9da3ffee41
This is a massive diff that I had to do in a hurry - when leaving Urbint. I'm pretty sure that most of these are updating Emacs packages, but I'm not positive.
484 lines
17 KiB
EmacsLisp
484 lines
17 KiB
EmacsLisp
;;; treepy.el --- Generic tree traversal tools -*- lexical-binding: t -*-
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;;
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;; Filename: treepy.el
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;;
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;; Copyright (C) 2017 Daniel Barreto
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;;
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;; Description: Generic Tree Traversing Tools
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;; Author: Daniel Barreto <daniel.barreto.n@gmail.com>
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;; Keywords: lisp, maint, tools
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;; Package-Version: 20180724.656
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;; Created: Mon Jul 10 15:17:36 2017 (+0200)
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;; Version: 0.1.1
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;; Package-Requires: ((emacs "25.1"))
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;; URL: https://github.com/volrath/treepy.el
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;;
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;
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;;; Commentary:
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;;
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;; Generic tools for recursive and iterative tree traversal based on
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;; clojure.walk and clojure.zip respectively. Depends on `map', a map
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;; manipulation library built in Emacs 25.1. All functions are prefixed
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;; with "treepy-"
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;;
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;
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;; This program is free software: you can redistribute it and/or modify
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;; it under the terms of the GNU General Public License as published by
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;; the Free Software Foundation, either version 3 of the License, or (at
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;; your option) any later version.
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;;
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;; This program is distributed in the hope that it will be useful, but
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;; WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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;; General Public License for more details.
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;;
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;; You should have received a copy of the GNU General Public License
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;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
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;;
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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;;
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;;; Code:
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(require 'map)
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;;; Walk (recursive tree traversal)
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(defun treepy-walk (inner outer form)
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"Using INNER and OUTER, traverse FORM, an arbitrary data structure.
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INNER and OUTER are functions. Apply INNER to each element of
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FORM, building up a data structure of the same type, then apply
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OUTER to the result. Recognize cons, lists, alists, vectors and
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hash tables."
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(cond
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((and (listp form) (cdr form) (atom (cdr form))) (funcall outer (cons (funcall inner (car form))
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(funcall inner (cdr form)))))
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((listp form) (funcall outer (mapcar inner form)))
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((vectorp form) (funcall outer (apply #'vector (mapcar inner form))))
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((hash-table-p form) (funcall outer (map-apply (lambda (k v) (funcall inner (cons k v))) form)))
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(t (funcall outer form))))
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(defun treepy-postwalk (f form)
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"Perform a depth-first, post-order traversal of F applied to FORM.
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Call F on each sub-form, use F's return value in place of the
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original. Recognize cons, lists, alists, vectors and
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hash tables."
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(treepy-walk (apply-partially #'treepy-postwalk f) f form))
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(defun treepy-prewalk (f form)
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"Perform a depth-first, pre-order traversal of F applied to FORM.
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Like `treepy-postwalk'."
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(treepy-walk (apply-partially #'treepy-prewalk f) #'identity (funcall f form)))
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(defun treepy-postwalk-demo (form)
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"Demonstrate the behavior of `treepy-postwalk' for FORM.
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Return a list of each form as it is walked."
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(let ((walk nil))
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(treepy-postwalk (lambda (x) (push x walk) x)
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form)
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(reverse walk)))
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(defun treepy-prewalk-demo (form)
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"Demonstrate the behavior of `treepy-prewalk' for FORM.
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Return a list of each form as it is walked."
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(let ((walk nil))
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(treepy-prewalk (lambda (x) (push x walk) x)
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form)
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(reverse walk)))
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(defun treepy-postwalk-replace (smap form &optional testfn)
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"Use SMAP to transform FORM by doing replacing operations.
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Recursively replace in FORM keys in SMAP with their values. Does
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replacement at the leaves of the tree first. The optional TESTFN
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parameter is the function to be used by `map-contains-key'."
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(treepy-postwalk (lambda (x) (if (map-contains-key smap x testfn) (map-elt smap x) x))
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form))
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(defun treepy-prewalk-replace (smap form &optional testfn)
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"Use SMAP to transform FORM by doing replacing operations.
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Recursively replace in FORM keys in SMAP with their values. Does
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replacement at the root of the tree first. The optional TESTFN
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parameter is the function to be used by `map-contains-key'."
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(treepy-prewalk (lambda (x) (if (map-contains-key smap x testfn) (map-elt smap x) x))
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form))
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;;; Zipper (iterative tree traversal)
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;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
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(defun treepy--context (loc &optional key)
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"Return context for this LOC.
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If KEY is given, only return this key's value in context."
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(let ((context (cdr (car loc))))
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(if (and context key)
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(map-elt context key)
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context)))
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(defun treepy--context-assoc-1 (context k v)
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"Assoc in CONTEXT a key K with a value V."
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(if (map-contains-key context k)
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(mapcar (lambda (entry)
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(if (equal (car entry) k)
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(cons k v)
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entry))
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context)
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(cons (cons k v) context)))
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(defun treepy--context-assoc (context &rest kvs)
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"Immutable map association in CONTEXT using KVS."
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(seq-reduce (lambda (context kv)
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(seq-let [k v] kv
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(treepy--context-assoc-1 context k v)))
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(seq-partition kvs 2) context))
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(defun treepy--meta (loc &optional key)
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"Return meta information for this LOC.
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If KEY is given, only return this key's value in meta
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information."
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(let ((meta (cdr loc)))
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(if key
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(map-elt meta key)
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meta)))
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(defun treepy--with-meta (obj meta)
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"Bind OBJ with some META information."
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(cons obj meta))
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(defun treepy--join-children (left-children right-children)
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"Return a joining of LEFT-CHILDREN and RIGHT-CHILDREN.
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Reverses LEFT-CHILDREN so that they are correctly ordered as in
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the tree."
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(append (reverse left-children) right-children))
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(defmacro treepy--with-loc (loc vars &rest body)
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"Create a lexical context using LOC VARS.
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Execute BODY in this context."
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(declare (indent defun))
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(let ((lex-ctx (mapcar (lambda (v)
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(cl-case v
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('node `(node (treepy-node ,loc)))
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('context `(context (treepy--context ,loc)))
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(t `(,v (treepy--context ,loc (quote ,(intern (concat ":" (symbol-name v)))))))))
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vars)))
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`(let* (,@lex-ctx) ,@body)))
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;;;; Construction
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(defun treepy-zipper (branchp children make-node root)
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"Create a new zipper structure.
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BRANCHP is a function that, given a node, returns t if it can
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have children, even if it currently doesn't.
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CHILDREN is a function that, given a branch node, returns a seq
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of its children.
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MAKE-NODE is a function that, given an existing node and a seq of
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children, returns a new branch node with the supplied children.
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ROOT is the root node."
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(treepy--with-meta
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(cons root nil)
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`((:branchp . ,branchp) (:children . ,children) (:make-node . ,make-node))))
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(defun treepy-list-zip (root)
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"Return a zipper for nested lists, given a ROOT list."
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(let ((make-node (lambda (_ children) children)))
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(treepy-zipper #'listp #'identity make-node root)))
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(defun treepy-vector-zip (root)
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"Return a zipper for nested vectors, given a ROOT vector."
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(let ((make-node (lambda (_ children) (apply #'vector children)))
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(children (lambda (cs) (seq-into cs 'list))))
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(treepy-zipper #'vectorp children make-node root)))
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;;;; Context
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(defun treepy-node (loc)
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"Return the node at LOC."
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(caar loc))
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(defun treepy-branch-p (loc)
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"Return t if the node at LOC is a branch."
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(funcall (treepy--meta loc ':branchp) (treepy-node loc)))
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(defun treepy-children (loc)
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"Return a children list of the node at LOC, which must be a branch."
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(if (treepy-branch-p loc)
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(funcall (treepy--meta loc ':children) (treepy-node loc))
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(error "Called children on a leaf node")))
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(defun treepy-make-node (loc node children)
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"Return a new branch node.
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Given an existing LOC, NODE and new CHILDREN, creates a new LOC
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with them. The LOC is only used to supply the constructor."
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(funcall (treepy--meta loc ':make-node) node children))
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(defun treepy-path (loc)
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"Return a list of nodes leading to the given LOC."
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(reverse (treepy--context loc ':pnodes)))
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(defun treepy-lefts (loc)
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"Return a list of the left siblings of this LOC."
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(reverse (treepy--context loc ':l)))
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(defun treepy-rights (loc)
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"Return a list of the right siblings of this LOC."
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(treepy--context loc ':r))
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;;;; Navigation
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(defun treepy-down (loc)
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"Return the loc of the leftmost child of the node at this LOC.
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nil if no children."
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(when (treepy-branch-p loc)
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(let ((children (treepy-children loc)))
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(treepy--with-loc loc (node context pnodes)
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(seq-let [c &rest cs] children
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(when children
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(treepy--with-meta
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`(,c . ((:l . ,nil)
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(:pnodes . ,(if context (cons node pnodes) (list node)))
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(:ppath . ,context)
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(:r . ,cs)))
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(treepy--meta loc))))))))
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(defun treepy-up (loc)
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"Return the loc of the parent of the node at this LOC.
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nil if at the top."
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(treepy--with-loc loc (node pnodes ppath changed? l r)
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(when pnodes
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(let ((pnode (car pnodes)))
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(treepy--with-meta
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(if changed?
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(cons (treepy-make-node loc pnode (treepy--join-children l (cons node r)))
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(and ppath (treepy--context-assoc ppath ':changed? t)))
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(cons pnode ppath))
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(treepy--meta loc))))))
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(defun treepy-root (loc)
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"Zip from LOC all the way up and return the root node.
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Reflect any alterations to the tree."
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(if (equal :end (treepy--context loc))
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(treepy-node loc)
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(let ((p loc))
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(while (setq p (treepy-up p))
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(setq loc p))
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(treepy-node loc))))
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(defun treepy-right (loc)
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"Return the loc of the right sibling of the node at this LOC.
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nil if there's no more right sibilings."
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(treepy--with-loc loc (node context l r)
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(let ((r (if (listp r)
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r
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;; If `r' is not a list (or nil), then we're dealing with a non
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;; nil cdr ending list.
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(cons r nil))))
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(seq-let [cr &rest rnext] r
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(when (and context r)
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(treepy--with-meta
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(cons cr
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(treepy--context-assoc context
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':l (cons node l)
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':r rnext))
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(treepy--meta loc)))))))
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(defun treepy-rightmost (loc)
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"Return the loc of the rightmost sibling of the node at this LOC.
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If LOC is already the rightmost sibiling, return self."
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(treepy--with-loc loc (node context l r)
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(if (and context r)
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(treepy--with-meta
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(cons (car (last r))
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(treepy--context-assoc context
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':l (treepy--join-children l (cons node (butlast r)))
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':r nil))
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(treepy--meta loc))
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loc)))
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(defun treepy-left (loc)
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"Return the loc of the left sibling of the node at this LOC.
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nil if no more left sibilings."
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(treepy--with-loc loc (node context l r)
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(when (and context l)
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(seq-let [cl &rest lnext] l
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(treepy--with-meta
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(cons cl
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(treepy--context-assoc context
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':l lnext
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':r (cons node r)))
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(treepy--meta loc))))))
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(defun treepy-leftmost (loc)
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"Return the loc of the leftmost sibling of the node at this LOC.
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If LOC is already the leftmost sibiling, return self."
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(treepy--with-loc loc (node context l r)
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(if (and context l)
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(treepy--with-meta
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(cons (car (last l))
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(treepy--context-assoc context
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':l []
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':r (treepy--join-children (butlast l) (cons node r))))
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(treepy--meta loc))
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loc)))
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(defun treepy-leftmost-descendant (loc)
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"Return the leftmost descendant of the given LOC.
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\(ie, down repeatedly)."
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(while (treepy-branch-p loc)
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(setq loc (treepy-down loc)))
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loc)
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;;;; Modification
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(defun treepy-insert-left (loc item)
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"Insert as the left sibiling of this LOC'S node the ITEM.
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Return same loc with sibilings updated."
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(treepy--with-loc loc (node context l)
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(if (not context)
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(error "Insert at top")
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(treepy--with-meta
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(cons node
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(treepy--context-assoc context
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':l (cons item l)
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':changed? t))
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(treepy--meta loc)))))
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(defun treepy-insert-right (loc item)
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"Insert as the right sibling of this LOC's node the ITEM.
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Return same loc with sibilings updated."
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(treepy--with-loc loc (node context r)
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(if (not context)
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(error "Insert at top")
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(treepy--with-meta
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(cons node
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(treepy--context-assoc context
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':r (cons item r)
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':changed? t))
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(treepy--meta loc)))))
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(defun treepy-replace (loc node)
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"Replace the node in this LOC with the given NODE, without moving."
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(let ((context (treepy--context loc)))
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(treepy--with-meta
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(cons node
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(treepy--context-assoc context
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':changed? t))
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(treepy--meta loc))))
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(defun treepy-edit (loc f &rest args)
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"Replace the node at this LOC with the value of (F node ARGS)."
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(treepy-replace loc (apply f (treepy-node loc) args)))
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(defun treepy-insert-child (loc item)
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"Insert as the leftmost child of this LOC's node the ITEM.
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Return same loc with children updated."
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(treepy-replace loc (treepy-make-node loc (treepy-node loc) (cons item (treepy-children loc)))))
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(defun treepy-append-child (loc item)
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"Insert as the rightmost child of this LOC'S node the ITEM.
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Return same loc with children updated."
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(treepy-replace loc (treepy-make-node loc (treepy-node loc) (append (treepy-children loc) `(,item))))) ;; TODO: check performance
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(defun treepy-remove (loc)
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"Remove the node at LOC.
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Return the loc that would have preceded it in a depth-first
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walk."
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(treepy--with-loc loc (context pnodes ppath l r)
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(if (not context)
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(error "Remove at top")
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(if (> (length l) 0)
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(let ((nloc (treepy--with-meta (cons (car l)
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(treepy--context-assoc context
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':l (cdr l)
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':changed? t))
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(treepy--meta loc)))
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(child nil))
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(while (setq child (and (treepy-branch-p nloc) (treepy-children nloc)))
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(setq nloc (treepy-rightmost child)))
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nloc)
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(treepy--with-meta
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(cons (treepy-make-node loc (car pnodes) r)
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(and ppath (treepy--context-assoc context ':changed? t)))
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(treepy--meta loc))))))
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;;;; Enumeration
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(defun treepy--preorder-next (loc)
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"Move to the next LOC in the hierarchy, depth-first in preorder.
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When reaching the end, returns a distinguished loc detectable via
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`treepy-end-p'. If already at the end, stays there."
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(if (equal :end (treepy--context loc))
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loc
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(let ((cloc loc))
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(or
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(and (treepy-branch-p cloc) (treepy-down cloc))
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(treepy-right cloc)
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(let ((p cloc)
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(pr nil))
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(while (and (treepy-up p) (not (setq pr (treepy-right (treepy-up p)))))
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(setq p (treepy-up p)))
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(or pr (cons (cons (treepy-node p) :end) nil)))))))
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(defun treepy--postorder-next (loc)
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"Move to the next LOC in the hierarchy, depth-first in postorder.
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When reaching the end, returns a distinguished loc detectable via
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`treepy-end-p'. If already at the end, stays there."
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(if (equal :end (treepy--context loc))
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loc
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(if (null (treepy-up loc))
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(cons (cons (treepy-node loc) :end) nil)
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(or (let ((rloc (treepy-right loc)))
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(and rloc (treepy-leftmost-descendant rloc)))
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(treepy-up loc)))))
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(defun treepy-next (loc &optional order)
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"Move to the next LOC in the hierarchy, depth-first.
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Use ORDER if given. Possible values for ORDER are `:preorder' and
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`:postorder', defaults to the former."
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(cl-case (or order ':preorder)
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(':preorder (treepy--preorder-next loc))
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(':postorder (treepy--postorder-next loc))
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(t (error "Unrecognized order"))))
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(defun treepy--preorder-prev (loc)
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"Move to the previous LOC in the hierarchy, depth-first preorder.
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If already at the root, returns nil."
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(let ((lloc (treepy-left loc))
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(child nil))
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(if lloc
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(progn
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(while (setq child (and (treepy-branch-p lloc) (treepy-children lloc)))
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(setq lloc (treepy-rightmost child)))
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lloc)
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(treepy-up loc))))
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(defun treepy--postorder-prev (loc)
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"Move to the previous LOC in the hierarchy, depth-first postorder.
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If already at the root, returns nil."
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(if (treepy-branch-p loc)
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(treepy-rightmost (treepy-down loc))
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(progn
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(while (not (treepy-left loc))
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(setq loc (treepy-up loc)))
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(treepy-left loc))))
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(defun treepy-prev (loc &optional order)
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"Move to the previous LOC in the hierarchy, depth-first.
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Use ORDER if given. Possible values for ORDER are `:preorder' and `:postorder',
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defaults to the former."
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(cl-case (or order ':preorder)
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(':preorder (treepy--preorder-prev loc))
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(':postorder (treepy--postorder-prev loc))
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(t (error "Unrecognized order"))))
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(defun treepy-end-p (loc)
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"Return t if LOC represents the end of a depth-first walk."
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(equal :end (treepy--context loc)))
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(provide 'treepy)
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;;; treepy.el ends here
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