package lru import ( "math/rand" "testing" ) func BenchmarkLRU_Rand(b *testing.B) { l, err := New(8192) if err != nil { b.Fatalf("err: %v", err) } trace := make([]int64, b.N*2) for i := 0; i < b.N*2; i++ { trace[i] = rand.Int63() % 32768 } b.ResetTimer() var hit, miss int for i := 0; i < 2*b.N; i++ { if i%2 == 0 { l.Add(trace[i], trace[i]) } else { _, ok := l.Get(trace[i]) if ok { hit++ } else { miss++ } } } b.Logf("hit: %d miss: %d ratio: %f", hit, miss, float64(hit)/float64(miss)) } func BenchmarkLRU_Freq(b *testing.B) { l, err := New(8192) if err != nil { b.Fatalf("err: %v", err) } trace := make([]int64, b.N*2) for i := 0; i < b.N*2; i++ { if i%2 == 0 { trace[i] = rand.Int63() % 16384 } else { trace[i] = rand.Int63() % 32768 } } b.ResetTimer() for i := 0; i < b.N; i++ { l.Add(trace[i], trace[i]) } var hit, miss int for i := 0; i < b.N; i++ { _, ok := l.Get(trace[i]) if ok { hit++ } else { miss++ } } b.Logf("hit: %d miss: %d ratio: %f", hit, miss, float64(hit)/float64(miss)) } func TestLRU(t *testing.T) { evictCounter := 0 onEvicted := func(k interface{}, v interface{}) { if k != v { t.Fatalf("Evict values not equal (%v!=%v)", k, v) } evictCounter++ } l, err := NewWithEvict(128, onEvicted) if err != nil { t.Fatalf("err: %v", err) } for i := 0; i < 256; i++ { l.Add(i, i) } if l.Len() != 128 { t.Fatalf("bad len: %v", l.Len()) } if evictCounter != 128 { t.Fatalf("bad evict count: %v", evictCounter) } for i, k := range l.Keys() { if v, ok := l.Get(k); !ok || v != k || v != i+128 { t.Fatalf("bad key: %v", k) } } for i := 0; i < 128; i++ { _, ok := l.Get(i) if ok { t.Fatalf("should be evicted") } } for i := 128; i < 256; i++ { _, ok := l.Get(i) if !ok { t.Fatalf("should not be evicted") } } for i := 128; i < 192; i++ { l.Remove(i) _, ok := l.Get(i) if ok { t.Fatalf("should be deleted") } } l.Get(192) // expect 192 to be last key in l.Keys() for i, k := range l.Keys() { if (i < 63 && k != i+193) || (i == 63 && k != 192) { t.Fatalf("out of order key: %v", k) } } l.Purge() if l.Len() != 0 { t.Fatalf("bad len: %v", l.Len()) } if _, ok := l.Get(200); ok { t.Fatalf("should contain nothing") } } // test that Add returns true/false if an eviction occurred func TestLRUAdd(t *testing.T) { evictCounter := 0 onEvicted := func(k interface{}, v interface{}) { evictCounter++ } l, err := NewWithEvict(1, onEvicted) if err != nil { t.Fatalf("err: %v", err) } if l.Add(1, 1) == true || evictCounter != 0 { t.Errorf("should not have an eviction") } if l.Add(2, 2) == false || evictCounter != 1 { t.Errorf("should have an eviction") } } // test that Contains doesn't update recent-ness func TestLRUContains(t *testing.T) { l, err := New(2) if err != nil { t.Fatalf("err: %v", err) } l.Add(1, 1) l.Add(2, 2) if !l.Contains(1) { t.Errorf("1 should be contained") } l.Add(3, 3) if l.Contains(1) { t.Errorf("Contains should not have updated recent-ness of 1") } } // test that Contains doesn't update recent-ness func TestLRUContainsOrAdd(t *testing.T) { l, err := New(2) if err != nil { t.Fatalf("err: %v", err) } l.Add(1, 1) l.Add(2, 2) contains, evict := l.ContainsOrAdd(1, 1) if !contains { t.Errorf("1 should be contained") } if evict { t.Errorf("nothing should be evicted here") } l.Add(3, 3) contains, evict = l.ContainsOrAdd(1, 1) if contains { t.Errorf("1 should not have been contained") } if !evict { t.Errorf("an eviction should have occurred") } if !l.Contains(1) { t.Errorf("now 1 should be contained") } } // test that Peek doesn't update recent-ness func TestLRUPeek(t *testing.T) { l, err := New(2) if err != nil { t.Fatalf("err: %v", err) } l.Add(1, 1) l.Add(2, 2) if v, ok := l.Peek(1); !ok || v != 1 { t.Errorf("1 should be set to 1: %v, %v", v, ok) } l.Add(3, 3) if l.Contains(1) { t.Errorf("should not have updated recent-ness of 1") } }