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rbtree

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v9.3.0 Latest Latest Go to latest Published: Mar 17, 2019 License: Apache-2.0 Imports: 8 Imported by: 0

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Repository

github.com/src-d/hercules

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Documentation ¶

Index ¶

func CompressUInt32Slice(data []uint32) []byte
func DecompressUInt32Slice(data []byte, result []uint32)
type Allocator
- func NewAllocator() *Allocator
type Item
type Iterator
type RBTree
- func NewRBTree(allocator *Allocator) *RBTree

Constants ¶

This section is empty.

Variables ¶

This section is empty.

Functions ¶

func CompressUInt32Slice ¶

func CompressUInt32Slice(data []uint32) []byte

CompressUInt32Slice compresses a slice of uint32-s with LZ4.

func DecompressUInt32Slice ¶

func DecompressUInt32Slice(data []byte, result []uint32)

DecompressUInt32Slice decompresses a slice of uint32-s previously compressed with LZ4. `result` must be preallocated.

Types ¶

type Allocator ¶

type Allocator struct {
	HibernationThreshold int
	// contains filtered or unexported fields
}

Allocator is the allocator for nodes in a RBTree.

func NewAllocator ¶

func NewAllocator() *Allocator

NewAllocator creates a new allocator for RBTree's nodes.

func (*Allocator) Boot ¶

func (allocator *Allocator) Boot()

Boot performs the opposite of Hibernate() - decompresses and restores the allocated memory.

func (Allocator) Clone ¶

func (allocator Allocator) Clone() *Allocator

Clone copies an existing RBTree allocator.

func (*Allocator) Deserialize ¶

func (allocator *Allocator) Deserialize(path string) error

Deserialize reads a hibernated allocator from disk.

func (*Allocator) Hibernate ¶

func (allocator *Allocator) Hibernate()

Hibernate compresses the allocated memory.

func (*Allocator) Serialize ¶

func (allocator *Allocator) Serialize(path string) error

Serialize writes the hibernated allocator on disk.

func (Allocator) Size ¶

func (allocator Allocator) Size() int

Size returns the currently allocated size.

func (Allocator) Used ¶

func (allocator Allocator) Used() int

Used returns the number of nodes contained in the allocator.

type Item ¶

type Item struct {
	Key   uint32
	Value uint32
}

Item is the object stored in each tree node.

type Iterator ¶

type Iterator struct {
	// contains filtered or unexported fields
}

Iterator allows scanning tree elements in sort order.

Iterator invalidation rule is the same as C++ std::map<>'s. That is, if you delete the element that an iterator points to, the iterator becomes invalid. For other operation types, the iterator remains valid.

func (Iterator) Equal ¶

func (iter Iterator) Equal(other Iterator) bool

Equal checks for the underlying nodes equality.

func (Iterator) Item ¶

func (iter Iterator) Item() *Item

Item returns the current element. Allows mutating the node (key to be changed with care!).

The result is nil if iter.Limit() || iter.NegativeLimit().

func (Iterator) Limit ¶

func (iter Iterator) Limit() bool

Limit checks if the iterator points beyond the max element in the tree.

func (Iterator) Max ¶

func (iter Iterator) Max() bool

Max checks if the iterator points to the maximum element in the tree.

func (Iterator) Min ¶

func (iter Iterator) Min() bool

Min checks if the iterator points to the minimum element in the tree.

func (Iterator) NegativeLimit ¶

func (iter Iterator) NegativeLimit() bool

NegativeLimit checks if the iterator points before the minimum element in the tree.

func (Iterator) Next ¶

func (iter Iterator) Next() Iterator

Next creates a new iterator that points to the successor of the current element.

REQUIRES: !iter.Limit()

func (Iterator) Prev ¶

func (iter Iterator) Prev() Iterator

Prev creates a new iterator that points to the predecessor of the current node.

REQUIRES: !iter.NegativeLimit()

type RBTree ¶

type RBTree struct {
	// contains filtered or unexported fields
}

RBTree is a red-black tree with an API similar to C++ STL's.

The implementation is inspired (read: stolen) from: http://en.literateprograms.org/Red-black_tree_(C)#chunk use:private function prototypes.

The code was optimized for the simple integer types of Key and Value. The code was further optimized for using allocators. Credits: Yaz Saito.

func NewRBTree ¶

func NewRBTree(allocator *Allocator) *RBTree

NewRBTree creates a new red-black binary tree.

func (RBTree) Allocator ¶

func (tree RBTree) Allocator() *Allocator

Allocator returns the bound nodes allocator.

func (RBTree) CloneDeep ¶

func (tree RBTree) CloneDeep(allocator *Allocator) *RBTree

CloneDeep performs a deep copy of the tree - the nodes are created from scratch.

func (RBTree) CloneShallow ¶

func (tree RBTree) CloneShallow(allocator *Allocator) *RBTree

CloneShallow performs a shallow copy of the tree - the nodes are assumed to already exist in the allocator.

func (*RBTree) DeleteWithIterator ¶

func (tree *RBTree) DeleteWithIterator(iter Iterator)

DeleteWithIterator deletes the current item.

REQUIRES: !iter.Limit() && !iter.NegativeLimit()

func (*RBTree) DeleteWithKey ¶

func (tree *RBTree) DeleteWithKey(key uint32) bool

DeleteWithKey deletes an item with the given Key. Returns true iff the item was found.

func (*RBTree) Erase ¶

func (tree *RBTree) Erase()

Erase removes all the nodes from the tree.

func (*RBTree) FindGE ¶

func (tree *RBTree) FindGE(key uint32) Iterator

FindGE finds the smallest element N such that N >= Key, and returns the iterator pointing to the element. If no such element is found, returns tree.Limit().

func (*RBTree) FindLE ¶

func (tree *RBTree) FindLE(key uint32) Iterator

FindLE finds the largest element N such that N <= Key, and returns the iterator pointing to the element. If no such element is found, returns iter.NegativeLimit().

func (RBTree) Get ¶

func (tree RBTree) Get(key uint32) *uint32

Get is a convenience function for finding an element equal to Key. Returns nil if not found.

func (*RBTree) Insert ¶

func (tree *RBTree) Insert(item Item) (bool, Iterator)

Insert an item. If the item is already in the tree, do nothing and return false. Else return true.

func (RBTree) Len ¶

func (tree RBTree) Len() int

Len returns the number of elements in the tree.

func (*RBTree) Limit ¶

func (tree *RBTree) Limit() Iterator

Limit creates an iterator that points beyond the maximum item in the tree.

func (*RBTree) Max ¶

func (tree *RBTree) Max() Iterator

Max creates an iterator that points at the maximum item in the tree.

If the tree is empty, returns NegativeLimit().

func (*RBTree) Min ¶

func (tree *RBTree) Min() Iterator

Min creates an iterator that points to the minimum item in the tree. If the tree is empty, returns Limit()

func (*RBTree) NegativeLimit ¶

func (tree *RBTree) NegativeLimit() Iterator

NegativeLimit creates an iterator that points before the minimum item in the tree.

Source Files ¶

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