tree_walker.go - third_party/github.com/src-d/go-git - Git at Google

 package git

 import (
 	"io"
 	"path"
 )

 const (
 	startingStackSize = 8
 )

 // TreeWalker provides a means of walking through all of the entries in a Tree.
 type TreeWalker struct {
 	stack []TreeEntryIter
 	base  string

 	r *Repository
 }

 // NewTreeWalker returns a new TreeWalker for the given repository and tree.
 //
 // It is the caller's responsibility to call Close() when finished with the
 // tree walker.
 func NewTreeWalker(r *Repository, t *Tree) *TreeWalker {
 	w := TreeWalker{
 		stack: make([]TreeEntryIter, 0, startingStackSize),
 		base:  "",
 		r:     r,
 	}
 	w.stack = append(w.stack, *NewTreeEntryIter(t))
 	return &w
 }

 // Next returns the next object from the tree. Objects are returned in order
 // and subtrees are included. After the last object has been returned further
 // calls to Next() will return io.EOF.
 //
 // In the current implementation any objects which cannot be found in the
 // underlying repository will be skipped automatically. It is possible that this
 // may change in future versions.
 func (w *TreeWalker) Next() (name string, entry TreeEntry, obj Object, err error) {
 	for {
 		current := len(w.stack) - 1
 		if current < 0 {
 			// Nothing left on the stack so we're finished
 			err = io.EOF
 			return
 		}
 		if current > maxTreeDepth {
 			// We're probably following bad data or some self-referencing tree
 			err = ErrMaxTreeDepth
 			return
 		}

 		entry, err = w.stack[current].Next()
 		if err == io.EOF {
 			// Finished with the current tree, move back up to the parent
 			w.stack = w.stack[:current]
 			w.base, _ = path.Split(w.base)
 			w.base = path.Clean(w.base) // Remove trailing slash
 			continue
 		}
 		if err != nil {
 			return
 		}

 		obj, err = w.r.Object(entry.Hash)
 		if err == ObjectNotFoundErr {
 			// FIXME: Avoid doing this here in case the caller actually cares about
 			//        missing objects.
 			err = nil
 			continue // ignore entries without hash (= submodule dirs)
 		}

 		name = path.Join(w.base, entry.Name)

 		if err != nil {
 			return
 		}

 		break
 	}

 	if tree, ok := obj.(*Tree); ok {
 		w.stack = append(w.stack, *NewTreeEntryIter(tree))
 		w.base = path.Join(w.base, entry.Name)
 	}

 	return
 }

 // Tree returns the tree that the tree walker most recently operated on.
 func (w *TreeWalker) Tree() *Tree {
 	current := len(w.stack) - 1
 	if current < 0 {
 		return nil
 	}
 	return w.stack[current].t
 }

 // Close releases any resources used by the TreeWalker.
 func (w *TreeWalker) Close() {
 	w.stack = nil
 }
	package git

	import (
	"io"
	"path"
	)

	const (
	startingStackSize = 8
	)

	// TreeWalker provides a means of walking through all of the entries in a Tree.
	type TreeWalker struct {
	stack []TreeEntryIter
	base string

	r *Repository
	}

	// NewTreeWalker returns a new TreeWalker for the given repository and tree.
	//
	// It is the caller's responsibility to call Close() when finished with the
	// tree walker.
	func NewTreeWalker(r Repository, t Tree) *TreeWalker {
	w := TreeWalker{
	stack: make([]TreeEntryIter, 0, startingStackSize),
	base: "",
	r: r,
	}
	w.stack = append(w.stack, *NewTreeEntryIter(t))
	return &w
	}

	// Next returns the next object from the tree. Objects are returned in order
	// and subtrees are included. After the last object has been returned further
	// calls to Next() will return io.EOF.
	//
	// In the current implementation any objects which cannot be found in the
	// underlying repository will be skipped automatically. It is possible that this
	// may change in future versions.
	func (w *TreeWalker) Next() (name string, entry TreeEntry, obj Object, err error) {
	for {
	current := len(w.stack) - 1
	if current < 0 {
	// Nothing left on the stack so we're finished
	err = io.EOF
	return
	}
	if current > maxTreeDepth {
	// We're probably following bad data or some self-referencing tree
	err = ErrMaxTreeDepth
	return
	}

	entry, err = w.stack[current].Next()
	if err == io.EOF {
	// Finished with the current tree, move back up to the parent
	w.stack = w.stack[:current]
	w.base, _ = path.Split(w.base)
	w.base = path.Clean(w.base) // Remove trailing slash
	continue
	}
	if err != nil {
	return
	}

	obj, err = w.r.Object(entry.Hash)
	if err == ObjectNotFoundErr {
	// FIXME: Avoid doing this here in case the caller actually cares about
	// missing objects.
	err = nil
	continue // ignore entries without hash (= submodule dirs)
	}

	name = path.Join(w.base, entry.Name)

	if err != nil {
	return
	}

	break
	}

	if tree, ok := obj.(*Tree); ok {
	w.stack = append(w.stack, *NewTreeEntryIter(tree))
	w.base = path.Join(w.base, entry.Name)
	}

	return
	}

	// Tree returns the tree that the tree walker most recently operated on.
	func (w TreeWalker) Tree() Tree {
	current := len(w.stack) - 1
	if current < 0 {
	return nil
	}
	return w.stack[current].t
	}

	// Close releases any resources used by the TreeWalker.
	func (w *TreeWalker) Close() {
	w.stack = nil
	}