;;; c-ts-common.el --- Utilities for C like Languages -*- lexical-binding: t; -*- ;; Copyright (C) 2023-2024 Free Software Foundation, Inc. ;; Maintainer : 付禹安 (Yuan Fu) ;; Package : emacs ;; Keywords : c c++ java javascript rust languages tree-sitter ;; This file is part of GNU Emacs. ;; GNU Emacs 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 of the License, or ;; (at your option) any later version. ;; GNU Emacs 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. If not, see . ;;; Commentary: ;; ;; This file contains functions that can be shared by C-like language ;; major modes, like indenting and filling "/* */" block comments. ;; ;; For indenting and filling comments: ;; ;; - Use `c-ts-common-comment-setup' to setup comment variables and ;; filling. ;; ;; - Use simple-indent matcher `c-ts-common-looking-at-star' and ;; anchor `c-ts-common-comment-start-after-first-star' for indenting ;; block comments. See `c-ts-mode--indent-styles' for example. ;; ;; For indenting statements: ;; ;; - Set `c-ts-common-indent-offset', and ;; `c-ts-common-indent-type-regexp-alist', then use simple-indent ;; offset `c-ts-common-statement-offset' in ;; `treesit-simple-indent-rules'. ;;; Code: (require 'treesit) (eval-when-compile (require 'rx)) (declare-function treesit-node-start "treesit.c") (declare-function treesit-node-end "treesit.c") (declare-function treesit-node-type "treesit.c") (declare-function treesit-node-parent "treesit.c") (declare-function treesit-node-prev-sibling "treesit.c") ;;; Comment indentation and filling (defun c-ts-common-looking-at-star (_n _p bol &rest _) "A tree-sitter simple indent matcher. Matches if there is a \"*\" after BOL." (eq (char-after bol) ?*)) (defun c-ts-common-comment-start-after-first-star (_n parent &rest _) "A tree-sitter simple indent anchor. Finds the \"/*\" and returns the point after the \"*\". Assumes PARENT is a comment node." (save-excursion (goto-char (treesit-node-start parent)) (if (looking-at (rx "/*")) (match-end 0) (point)))) (defun c-ts-common-comment-2nd-line-matcher (_n parent &rest _) "Matches if point is at the second line of a block comment. PARENT should be a comment node." (and (equal (treesit-node-type parent) "comment") (save-excursion (forward-line -1) (back-to-indentation) (eq (point) (treesit-node-start parent))))) (defun c-ts-common-comment-2nd-line-anchor (_n _p bol &rest _) "Return appropriate anchor for the second line of a comment. If the first line is /* alone, return the position right after the star; if the first line is /* followed by some text, return the position right before the text minus 1. Use an offset of 1 with this anchor. BOL is the beginning of non-whitespace characters of the current line." (save-excursion (forward-line -1) (back-to-indentation) (when (looking-at comment-start-skip) (goto-char (match-end 0)) (if (looking-at (rx (* (or " " "\t")) eol)) ;; Only /* at the first line. (progn (skip-chars-backward " \t") (if (save-excursion (goto-char bol) (looking-at (rx "*"))) ;; The common case. Checked by "Multiline Block ;; Comments 4". (point) ;; The "Multiline Block Comments 2" test in ;; c-ts-common-resources/indent.erts checks this. (1- (point)))) ;; There is something after /* at the first line. The ;; "Multiline Block Comments 3" test checks this. (1- (point)))))) (defvar c-ts-common--comment-regexp ;; These covers C/C++, Java, JavaScript, TypeScript, Rust, C#. (rx (or "comment" "line_comment" "block_comment")) "Regexp pattern that matches a comment in C-like languages.") (defun c-ts-common--fill-paragraph (&optional arg) "Filling function for `c-ts-common'. ARG is passed to `fill-paragraph'." (interactive "*P") (save-restriction (widen) (let ((node (treesit-node-at (point)))) (when (string-match-p c-ts-common--comment-regexp (treesit-node-type node)) (if (save-excursion (goto-char (treesit-node-start node)) (looking-at "//")) (fill-comment-paragraph arg) (c-ts-common--fill-block-comment arg))) ;; Return t so `fill-paragraph' doesn't attempt to fill by ;; itself. t))) (defun c-ts-common--fill-block-comment (&optional arg) "Filling function for block comments. ARG is passed to `fill-paragraph'. Assume point is in a block comment." (let* ((node (treesit-node-at (point))) (start (treesit-node-start node)) (end (treesit-node-end node)) ;; Bind to nil to avoid infinite recursion. (fill-paragraph-function nil) (orig-point (point-marker)) (start-marker (point-marker)) (end-marker nil) (end-len 0)) (move-marker start-marker start) ;; We mask "/*" and the space before "*/" like ;; `c-fill-paragraph' does. (atomic-change-group ;; Mask "/*". (goto-char start) (when (looking-at (rx (* (syntax whitespace)) (group "/") "*")) (goto-char (match-beginning 1)) (move-marker start-marker (point)) (replace-match " " nil nil nil 1)) ;; Include whitespaces before /*. (goto-char start) (beginning-of-line) (setq start (point)) ;; Mask spaces before "*/" if it is attached at the end ;; of a sentence rather than on its own line. (goto-char end) (when (looking-back (rx (not (syntax whitespace)) (group (+ (syntax whitespace))) "*/") (line-beginning-position)) (goto-char (match-beginning 1)) (setq end-marker (point-marker)) (setq end-len (- (match-end 1) (match-beginning 1))) (replace-match (make-string end-len ?x) nil nil nil 1)) ;; If "*/" is on its own line, don't included it in the ;; filling region. (when (not end-marker) (goto-char end) (when (looking-back (rx "*/") 2) (backward-char 2) (skip-syntax-backward "-") (setq end (point)))) ;; Let `fill-paragraph' do its thing. (goto-char orig-point) (narrow-to-region start end) (let (para-start para-end) (forward-paragraph 1) (setq para-end (point)) (forward-paragraph -1) (setq para-start (point)) ;; We don't want to fill the region between START and ;; START-MARKER, otherwise the filling function might delete ;; some spaces there. Also, we only fill the current ;; paragraph. (fill-region (max start-marker para-start) (min end para-end) arg)) ;; Unmask. (when start-marker (goto-char start-marker) (delete-char 1) (insert "/")) (when end-marker (goto-char end-marker) (delete-region (point) (+ end-len (point))) (insert (make-string end-len ?\s))) (goto-char orig-point)))) (defun c-ts-common-comment-setup () "Set up local variables for C-like comment. Set up: - `comment-start' - `comment-end' - `comment-start-skip' - `comment-end-skip' - `adaptive-fill-mode' - `adaptive-fill-first-line-regexp' - `paragraph-start' - `paragraph-separate' - `fill-paragraph-function' - `comment-line-break-function' - `comment-multi-line'" (setq-local comment-start "// ") (setq-local comment-end "") (setq-local comment-start-skip (rx (or (seq "/" (+ "/")) (seq "/" (+ "*"))) (* (syntax whitespace)))) (setq-local comment-end-skip (rx (* (syntax whitespace)) (group (or (syntax comment-end) (seq (+ "*") "/"))))) (setq-local adaptive-fill-mode t) ;; This matches (1) empty spaces (the default), (2) "//", (3) "*", ;; but do not match "/*", because we don't want to use "/*" as ;; prefix when filling. (Actually, it doesn't matter, because ;; `comment-start-skip' matches "/*" which will cause ;; `fill-context-prefix' to use "/*" as a prefix for filling, that's ;; why we mask the "/*" in `c-ts-common--fill-paragraph'.) (setq-local adaptive-fill-regexp (concat (rx (* (syntax whitespace)) (group (or (seq "/" (+ "/")) (* "*")))) adaptive-fill-regexp)) ;; Note the missing * comparing to `adaptive-fill-regexp'. The ;; reason for its absence is a bit convoluted to explain. Suffice ;; to say that without it, filling a single line paragraph that ;; starts with /* doesn't insert * at the beginning of each ;; following line, and filling a multi-line paragraph whose first ;; two lines start with * does insert * at the beginning of each ;; following line. If you know how does adaptive filling works, you ;; know what I mean. (setq-local adaptive-fill-first-line-regexp (rx bos (seq (* (syntax whitespace)) (group (seq "/" (+ "/"))) (* (syntax whitespace))) eos)) ;; Same as `adaptive-fill-regexp'. (setq-local paragraph-start (rx (or (seq (* (syntax whitespace)) (group (or (seq "/" (+ "/")) (* "*"))) (* (syntax whitespace)) ;; Add this eol so that in ;; `fill-context-prefix', `paragraph-start' ;; doesn't match the prefix. eol) "\f"))) (setq-local paragraph-separate paragraph-start) (setq-local fill-paragraph-function #'c-ts-common--fill-paragraph) (setq-local comment-line-break-function #'c-ts-common-comment-indent-new-line) (setq-local comment-multi-line t)) (defun c-ts-common-comment-indent-new-line (&optional soft) "Break line at point and indent, continuing comment if within one. This is like `comment-indent-new-line', but specialized for C-style // and /* */ comments. SOFT works the same as in `comment-indent-new-line'." ;; I want to experiment with explicitly listing out all each cases and ;; handle them separately, as opposed to fiddling with `comment-start' ;; and friends. This will have more duplicate code and will be less ;; generic, but in the same time might save us from writting cryptic ;; code to handle all sorts of edge cases. ;; ;; For this command, let's try to make it basic: if the current line ;; is a // comment, insert a newline and a // prefix; if the current ;; line is in a /* comment, insert a newline and a * prefix. No ;; auto-fill or other smart features. (cond ;; Line starts with //, or ///, or ////... ((save-excursion (beginning-of-line) (looking-at (rx "//" (group (* "/") (* " "))))) (let ((whitespaces (match-string 1))) (if soft (insert-and-inherit ?\n) (newline 1)) (delete-region (line-beginning-position) (point)) (insert "//" whitespaces))) ;; Line starts with /* or /** ((save-excursion (beginning-of-line) (looking-at (rx "/*" (group (? "*") (* " "))))) (let ((whitespace-and-star-len (length (match-string 1)))) (if soft (insert-and-inherit ?\n) (newline 1)) (delete-region (line-beginning-position) (point)) (insert " *" (make-string whitespace-and-star-len ?\s)))) ;; Line starts with * ((save-excursion (beginning-of-line) (looking-at (rx (group (* " ") (or "*" "|") (* " "))))) (let ((prefix (match-string 1))) (if soft (insert-and-inherit ?\n) (newline 1)) (delete-region (line-beginning-position) (point)) (insert prefix))))) ;;; Statement indent (defvar c-ts-common-indent-offset nil "Indent offset used by `c-ts-common' indent functions. This should be the symbol of the indent offset variable for the particular major mode. This cannot be nil for `c-ts-common' statement indent functions to work.") (defvar c-ts-common-indent-type-regexp-alist nil "An alist of node type regexps. Each key in the alist is one of `if', `else', `do', `while', `for', `block', `close-bracket'. Each value in the alist is the regexp matching the type of that kind of node. Most of these types are self-explanatory, e.g., `if' corresponds to \"if_statement\" in C. `block' corresponds to the {} block. Some types, specifically `else', is usually not identified by a standalone node, but a child under the \"if_statement\", under a field name like \"alternative\", etc. In that case, use a cons (TYPE . FIELD-NAME) as the value, where TYPE is the node's parent's type, and FIELD-NAME is the field name of the node. If the language doesn't have a particular type, it is fine to omit it.") (defun c-ts-common--node-is (node &rest types) "Return non-nil if NODE is any one of the TYPES. TYPES can be any of `if', `else', `while', `do', `for', and `block'. If NODE is nil, return nil." (declare (indent 2)) (catch 'ret (when (null node) (throw 'ret nil)) (dolist (type types) (let ((regexp (alist-get type c-ts-common-indent-type-regexp-alist)) (parent (treesit-node-parent node))) (when (and regexp (if (consp regexp) (and parent (string-match-p (car regexp) (treesit-node-type parent)) (treesit-node-field-name node) (string-match-p (cdr regexp) (treesit-node-field-name node))) (string-match-p regexp (treesit-node-type node)))) (throw 'ret t)))) nil)) (defun c-ts-common-statement-offset (node parent &rest _) "Return an indent offset for a statement inside a block. Assumes the anchor is (point-min), i.e., the 0th column. This function basically counts the number of block nodes (i.e., brackets) (see `c-ts-common-indent-type-regexp-alist') between NODE and the root node (not counting NODE itself), and multiplies that by `c-ts-common-indent-offset'. To support GNU style, on each block level, this function also checks whether the opening bracket { is on its own line, if so, it adds an extra level, except for the top-level. It also has special handling for bracketless statements and else-if statements, which see. PARENT is NODE's parent, BOL is the beginning of non-whitespace characters on the current line." (let ((level 0)) ;; If NODE is a opening/closing bracket on its own line, take off ;; one level because the code below assumes NODE is a statement ;; _inside_ a {} block. (when (c-ts-common--node-is node 'block 'close-bracket) (cl-decf level)) ;; If point is on an empty line, NODE would be nil, but we pretend ;; there is a statement node. (when (null node) (setq node t)) ;; Go up the tree and compute indent level. (while (if (eq node t) (setq node parent) node) (let ((parent (treesit-node-parent node))) ;; Increment level for every bracket (with exception). (when (c-ts-common--node-is node 'block) (cl-incf level) (save-excursion (goto-char (treesit-node-start node)) ;; Add an extra level if the opening bracket is on its own ;; line, except (1) it's at top-level, or (2) it's immediate ;; parent is another block. (cond ((bolp) nil) ; Case (1). ((c-ts-common--node-is parent 'block) ; Case (2). nil) ;; Add a level. ((looking-back (rx bol (* whitespace)) (line-beginning-position)) (cl-incf level))))) ;; Fix bracketless statements. (when (and (c-ts-common--node-is parent 'if 'do 'while 'for) (not (c-ts-common--node-is node 'block))) (cl-incf level)) ;; Flatten "else if" statements. (when (and (c-ts-common--node-is node 'else) (c-ts-common--node-is node 'if) ;; But if the "if" is on it's own line, still ;; indent a level. (not (save-excursion (goto-char (treesit-node-start node)) (looking-back (rx bol (* whitespace)) (line-beginning-position))))) (cl-decf level))) ;; Go up the tree. (setq node (treesit-node-parent node))) (* level (symbol-value c-ts-common-indent-offset)))) (provide 'c-ts-common) ;;; c-ts-common.el ends here