
 
-	log.Println("r1", r1, "gid1", gid1)
-	log.Println("r2", r2, "gid2", gid2)
+	log.Println("r1", r1)
+	log.Println("r2", r2)
 
 	if fmt.Sprintf("%p", a) == fmt.Sprintf("%p", b) {
 		t.Error("lists should not be same pointer", fmt.Sprintf("%p %p", a, b))
@@ -26,17 +26,8 @@ func TestAcquireIntList(t *testing.T) {
 	if fmt.Sprintf("%p", r1) != fmt.Sprintf("%p", r2) {
 		t.Error("lists should be same pointer", fmt.Sprintf("%p %p", r1, r2))
 	}
-	if gid1 != gid2 {
-		t.Error("gid should be same, got:", gid1, gid2)
-	}
 
 	t.Log(fmt.Sprintf("Ptr: %p %p => %p %p", a, b, r1, r2))
-
-	_, gid3 := p.AcquireGid(c)
-	if gid3 == gid1 {
-		t.Error("gid should not be same, got:", gid3, gid1)
-	}
-	t.Log("gid3", gid3, "gid1", gid1)
 }
 
 func TestAcquireStringList(t *testing.T) {
@@ -45,9 +36,8 @@ func TestAcquireStringList(t *testing.T) {
 	e := []string{"foo", "bpf"}
 
 	p2 := NewStringListPool()
-	x1, g1 := p2.AcquireGid(q)
-	x2, g2 := p2.AcquireGid(w)
-	x3, g3 := p2.AcquireGid(e)
-	fmt.Printf("Ptr: %p %p => %p %d %p %d \n", q, w, x1, g1, x2, g2)
-	fmt.Printf("Ptr: %p => %p %d\n", e, x3, g3)
+	x1 := p2.Acquire(q)
+	p2.Acquire(e)
+	x2 := p2.Acquire(w)
+	fmt.Printf("Ptr: %p %p => %p %p \n", q, w, x1, x2)
 }

pkg/pools/node.go

@@ -5,7 +5,6 @@ type Node[T comparable, V any] struct {
 	children map[T]*Node[T, V] // map of children
 	value    V
 	final    bool
-	gid      uint64
 }
 
 // NewNode creates a new tree node
@@ -19,7 +18,7 @@ func NewNode[T comparable, V any](value V) *Node[T, V] {
 
 // traverse inserts a new node into the three if required
 // or returns the object if it already exists.
-func (n *Node[T, V]) traverse(gid uint64, value V, tail []T) (V, uint64) {
+func (n *Node[T, V]) traverse(value V, tail []T) V {
 	id := tail[0]
 	tail = tail[1:]
 
@@ -36,16 +35,15 @@ func (n *Node[T, V]) traverse(gid uint64, value V, tail []T) (V, uint64) {
 		if !child.final {
 			child.value = value
 			child.final = true
-			child.gid = gid
 		}
-		return child.value, child.gid
+		return child.value
 	}
 
-	return child.traverse(gid, value, tail)
+	return child.traverse(value, tail)
 }
 
 // read returns the object if it exists or nil if not.
-func (n *Node[T, V]) read(tail []T) (V, uint64) {
+func (n *Node[T, V]) read(tail []T) V {
 	id := tail[0]
 	tail = tail[1:]
 
@@ -53,12 +51,12 @@ func (n *Node[T, V]) read(tail []T) (V, uint64) {
 	child, ok := n.children[id]
 	if !ok {
 		var zero V
-		return zero, 0
+		return zero
 	}
 
 	// Set obj if required
 	if len(tail) == 0 {
-		return child.value, child.gid
+		return child.value
 	}
 
 	return child.read(tail)