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treepy.el (ˈtriːpi)

MELPA Emacs Build Status

A set of generic functions for traversing tree-like data structures recursively and/or iteratively, ported from clojure.walk and clojure.zip respectively.

Table of Contents

Getting Started

treepy supports Emacs 25.1+.

It is available in MELPA, which is the recommended way to install it and keep it up to date.

To install it, you may do

M-x package-install RET treepy RET

If the installation doesn't work, consider refreshing the package list: M-x package-refresh-contents [RET]

For a manual installation, just place treepy.el in your load-path and (require 'treepy). Then you'll have all the treepy-* functions available.

Available functions

Walker

  • treepy-walk inner outer form

    Traverses FORM, an arbitrary data structure. INNER and OUTER are functions. Applies INNER to each element of FORM, building up a data structure of the same type, then applies OUTER to the result. Recognizes cons, lists, alists, vectors and hash tables.

  • treepy-postwalk f form

    Performs a depth-first, post-order traversal of F applied to FORM. Calls F on each sub-form, uses F's return value in place of the original. Recognizes cons, lists, alists, vectors and hash tables.

  • treepy-prewalk f form

    Like treepy-postwalk, Performs function F on FORM but does pre-order traversal.

  • treepy-prewalk-demo form

    Demonstrates the behavior of treepy-prewalk for FORM. Returns a list of each form as it is walked.

  • treepy-postwalk-demo form

    Demonstrates the behavior of treepy-postwalk for FORM. Returns a list of each form as it is walked.

  • treepy-postwalk-replace smap form &optional testfn

    Recursively transforms FORM by replacing keys in SMAP with their values. Does replacement at the root of the tree first. The optional TESTFN is passed to map-contains-key as the testing equality function.

  • treepy-postwalk-replace smap form &optional testfn

    Recursively transforms FORM by replacing keys in SMAP with their values. Does replacement at the leaves of the tree first. The optional TESTFN is passed to map-contains-key as the testing equality function.

Zipper

Construction

  • treepy-zipper branchp children make-node root

    Creates a new zipper structure.

    BRANCHP is a function that, given a node, returns t if it can have children, even if it currently doesn't.

    CHILDREN is a function that, given a branch node, returns a seq of its children.

    MAKE-NODE is a function that, given an existing node and a seq of children, returns a new branch node with the supplied children.

    ROOT is the root node.

  • treepy-list-zip root

    Returns a zipper for nested lists, given a ROOT list.

  • treepy-vector-zip root

    Returns a zipper for nested vectors, given a ROOT vector.

Context / Path

  • treepy-node loc

    Returns the node at LOC.

  • treepy-branch-p loc

    Returns t if the node at LOC is a branch. nil otherwise.

  • treepy-children loc

    Returns a children list of the node at LOC, which must be a branch.

  • treepy-make-node loc node children

    Returns a new branch node, given an existing LOC, NODE and new CHILDREN. The LOC is only used to supply the constructor.

  • treepy-path loc

    Returns a list of nodes leading to the given LOC.

  • treepy-lefts loc

    Returns a list of the left siblings of this LOC.

  • treepy-rights loc

    Returns a list of the right siblings of this LOC.

Navigation

  • treepy-down loc

    Returns the loc of the leftmost child of the node at this LOC, or nil if no children.

  • treepy-up loc

    Returns the loc of the parent of the node at this LOC, or nil if at the top.

  • treepy-root loc

    Zips from LOC all the way up and return the root node, reflecting any changes.

  • treepy-right loc

    Returns the loc of the right sibling of the node at this LOC, or nil.

  • treepy-rightmost loc

    Returns the loc of the rightmost sibling of the node at this LOC, or self.

  • treepy-left loc

    Returns the loc of the left sibling of the node at this LOC, or nil.

  • treepy-leftmost loc

    Returns the loc of the leftmost sibling of the node at this LOC, or self.

  • treepy-leftmost-descendant loc

    Returns the leftmost descendant of the given LOC. (ie, down repeatedly).

Modification

  • treepy-insert-left loc item

    Inserts ITEM as the left sibling of this LOC'S node, without moving.

  • treepy-insert-right loc item

    Inserts ITEM as the right sibling of this LOC's node, without moving.

  • treepy-replace loc node

    Replaces the node in this LOC with the given NODE, without moving.

  • treepy-edit loc f &rest args

    Replaces the node at this LOC with the value of (F node ARGS).

  • treepy-insert-child loc item

    Inserts ITEM as the leftmost child of this LOC's node, without moving.

  • treepy-append-child loc item

    Inserts ITEM as the rightmost child of this LOC'S node, without moving.

  • treepy-remove loc

    Removes the node at LOC. Returns the loc that would have preceded it in a depth-first walk.

Enumeration

  • treepy-next loc &optional order

    Moves to the next LOC in the hierarchy, depth-first, using ORDER if given. Possible values for ORDER are :preorder and :postorder, defaults to the former. When reaching the end, returns a distinguished loc detectable via treepy-end-p. If already at the end, stays there.

  • treepy-next loc &optional order

    Moves to the previous LOC in the hierarchy, depth-first, using ORDER if given. Possible values for ORDER are :preorder and :postorder, defaults to the former.

  • treepy-end-p loc

    Returns t if LOC represents the end of a depth-first walk, nil otherwise.

Main differences with clojure libraries

Even though one of treepy's goals is to provide an API that's as close as possible to clojure.walk and clojure.zip, there are some subtle (and not so subtle) differences derived from elisp/clojure distinct data structures, levels of abstraction, and code conventions.

The most notorious difference is the name of the functions. For every function in Clojure world, there's a treepy counterpart that's prefixed with treepy-. So:

  • clojure.walk/walk -> treepy-walk
  • clojure.zip/zipper -> treepy-zipper

... and so on.

clojure.walk

  • treepy-walk (and all its derivatives) works on lists, vectors, alists and hash-tables only.

  • Instead of printing to stdout, treepy-prewalk-demo and treepy-postwalk-demo return a list of the sub forms as they get walked.

  • treepy doesn't provide implementations for keywordize-keys, stringify-keys and macroexpand-all. There's already a macroexpand-all implementation built in.

  • treepy-prewalk-replace and treepy-postwalk-replace are based on the (Emacs 25) built in map-contains-key function. Both functions take an optional a testfn third parameter to be used by map-contains-key. Defaults to equal.

clojure.zip

  • In order to follow elisp conventions, treepy has a couple of other small renamings:

    • clojure.zip/branch? -> treepy-branch-p
    • clojure.zip/end? -> treepy-end-p
  • There's is no exact equivalent to clojure.zip/seq-zip in treepy, a treepy-list-zip is provided instead.

  • treepy provides a way to traverse a tree in postorder while using the enumeration functions treepy-next and treepy-prev. This is done by having an extra optional parameter order that can be passed to both functions:

(treepy-next loc)  ;; => next node in preorder, as in clojure.zip/next.
(treepy-next loc :preorder)  ;; => also next node in preorder.
(treepy-next loc :postorder)  ;; => next node in postorder.
  • There's a new function in treepy to get the leftmost descendant of a node/loc. Unsurprisingly, it's called treepy-leftmost-descendant. This function is particularly useful when trying to traverse a tree in post order, since unlike preorder trasversal, the root is NOT the first element you want walk/visit. You might want to call (treepy-leftmost-descendant root) before starting to walk the nodes with treepy-next in postorder.

The following are some treepy's implementation differences that you might not need to bother with if you just wanna use the library.

  • treepy's loc data structure: When you create a Clojure "zipper" with clojure.zip/zipper, you have to provide three helper functions (branch?, children, and make-node) and a root form. clojure.zip/zipper will then return a tuple vector that represents a "locaction". The three helper functions are stored as clojure's metadata into the returned loc. Since there's no equivalent to metadata in Elisp, treepy directly associates the three helper functions into an alist that's returned with the rest of the loc information. The resulting structure of a treepy loc is the following:
((<current node> . <path alist>) . ((:branch-p . #'provided-branch-fn)
                                    (:children . #'provided-children-fn)
                                    (:make-node . #'provided-make-node-fn)))
  • <path alist> is an alist containing the same keys and values as clojure.zip's path map. Only difference is that treepy uses lists instead of vectors to handle the left siblings and pnodes parent nodes.

Prior Art

LICENSE

© 2017 Daniel Barreto

Distributed under the terms of the GNU GENERAL PUBLIC LICENSE, version 3.

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Generic tree traversing tools for Emacs Lisp

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