// Removes a key from the tree. func treeDel(repo *git.Repository, tree *git.Tree, key string) (*git.Tree, error) { var err error key = TreePath(key) base, leaf := path.Split(key) if tree != nil { if tree, err = TreeScope(repo, tree, base); err != nil { return nil, err } } builder, err := repo.TreeBuilderFromTree(tree) if err != nil { return nil, err } if err := builder.Remove(leaf); err != nil { return nil, err } treeId, err := builder.Write() if err != nil { return nil, err } newTree, err := lookupTree(repo, treeId) if err != nil { return nil, err } return newTree, err }
// treeAdd creates a new Git tree by adding a new object // to it at the specified path. // Intermediary subtrees are created as needed. // If an object already exists at key or any intermediary path, // it is overwritten. // // - If merge is true, new trees are merged into existing ones at the // file granularity (similar to 'cp -R'). // - If it is false, existing trees are completely shadowed (similar to 'mount') // // Since git trees are immutable, base is not modified. The new // tree is returned. // If an error is encountered, intermediary objects may be left // behind in the git repository. It is the caller's responsibility // to perform garbage collection, if any. // FIXME: manage garbage collection, or provide a list of created // objects. func treeAdd(repo *git.Repository, tree *git.Tree, key string, valueId *git.Oid, merge bool) (t *git.Tree, err error) { /* ** // Primitive but convenient tracing for debugging recursive calls to treeAdd. ** // Uncomment this block for debug output. ** ** var callString string ** if tree != nil { ** callString = fmt.Sprintf(" treeAdd %v:\t\t%s\t\t\t= %v", tree.Id(), key, valueId) ** } else { ** callString = fmt.Sprintf(" treeAdd %v:\t\t%s\t\t\t= %v", tree, key, valueId) ** } ** fmt.Printf(" %s\n", callString) ** defer func() { ** if t != nil { ** fmt.Printf("-> %s => %v\n", callString, t.Id()) ** } else { ** fmt.Printf("-> %s => %v\n", callString, err) ** } ** }() */ if valueId == nil { return tree, nil } key = TreePath(key) base, leaf := path.Split(key) o, err := repo.Lookup(valueId) if err != nil { return nil, err } var builder *git.TreeBuilder if tree == nil { builder, err = repo.TreeBuilder() if err != nil { return nil, err } } else { builder, err = repo.TreeBuilderFromTree(tree) if err != nil { return nil, err } } defer builder.Free() // The specified path has only 1 component (the "leaf") if base == "" || base == "/" { // If val is a string, set it and we're done. // Any old value is overwritten. if _, isBlob := o.(*git.Blob); isBlob { if err := builder.Insert(leaf, valueId, 0100644); err != nil { return nil, err } newTreeId, err := builder.Write() if err != nil { return nil, err } newTree, err := lookupTree(repo, newTreeId) if err != nil { return nil, err } return newTree, nil } // If val is not a string, it must be a subtree. // Return an error if it's any other type than Tree. oTree, ok := o.(*git.Tree) if !ok { return nil, fmt.Errorf("value must be a blob or subtree") } var subTree *git.Tree var oldSubTree *git.Tree if tree != nil { oldSubTree, err = TreeScope(repo, tree, leaf) // FIXME: distinguish "no such key" error (which // FIXME: distinguish a non-existing previous tree (continue with oldTree==nil) // from other errors (abort and return an error) if err == nil { defer oldSubTree.Free() } } // If that subtree already exists, merge the new one in. if merge && oldSubTree != nil { subTree = oldSubTree for i := uint64(0); i < oTree.EntryCount(); i++ { var err error e := oTree.EntryByIndex(i) subTree, err = treeAdd(repo, subTree, e.Name, e.Id, merge) if err != nil { return nil, err } } } else { subTree = oTree } // If the key is /, we're replacing the current tree if key == "/" { return subTree, nil } // Otherwise we're inserting into the current tree if err := builder.Insert(leaf, subTree.Id(), 040000); err != nil { return nil, err } newTreeId, err := builder.Write() if err != nil { return nil, err } newTree, err := lookupTree(repo, newTreeId) if err != nil { return nil, err } return newTree, nil } subtree, err := treeAdd(repo, nil, leaf, valueId, merge) if err != nil { return nil, err } return treeAdd(repo, tree, base, subtree.Id(), merge) }