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package needle_map
import ( "fmt" "github.com/seaweedfs/seaweedfs/weed/sequence" . "github.com/seaweedfs/seaweedfs/weed/storage/types" "testing" )
func TestSnowflakeSequencer(t *testing.T) { m := NewCompactMap() seq, _ := sequence.NewSnowflakeSequencer("for_test", 1)
for i := 0; i < 200000; i++ { id := seq.NextFileId(1) oldOffset, oldSize := m.Set(NeedleId(id), ToOffset(8), 3000073) if oldSize != 0 { t.Errorf("id %d oldOffset %v oldSize %d", id, oldOffset, oldSize) } }
}
func TestOverflow2(t *testing.T) { m := NewCompactMap() _, oldSize := m.Set(NeedleId(150088), ToOffset(8), 3000073) if oldSize != 0 { t.Fatalf("expecting no previous data") } _, oldSize = m.Set(NeedleId(150088), ToOffset(8), 3000073) if oldSize != 3000073 { t.Fatalf("expecting previous data size is %d, not %d", 3000073, oldSize) } m.Set(NeedleId(150073), ToOffset(8), 3000073) m.Set(NeedleId(150089), ToOffset(8), 3000073) m.Set(NeedleId(150076), ToOffset(8), 3000073) m.Set(NeedleId(150124), ToOffset(8), 3000073) m.Set(NeedleId(150137), ToOffset(8), 3000073) m.Set(NeedleId(150147), ToOffset(8), 3000073) m.Set(NeedleId(150145), ToOffset(8), 3000073) m.Set(NeedleId(150158), ToOffset(8), 3000073) m.Set(NeedleId(150162), ToOffset(8), 3000073)
m.AscendingVisit(func(value NeedleValue) error { println("needle key:", value.Key) return nil }) }
func TestIssue52(t *testing.T) { m := NewCompactMap() m.Set(NeedleId(10002), ToOffset(10002), 10002) if element, ok := m.Get(NeedleId(10002)); ok { fmt.Printf("key %d ok %v %d, %v, %d\n", 10002, ok, element.Key, element.Offset, element.Size) } m.Set(NeedleId(10001), ToOffset(10001), 10001) if element, ok := m.Get(NeedleId(10002)); ok { fmt.Printf("key %d ok %v %d, %v, %d\n", 10002, ok, element.Key, element.Offset, element.Size) } else { t.Fatal("key 10002 missing after setting 10001") } }
func TestCompactMap(t *testing.T) { m := NewCompactMap() for i := uint32(0); i < 100*batch; i += 2 { m.Set(NeedleId(i), ToOffset(int64(i)), Size(i)) }
for i := uint32(0); i < 100*batch; i += 37 { m.Delete(NeedleId(i)) }
for i := uint32(0); i < 10*batch; i += 3 { m.Set(NeedleId(i), ToOffset(int64(i+11)), Size(i+5)) }
// for i := uint32(0); i < 100; i++ {
// if v := m.Get(Key(i)); v != nil {
// glog.V(4).Infoln(i, "=", v.Key, v.Offset, v.Size)
// }
// }
for i := uint32(0); i < 10*batch; i++ { v, ok := m.Get(NeedleId(i)) if i%3 == 0 { if !ok { t.Fatal("key", i, "missing!") } if v.Size != Size(i+5) { t.Fatal("key", i, "size", v.Size) } } else if i%37 == 0 { if ok && v.Size.IsValid() { t.Fatal("key", i, "should have been deleted needle value", v) } } else if i%2 == 0 { if v.Size != Size(i) { t.Fatal("key", i, "size", v.Size) } } }
for i := uint32(10 * batch); i < 100*batch; i++ { v, ok := m.Get(NeedleId(i)) if i%37 == 0 { if ok && v.Size.IsValid() { t.Fatal("key", i, "should have been deleted needle value", v) } } else if i%2 == 0 { if v == nil { t.Fatal("key", i, "missing") } if v.Size != Size(i) { t.Fatal("key", i, "size", v.Size) } } }
}
func TestOverflow(t *testing.T) { cs := NewCompactSection(1)
cs.setOverflowEntry(1, ToOffset(12), 12) cs.setOverflowEntry(2, ToOffset(12), 12) cs.setOverflowEntry(3, ToOffset(12), 12) cs.setOverflowEntry(4, ToOffset(12), 12) cs.setOverflowEntry(5, ToOffset(12), 12)
if cs.overflow[2].Key != 3 { t.Fatalf("expecting o[2] has key 3: %+v", cs.overflow[2].Key) }
cs.setOverflowEntry(3, ToOffset(24), 24)
if cs.overflow[2].Key != 3 { t.Fatalf("expecting o[2] has key 3: %+v", cs.overflow[2].Key) }
if cs.overflow[2].Size != 24 { t.Fatalf("expecting o[2] has size 24: %+v", cs.overflow[2].Size) }
cs.deleteOverflowEntry(4)
if len(cs.overflow) != 5 { t.Fatalf("expecting 5 entries now: %+v", cs.overflow) }
_, x, _ := cs.findOverflowEntry(5) if x.Key != 5 { t.Fatalf("expecting entry 5 now: %+v", x) }
for i, x := range cs.overflow { println("overflow[", i, "]:", x.Key) } println()
cs.deleteOverflowEntry(1)
for i, x := range cs.overflow { println("overflow[", i, "]:", x.Key, "size", x.Size) } println()
cs.setOverflowEntry(4, ToOffset(44), 44) for i, x := range cs.overflow { println("overflow[", i, "]:", x.Key) } println()
cs.setOverflowEntry(1, ToOffset(11), 11)
for i, x := range cs.overflow { println("overflow[", i, "]:", x.Key) } println()
}
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