vendor/github.com/hashicorp/go-immutable-radix/iter.go - third_party/github.com/docker/docker - Git at Google

 package iradix

 import "bytes"

 // Iterator is used to iterate over a set of nodes
 // in pre-order
 type Iterator struct {
 	node  *Node
 	stack []edges
 }

 // SeekPrefixWatch is used to seek the iterator to a given prefix
 // and returns the watch channel of the finest granularity
 func (i *Iterator) SeekPrefixWatch(prefix []byte) (watch <-chan struct{}) {
 	// Wipe the stack
 	i.stack = nil
 	n := i.node
 	watch = n.mutateCh
 	search := prefix
 	for {
 		// Check for key exhaution
 		if len(search) == 0 {
 			i.node = n
 			return
 		}

 		// Look for an edge
 		_, n = n.getEdge(search[0])
 		if n == nil {
 			i.node = nil
 			return
 		}

 		// Update to the finest granularity as the search makes progress
 		watch = n.mutateCh

 		// Consume the search prefix
 		if bytes.HasPrefix(search, n.prefix) {
 			search = search[len(n.prefix):]

 		} else if bytes.HasPrefix(n.prefix, search) {
 			i.node = n
 			return
 		} else {
 			i.node = nil
 			return
 		}
 	}
 }

 // SeekPrefix is used to seek the iterator to a given prefix
 func (i *Iterator) SeekPrefix(prefix []byte) {
 	i.SeekPrefixWatch(prefix)
 }

 // Next returns the next node in order
 func (i *Iterator) Next() ([]byte, interface{}, bool) {
 	// Initialize our stack if needed
 	if i.stack == nil && i.node != nil {
 		i.stack = []edges{
 			edges{
 				edge{node: i.node},
 			},
 		}
 	}

 	for len(i.stack) > 0 {
 		// Inspect the last element of the stack
 		n := len(i.stack)
 		last := i.stack[n-1]
 		elem := last[0].node

 		// Update the stack
 		if len(last) > 1 {
 			i.stack[n-1] = last[1:]
 		} else {
 			i.stack = i.stack[:n-1]
 		}

 		// Push the edges onto the frontier
 		if len(elem.edges) > 0 {
 			i.stack = append(i.stack, elem.edges)
 		}

 		// Return the leaf values if any
 		if elem.leaf != nil {
 			return elem.leaf.key, elem.leaf.val, true
 		}
 	}
 	return nil, nil, false
 }
	package iradix

	import "bytes"

	// Iterator is used to iterate over a set of nodes
	// in pre-order
	type Iterator struct {
	node *Node
	stack []edges
	}

	// SeekPrefixWatch is used to seek the iterator to a given prefix
	// and returns the watch channel of the finest granularity
	func (i *Iterator) SeekPrefixWatch(prefix []byte) (watch <-chan struct{}) {
	// Wipe the stack
	i.stack = nil
	n := i.node
	watch = n.mutateCh
	search := prefix
	for {
	// Check for key exhaution
	if len(search) == 0 {
	i.node = n
	return
	}

	// Look for an edge
	_, n = n.getEdge(search[0])
	if n == nil {
	i.node = nil
	return
	}

	// Update to the finest granularity as the search makes progress
	watch = n.mutateCh

	// Consume the search prefix
	if bytes.HasPrefix(search, n.prefix) {
	search = search[len(n.prefix):]

	} else if bytes.HasPrefix(n.prefix, search) {
	i.node = n
	return
	} else {
	i.node = nil
	return
	}
	}
	}

	// SeekPrefix is used to seek the iterator to a given prefix
	func (i *Iterator) SeekPrefix(prefix []byte) {
	i.SeekPrefixWatch(prefix)
	}

	// Next returns the next node in order
	func (i *Iterator) Next() ([]byte, interface{}, bool) {
	// Initialize our stack if needed
	if i.stack == nil && i.node != nil {
	i.stack = []edges{
	edges{
	edge{node: i.node},
	},
	}
	}

	for len(i.stack) > 0 {
	// Inspect the last element of the stack
	n := len(i.stack)
	last := i.stack[n-1]
	elem := last[0].node

	// Update the stack
	if len(last) > 1 {
	i.stack[n-1] = last[1:]
	} else {
	i.stack = i.stack[:n-1]
	}

	// Push the edges onto the frontier
	if len(elem.edges) > 0 {
	i.stack = append(i.stack, elem.edges)
	}

	// Return the leaf values if any
	if elem.leaf != nil {
	return elem.leaf.key, elem.leaf.val, true
	}
	}
	return nil, nil, false
	}