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consul/vendor/github.com/hashicorp/go-immutable-radix
Matt Keeler 7f00fc60f1
Dependency: Update github.com/hashicorp/go-memdb to v1.0.3 (#6626)
5 years ago
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.gitignore Update vendoring from go mod. (#5566) 6 years ago
.travis.yml Update vendoring from go mod. (#5566) 6 years ago
CHANGELOG.md Dependency: Update github.com/hashicorp/go-memdb to v1.0.3 (#6626) 5 years ago
LICENSE Manage dependencies via Godep 9 years ago
README.md Dependency: Update github.com/hashicorp/go-memdb to v1.0.3 (#6626) 5 years ago
edges.go Manage dependencies via Godep 9 years ago
go.mod Update vendoring from go mod. (#5566) 6 years ago
go.sum Update vendoring from go mod. (#5566) 6 years ago
iradix.go Update vendoring from go mod. (#5566) 6 years ago
iter.go Dependency: Update github.com/hashicorp/go-memdb to v1.0.3 (#6626) 5 years ago
node.go Dependency: Update github.com/hashicorp/go-memdb to v1.0.3 (#6626) 5 years ago
raw_iter.go Updates go-immutable-radix and go-memdb to get fine-grained watches. 8 years ago

README.md

go-immutable-radix Build Status

Provides the iradix package that implements an immutable radix tree. The package only provides a single Tree implementation, optimized for sparse nodes.

As a radix tree, it provides the following:

  • O(k) operations. In many cases, this can be faster than a hash table since the hash function is an O(k) operation, and hash tables have very poor cache locality.
  • Minimum / Maximum value lookups
  • Ordered iteration

A tree supports using a transaction to batch multiple updates (insert, delete) in a more efficient manner than performing each operation one at a time.

For a mutable variant, see go-radix.

Documentation

The full documentation is available on Godoc.

Example

Below is a simple example of usage

// Create a tree
r := iradix.New()
r, _, _ = r.Insert([]byte("foo"), 1)
r, _, _ = r.Insert([]byte("bar"), 2)
r, _, _ = r.Insert([]byte("foobar"), 2)

// Find the longest prefix match
m, _, _ := r.Root().LongestPrefix([]byte("foozip"))
if string(m) != "foo" {
    panic("should be foo")
}

Here is an example of performing a range scan of the keys.

// Create a tree
r := iradix.New()
r, _, _ = r.Insert([]byte("001"), 1)
r, _, _ = r.Insert([]byte("002"), 2)
r, _, _ = r.Insert([]byte("005"), 5)
r, _, _ = r.Insert([]byte("010"), 10)
r, _, _ = r.Insert([]byte("100"), 10)

// Range scan over the keys that sort lexicographically between [003, 050)
it := r.Root().Iterator()
it.SeekLowerBound([]byte("003"))
for key, _, ok := it.Next(); ok; key, _, ok = it.Next() {
  if key >= "050" {
      break
  }
  fmt.Println(key)
}
// Output:
//  005
//  010