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;;; parseclj-ast.el --- Clojure parser/unparser -*- lexical-binding: t; -*-
;; Copyright (C) 2017-2018 Arne Brasseur
;; Author: Arne Brasseur <arne@arnebrasseur.net>
;; This file is not part of GNU Emacs.
;; This file is free software; you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation; either version 3, or (at your option)
;; any later version.
;; This file is distributed in the hope that it will be useful,
;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
;; GNU General Public License for more details.
;; You should have received a copy of the GNU General Public License
;; along with GNU Emacs; see the file COPYING. If not, write to
;; the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
;; Boston, MA 02110-1301, USA.
;;; Commentary:
;; Parse Clojure code to an AST, and unparse back to code.
;;; Code:
(require 'a)
(require 'seq)
(require 'subr-x)
(require 'parseclj-lex)
;; AST helper functions
(defun parseclj-ast-node (type position &rest attributes)
"Create an AST node with given TYPE and POSITION.
Other ATTRIBUTES can be given as a flat list of key-value pairs."
(apply 'a-list :node-type type :position position attributes))
(defun parseclj-ast-node-p (node)
"Return t if the given NODE is a Clojure AST node."
(and (consp node)
(consp (car node))
(eq :node-type (caar node))))
(defun parseclj-ast-node-attr (node attr)
"Return NODE's ATTR, or nil."
(a-get node attr))
(defun parseclj-ast-node-type (node)
"Return the type of the AST node NODE."
(a-get node :node-type))
(defun parseclj-ast-children (node)
"Return children for the AST NODE."
(a-get node :children))
(defun parseclj-ast-value (node)
"Return the value of NODE as another AST node."
(a-get node :value))
(defun parseclj-ast-leaf-node-p (node)
"Return t if the given ast NODE is a leaf node."
(member (parseclj-ast-node-type node) parseclj-lex--leaf-tokens))
(defun parseclj-ast-branch-node-p (node)
"Return t if the given AST NODE is a branch node."
(not (parseclj-ast-leaf-node-p node)))
;; Parse/reduce strategy functions
(defun parseclj-ast--reduce-leaf (stack token &optional _options)
"Put into the STACK an AST leaf node based on TOKEN.
Ignores white spaces and comments.
OPTIONS is an association list. See `parseclj-parse' for more information
on available options."
(if (member (parseclj-lex-token-type token) '(:whitespace :comment))
stack
(cons
(parseclj-ast-node (parseclj-lex-token-type token)
(a-get token :pos)
:form (a-get token :form)
:value (parseclj-lex--leaf-token-value token))
stack)))
(defun parseclj-ast--reduce-leaf-with-lexical-preservation (stack token options)
"Put into STACK an AST leaf node based on TOKEN.
This function is very similar to `parseclj-ast--reduce-leaf', but unlike
it, takes into account tokens representing white space or comments and
saves them into the STACK. Nodes produced by this function have a
`:lexical-preservation' key set to t.
OPTIONS is an association list. See `parseclj-parse' for more information
on available options."
(let ((token-type (parseclj-lex-token-type token))
(top (car stack)))
(if (member token-type '(:whitespace :comment))
;; merge consecutive whitespace or comment tokens
(if (eq token-type (a-get top :node-type))
(cons (a-update top :form #'concat (a-get token :form))
(cdr stack))
(cons (parseclj-ast-node (parseclj-lex-token-type token)
(a-get token :pos)
:form (a-get token :form))
stack))
(parseclj-ast--reduce-leaf stack token options))))
(defun parseclj-ast--reduce-branch (stack opening-token children _options)
"Reduce STACK with an AST branch node representing a collection of elements.
Ignores discard tokens.
OPENING-TOKEN is a lex token representing an opening paren, bracket or
brace.
CHILDREN is the collection of nodes to be reduced into the AST branch node.
OPTIONS is an association list. See `parseclj-parse' for more information
on available options."
(let* ((pos (a-get opening-token :pos))
(type (parseclj-lex-token-type opening-token))
(type (cl-case type
(:lparen :list)
(:lbracket :vector)
(:lbrace :map)
(t type))))
(cl-case type
(:root (cons (parseclj-ast-node :root pos :children children) stack))
(:discard stack)
(:tag (cons (parseclj-ast-node :tag
pos
:tag (intern (substring (a-get opening-token :form) 1))
:children children)
stack))
(:metadata (cons (parseclj-ast-node :with-meta
pos
:children children)
stack))
(:map-prefix (cons (a-assoc (car children)
:map-prefix opening-token)
stack))
(t (cons
(parseclj-ast-node type pos :children children)
stack)))))
(defun parseclj-ast--reduce-branch-with-lexical-preservation (stack opening-token children options)
"Reduce STACK with an AST branch node representing a collection of elements.
Similar to `parseclj-ast--reduce-branch', but reduces discard tokens as
well. Nodes produced by this function have a `:lexical-preservation'
key set to t.
OPENING-TOKEN is a lex token representing an opening paren, bracket or
brace.
CHILDREN is the collection of tokens to be reduced into the AST branch
node.
OPTIONS is an association list. See `parseclj-parse' for more information
on available options."
(if (eq :discard (parseclj-lex-token-type opening-token))
(cons (parseclj-ast-node :discard (a-get opening-token :pos) :children children) stack)
(let* ((stack (funcall #'parseclj-ast--reduce-branch stack opening-token children options))
(top (car stack)))
(if (parseclj-ast-node-p top)
(cons (cl-list* (car top) ;; make sure :node-type remains the first element in the list
'(:lexical-preservation . t)
(cdr top))
(cdr stack))
stack))))
;; Unparse functions
(declare-function parseclj-unparse-clojure "parseclj")
(defun parseclj-ast--unparse-collection (node)
"Insert a string representation of the given AST branch NODE into buffer."
(let* ((token-type (parseclj-ast-node-type node))
(delimiters (cl-case token-type
(:root (cons "" ""))
(:list (cons "(" ")"))
(:vector (cons "[" "]"))
(:set (cons "#{" "}"))
(:map (cons "{" "}")))))
(insert (car delimiters))
(let ((nodes (alist-get ':children node)))
(when-let (node (car nodes))
(parseclj-unparse-clojure node))
(seq-doseq (child (cdr nodes))
(when (not (a-get node :lexical-preservation))
(insert " "))
(parseclj-unparse-clojure child)))
(insert (cdr delimiters))))
(defun parseclj-ast--unparse-tag (node)
"Insert a string representation of the given AST tag NODE into buffer."
(progn
(insert "#")
(insert (symbol-name (a-get node :tag)))
(insert " ")
(parseclj-unparse-clojure (car (a-get node :children)))))
(provide 'parseclj-ast)
;;; parseclj-ast.el ends here