Ejemplo n.º 1
0
func InitIntervalMdd(size int) (b IntervalMddStore) {
	b.storage = rbtree.NewTree(Compare)
	b.Nodes = make([]*IntervalNode, 2)
	b.MaxNodes = *glob.MDD_max_flag

	b.Nodes[0] = &IntervalNode{Id: 0, Level: 0, Wmin: math.MinInt64 + 100000, Wmax: -1} // id 0
	b.Nodes[1] = &IntervalNode{Id: 1, Level: 0, Wmin: 0, Wmax: math.MaxInt64 - 100000}  // id 1
	b.storage.Insert(*b.Nodes[0])
	b.storage.Insert(*b.Nodes[1])
	b.NextId = 2
	return
}
Ejemplo n.º 2
0
func newFrontier() *frontier {
	f := new(frontier)
	f.tree = rbtree.NewTree(func(p1, p2 rbtree.Item) int {
		f1 := p1.(frontierItem)
		f2 := p2.(frontierItem)
		if f1.x < f2.x {
			return -1
		} else if f1.x == f2.x {
			return 0
		}
		return 1
	})
	return f
}
Ejemplo n.º 3
0
Archivo: shard.go Proyecto: d0ngw/go
//构建Jedis Shard
func NewJedisShard(nodes []RedisNodeOpt) RedisShard {
	checkDuplicateNode(nodes)
	s := &jedisShard{
		clients: make([]*r.Client, 0),
		tree: rbtree.NewTree(func(a, b rbtree.Item) int {
			aNodeKey := a.(*jedisTreeNode).key
			bNodeKey := b.(*jedisTreeNode).key
			if aNodeKey == bNodeKey {
				return 0
			} else if aNodeKey < bNodeKey {
				return -1
			} else {
				return 1
			}
		}),
		hashFunc: func(data []byte) int64 {
			return MurmurHash64A_Jedis(data, 0x1234ABCD)
		}}
	s.add(nodes)
	return s
}
Ejemplo n.º 4
0
func (s *Segment) writePtr(off int, p Object, copies *rbtree.Tree, depth int) error {
	ps := p.Segment

	if p.typ == TypeNull {
		putLittle64(s.Data[off:], 0)
		return nil

	} else if s == p.Segment {
		// Same segment
		putLittle64(s.Data[off:], p.value(off))
		return nil

	} else if s.Message != ps.Message || (p.flags&isListMember) != 0 || (p.flags&isBitListMember) != 0 {
		// We need to clone the target.

		if depth >= 32 {
			return ErrCopyDepth
		}

		// First see if the ptr has already been copied
		if copies == nil {
			copies = rbtree.NewTree(compare)
		}

		key := offset{
			id:   ps.Id,
			boff: int64(p.off) * 8,
			bend: int64(p.dataEnd()) * 8,
			newval: Object{
				typ:    p.typ,
				length: p.length,
				datasz: p.datasz,
				ptrs:   p.ptrs,
				flags:  (p.flags & isCompositeList),
			},
		}

		if (p.flags & isBitListMember) != 0 {
			key.boff += int64(p.flags & bitOffsetMask)
			key.bend = key.boff + 1
			key.newval.datasz = 8
		}

		if (p.flags & isCompositeList) != 0 {
			key.boff -= 64
		}

		iter := copies.FindLE(key)

		if key.bend > key.boff {
			if !iter.NegativeLimit() {
				other := iter.Item().(offset)
				if key.id == other.id {
					if key.boff == other.boff && key.bend == other.bend {
						return s.writePtr(off, other.newval, nil, depth+1)
					} else if other.bend >= key.bend {
						return ErrOverlap
					}
				}
			}

			iter = iter.Next()

			if !iter.Limit() {
				other := iter.Item().(offset)
				if key.id == other.id && other.boff < key.bend {
					return ErrOverlap
				}
			}
		}

		// No copy nor overlap found, so we need to clone the target
		n, err := s.create(int((key.bend-key.boff)/8), key.newval)
		if err != nil {
			return err
		}

		ns := n.Segment

		if (n.flags & isCompositeList) != 0 {
			copy(ns.Data[n.off:], ps.Data[p.off-8:p.off])
			n.off += 8
		}

		key.newval = n
		copies.Insert(key)

		switch p.typ {
		case TypeStruct:
			if (p.flags & isBitListMember) != 0 {
				if (ps.Data[p.off] & (1 << (p.flags & bitOffsetMask))) != 0 {
					ns.Data[n.off] = 1
				} else {
					ns.Data[n.off] = 0
				}

				for i := range ns.Data[n.off+1 : n.off+8] {
					ns.Data[i] = 0
				}
			} else {
				copy(ns.Data[n.off:], ps.Data[p.off:p.off+p.datasz])
				for i := 0; i < n.ptrs; i++ {
					c := ps.readPtr(p.off + p.datasz + i*8)
					if err := ns.writePtr(n.off+n.datasz+i*8, c, copies, depth+1); err != nil {
						return err
					}
				}
			}

		case TypeList:
			for i := 0; i < n.length; i++ {
				o := i * (n.datasz + n.ptrs*8)
				copy(ns.Data[n.off+o:], ps.Data[p.off+o:p.off+o+n.datasz])
				o += n.datasz

				for j := 0; j < n.ptrs; j++ {
					c := ps.readPtr(p.off + o)
					if err := ns.writePtr(n.off+o, c, copies, depth+1); err != nil {
						return err
					}
					o += 8
				}
			}

		case TypePointerList:
			for i := 0; i < n.ptrs; i++ {
				c := ps.readPtr(p.off + i*8)
				if err := ns.writePtr(n.off+i*8, c, copies, depth+1); err != nil {
					return err
				}
			}

		case TypeBitList:
			copy(ns.Data[n.off:], ps.Data[p.off:p.off+p.datasz])
		}

		return s.writePtr(off, key.newval, nil, depth+1)

	} else if (p.flags & hasPointerTag) != 0 {
		// By lucky chance, the data has a tag in front of it. This
		// happens when create had to move the data to a new segment.
		putLittle64(s.Data[off:], ps.farPtrValue(farPointer, p.off-8))
		return nil

	} else if len(ps.Data)+8 <= cap(ps.Data) {
		// Have room in the target for a tag
		putLittle64(ps.Data[len(ps.Data):], p.value(len(ps.Data)))
		putLittle64(s.Data[off:], ps.farPtrValue(farPointer, len(ps.Data)))
		ps.Data = ps.Data[:len(ps.Data)+8]
		return nil

	} else {
		// Need to create a double far pointer. Try and create it in
		// the originating segment if we can.
		t := s
		if len(t.Data)+16 > cap(t.Data) {
			var err error
			if t, err = t.Message.NewSegment(16); err != nil {
				return err
			}
		}

		putLittle64(t.Data[len(t.Data):], ps.farPtrValue(farPointer, p.off))
		putLittle64(t.Data[len(t.Data)+8:], p.value(p.off-8))
		putLittle64(s.Data[off:], t.farPtrValue(doubleFarPointer, len(t.Data)))
		t.Data = t.Data[:len(t.Data)+16]
		return nil
	}
}