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* lisp/emacs-lisp/cl-indent.el (lisp-lambda-list-keyword-alignment) (lisp-lambda-list-keyword-parameter-indentation) (lisp-lambda-list-keyword-parameter-alignment) (lisp-indent-backquote-substitution-mode): Remove redundant :group args.
881 lines
34 KiB
EmacsLisp
881 lines
34 KiB
EmacsLisp
;;; cl-indent.el --- Enhanced lisp-indent mode -*- lexical-binding:t -*-
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;; Copyright (C) 1987, 2000-2020 Free Software Foundation, Inc.
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;; Author: Richard Mlynarik <mly@eddie.mit.edu>
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;; Created: July 1987
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;; Maintainer: emacs-devel@gnu.org
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;; Keywords: lisp, tools
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;; Package: emacs
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;; This file is part of GNU Emacs.
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;; GNU Emacs 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
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;; (at your option) any later version.
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;; GNU Emacs is distributed in the hope that it will be useful,
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;; but WITHOUT ANY WARRANTY; without even the implied warranty of
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;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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;; GNU General Public License for more details.
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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 <https://www.gnu.org/licenses/>.
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;;; Commentary:
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;; This package supplies a single entry point, common-lisp-indent-function,
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;; which performs indentation in the preferred style for Common Lisp code.
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;; It is also a suitable function for indenting Emacs lisp code.
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;;
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;; To enable it:
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;;
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;; (setq lisp-indent-function 'common-lisp-indent-function)
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;;; Code:
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(eval-when-compile (require 'cl-lib))
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(defgroup lisp-indent nil
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"Indentation in Lisp."
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:group 'lisp)
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(defcustom lisp-indent-maximum-backtracking 3
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"Maximum depth to backtrack out from a sublist for structured indentation.
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If this variable is 0, no backtracking will occur and forms such as `flet'
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may not be correctly indented."
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:type 'integer)
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(defcustom lisp-tag-indentation 1
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"Indentation of tags relative to containing list.
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This variable is used by the function `lisp-indent-tagbody'."
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:type 'integer)
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(defcustom lisp-tag-body-indentation 3
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"Indentation of non-tagged lines relative to containing list.
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This variable is used by the function `lisp-indent-tagbody' to indent normal
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lines (lines without tags).
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The indentation is relative to the indentation of the parenthesis enclosing
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the special form. If the value is t, the body of tags will be indented
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as a block at the same indentation as the first s-expression following
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the tag. In this case, any forms before the first tag are indented
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by `lisp-body-indent'."
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:type 'integer)
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(defcustom lisp-backquote-indentation t
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"Whether or not to indent backquoted lists as code.
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If nil, indent backquoted lists as data, i.e., like quoted lists."
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:type 'boolean)
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(defcustom lisp-loop-keyword-indentation 6
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"Indentation of loop keywords in extended loop forms."
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:type 'integer
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:version "28.1")
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(defcustom lisp-loop-forms-indentation 6
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"Indentation of forms in extended loop forms."
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:type 'integer
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:version "28.1")
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(defcustom lisp-simple-loop-indentation 1
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"Indentation of forms in simple loop forms."
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:type 'integer
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:version "28.1")
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(defcustom lisp-lambda-list-keyword-alignment nil
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"Whether to vertically align lambda-list keywords together.
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If nil (the default), keyworded lambda-list parts are aligned
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with the initial mandatory arguments, like this:
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\(defun foo (arg1 arg2 &rest rest
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&key key1 key2)
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#|...|#)
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If non-nil, alignment is done with the first keyword
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\(or falls back to the previous case), as in:
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\(defun foo (arg1 arg2 &rest rest
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&key key1 key2)
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#|...|#)"
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:version "24.1"
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:type 'boolean)
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(defcustom lisp-lambda-list-keyword-parameter-indentation 2
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"Indentation of lambda list keyword parameters.
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See `lisp-lambda-list-keyword-parameter-alignment'
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for more information."
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:version "24.1"
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:type 'integer)
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(defcustom lisp-lambda-list-keyword-parameter-alignment nil
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"Whether to vertically align lambda-list keyword parameters together.
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If nil (the default), the parameters are aligned
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with their corresponding keyword, plus the value of
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`lisp-lambda-list-keyword-parameter-indentation', like this:
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\(defun foo (arg1 arg2 &key key1 key2
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key3 key4)
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#|...|#)
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If non-nil, alignment is done with the first parameter
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\(or falls back to the previous case), as in:
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\(defun foo (arg1 arg2 &key key1 key2
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key3 key4)
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#|...|#)"
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:version "24.1"
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:type 'boolean)
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(defcustom lisp-indent-backquote-substitution-mode t
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"How to indent substitutions in backquotes.
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If t, the default, indent substituted forms normally.
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If nil, do not apply special indentation rule to substituted
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forms. If `corrected', subtract the `,' or `,@' from the form
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column, indenting as if this character sequence were not present.
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In any case, do not backtrack beyond a backquote substitution.
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Until Emacs 25.1, the nil behavior was hard-wired."
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:version "25.1"
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:type '(choice (const corrected) (const nil) (const t)))
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(defvar lisp-indent-defun-method '(4 &lambda &body)
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"Defun-like indentation method.
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This applies when the value of the `common-lisp-indent-function' property
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is set to `defun'.")
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(defun lisp-extended-loop-p (loop-start)
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"True if an extended loop form starts at LOOP-START."
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(condition-case ()
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(save-excursion
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(goto-char loop-start)
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(forward-char 1)
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(forward-sexp 2)
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(backward-sexp 1)
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(looking-at "\\(:\\|\\sw\\)"))
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(error t)))
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(defun lisp-indent-find-method (symbol &optional no-compat)
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"Find the lisp indentation function for SYMBOL.
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If NO-COMPAT is non-nil, do not retrieve indenters intended for
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the standard lisp indent package."
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(or (and (derived-mode-p 'emacs-lisp-mode)
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(get symbol 'common-lisp-indent-function-for-elisp))
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(get symbol 'common-lisp-indent-function)
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(and (not no-compat)
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(get symbol 'lisp-indent-function))))
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(defun common-lisp-loop-part-indentation (indent-point state)
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"Compute the indentation of loop form constituents."
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(let* ((loop-indentation (save-excursion
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(goto-char (elt state 1))
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(current-column))))
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(when (and (eq lisp-indent-backquote-substitution-mode 'corrected))
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(save-excursion
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(goto-char (elt state 1))
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(cl-incf loop-indentation
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(cond ((eq (char-before) ?,) -1)
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((and (eq (char-before) ?@)
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(progn (backward-char)
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(eq (char-before) ?,)))
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-2)
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(t 0)))))
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(goto-char indent-point)
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(beginning-of-line)
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(list
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(cond ((not (lisp-extended-loop-p (elt state 1)))
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(+ loop-indentation lisp-simple-loop-indentation))
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((looking-at "^\\s-*\\(:?\\sw+\\|;\\)")
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(+ loop-indentation lisp-loop-keyword-indentation))
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(t
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(+ loop-indentation lisp-loop-forms-indentation)))
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;; Tell the caller that the next line needs recomputation, even
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;; though it doesn't start a sexp.
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loop-indentation)))
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;; Cf (info "(elisp)Specification List")
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;;;###autoload
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(defun common-lisp-indent-function (indent-point state)
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"Function to indent the arguments of a Lisp function call.
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This is suitable for use as the value of the variable
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`lisp-indent-function'. INDENT-POINT is the point at which the
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indentation function is called, and STATE is the
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`parse-partial-sexp' state at that position. Browse the
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`lisp-indent' customize group for options affecting the behavior
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of this function.
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If the indentation point is in a call to a Lisp function, that
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function's `common-lisp-indent-function' property specifies how
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this function should indent it. Possible values for this
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property are:
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* defun, meaning indent according to `lisp-indent-defun-method';
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i.e., like (4 &lambda &body), as explained below.
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* any other symbol, meaning a function to call. The function should
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take the arguments: PATH STATE INDENT-POINT SEXP-COLUMN NORMAL-INDENT.
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PATH is a list of integers describing the position of point in terms of
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list-structure with respect to the containing lists. For example, in
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((a b c (d foo) f) g), foo has a path of (0 3 1). In other words,
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to reach foo take the 0th element of the outermost list, then
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the 3rd element of the next list, and finally the 1st element.
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STATE and INDENT-POINT are as in the arguments to
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`common-lisp-indent-function'. SEXP-COLUMN is the column of
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the open parenthesis of the innermost containing list.
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NORMAL-INDENT is the column the indentation point was
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originally in. This function should behave like `lisp-indent-259'.
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* an integer N, meaning indent the first N arguments like
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function arguments, and any further arguments like a body.
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This is equivalent to (4 4 ... &body).
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* a list. The list element in position M specifies how to indent the Mth
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function argument. If there are fewer elements than function arguments,
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the last list element applies to all remaining arguments. The accepted
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list elements are:
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* nil, meaning the default indentation.
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* an integer, specifying an explicit indentation.
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* &lambda. Indent the argument (which may be a list) by 4.
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* &rest. When used, this must be the penultimate element. The
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element after this one applies to all remaining arguments.
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* &body. This is equivalent to &rest lisp-body-indent, i.e., indent
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all remaining elements by `lisp-body-indent'.
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* &whole. This must be followed by nil, an integer, or a
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function symbol. This indentation is applied to the
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associated argument, and as a base indent for all remaining
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arguments. For example, an integer P means indent this
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argument by P, and all remaining arguments by P, plus the
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value specified by their associated list element.
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* a symbol. A function to call, with the 6 arguments specified above.
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* a list, with elements as described above. This applies when the
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associated function argument is itself a list. Each element of the list
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specifies how to indent the associated argument.
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For example, the function `case' has an indent property
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\(4 &rest (&whole 2 &rest 1)), meaning:
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* indent the first argument by 4.
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* arguments after the first should be lists, and there may be any number
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of them. The first list element has an offset of 2, all the rest
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have an offset of 2+1=3.
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If the current mode is actually `emacs-lisp-mode', look for a
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`common-lisp-indent-function-for-elisp' property before looking
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at `common-lisp-indent-function' and, if set, use its value
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instead."
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;; FIXME: why do we need to special-case loop?
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(if (save-excursion (goto-char (elt state 1))
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(and (looking-at (if (derived-mode-p 'emacs-lisp-mode)
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"(\\(cl-\\)?loop"
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"([Ll][Oo][Oo][Pp]"))
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(or lisp-indent-backquote-substitution-mode
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(not
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(or (and (eq (char-before) ?@)
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(progn (backward-char)
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(eq (char-before) ?,)))
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(eq (char-before) ?,))))))
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(common-lisp-loop-part-indentation indent-point state)
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(common-lisp-indent-function-1 indent-point state)))
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(defun common-lisp-indent-function-1 (indent-point state)
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(let ((normal-indent (current-column)))
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;; Walk up list levels until we see something
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;; which does special things with subforms.
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(let ((depth 0)
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;; Path describes the position of point in terms of
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;; list-structure with respect to containing lists.
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;; `foo' has a path of (0 3 1) in `((a b c (d foo) f) g)'.
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(path ())
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;; set non-nil when somebody works out the indentation to use
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calculated
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;; If non-nil, this is an indentation to use
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;; if nothing else specifies it more firmly.
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tentative-calculated
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;; the position of the open-paren of the innermost containing list
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(containing-form-start (elt state 1))
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;; the column of the above
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sexp-column)
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;; Move to start of innermost containing list
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(goto-char containing-form-start)
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(setq sexp-column (current-column))
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;; Look over successively less-deep containing forms
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(while (and (not calculated)
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(< depth lisp-indent-maximum-backtracking))
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(let ((containing-sexp (point)))
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(forward-char 1)
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(parse-partial-sexp (point) indent-point 1 t)
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;; Move to the car of the relevant containing form
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(let (tem function method tentative-defun)
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(if (not (looking-at "\\sw\\|\\s_"))
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;; This form doesn't seem to start with a symbol
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(setq function nil method nil)
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(setq tem (point))
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(forward-sexp 1)
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(setq function (downcase (buffer-substring-no-properties
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tem (point))))
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(goto-char tem)
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;; Elisp generally provides CL functionality with a CL
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;; prefix, so if we have a special indenter for the
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;; unprefixed version, prefer it over whatever's defined
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;; for the cl- version. Users can override this
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;; heuristic by defining a
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;; common-lisp-indent-function-for-elisp property on the
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;; cl- version.
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(when (and (derived-mode-p 'emacs-lisp-mode)
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(not (lisp-indent-find-method
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(intern-soft function) t))
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(string-match "\\`cl-" function)
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(setf tem (intern-soft
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(substring function (match-end 0))))
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(lisp-indent-find-method tem t))
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(setf function (symbol-name tem)))
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(setq tem (intern-soft function)
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method (lisp-indent-find-method tem))
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;; The pleblisp package feature
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(when (and (null tem)
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(string-match ":[^:]+" function))
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(setq function (substring function (1+ (match-beginning 0)))
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tem (intern-soft function)
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method (lisp-indent-find-method tem))))
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(let ((n 0))
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;; How far into the containing form is the current form?
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(if (< (point) indent-point)
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(while (condition-case ()
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(progn
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(forward-sexp 1)
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(if (>= (point) indent-point)
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nil
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(parse-partial-sexp (point)
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indent-point 1 t)
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(setq n (1+ n))
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t))
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(error nil))))
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(setq path (cons n path)))
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;; backwards compatibility.
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(cond ((null function))
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((null method)
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(when (null (cdr path))
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;; (package prefix was stripped off above)
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(cond ((string-match "\\`def"
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function)
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(setq tentative-defun t))
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((string-match
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(eval-when-compile
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(concat "\\`\\("
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(regexp-opt '("with" "without" "do"))
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"\\)-"))
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function)
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(setq method '(&lambda &body))))))
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;; backwards compatibility. Bletch.
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((eq method 'defun)
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(setq method lisp-indent-defun-method)))
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(cond ((and (or (eq (char-after (1- containing-sexp)) ?\')
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(and (not lisp-backquote-indentation)
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(eq (char-after (1- containing-sexp)) ?\`)))
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(not (eq (char-after (- containing-sexp 2)) ?\#)))
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;; No indentation for "'(...)" elements
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(setq calculated (1+ sexp-column)))
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((when
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(or (eq (char-after (1- containing-sexp)) ?\,)
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(and (eq (char-after (1- containing-sexp)) ?\@)
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(eq (char-after (- containing-sexp 2)) ?\,)))
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;; ",(...)" or ",@(...)"
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(when (eq lisp-indent-backquote-substitution-mode
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'corrected)
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(cl-incf sexp-column -1)
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(when (eq (char-after (1- containing-sexp)) ?\@)
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(cl-incf sexp-column -1)))
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(cond (lisp-indent-backquote-substitution-mode
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(setf tentative-calculated normal-indent)
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(setq depth lisp-indent-maximum-backtracking)
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nil)
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(t (setq calculated normal-indent)))))
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((eq (char-after (1- containing-sexp)) ?\#)
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;; "#(...)"
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(setq calculated (1+ sexp-column)))
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((null method)
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;; If this looks like a call to a `def...' form,
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;; think about indenting it as one, but do it
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;; tentatively for cases like
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;; (flet ((defunp ()
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;; nil)))
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;; Set both normal-indent and tentative-calculated.
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;; The latter ensures this value gets used
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;; if there are no relevant containing constructs.
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;; The former ensures this value gets used
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;; if there is a relevant containing construct
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;; but we are nested within the structure levels
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;; that it specifies indentation for.
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(if tentative-defun
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(setq tentative-calculated
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(common-lisp-indent-call-method
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function lisp-indent-defun-method
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path state indent-point
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sexp-column normal-indent)
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normal-indent tentative-calculated)))
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((integerp method)
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;; convenient top-level hack.
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;; (also compatible with lisp-indent-function)
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;; The number specifies how many `distinguished'
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;; forms there are before the body starts
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;; Equivalent to (4 4 ... &body)
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(setq calculated (cond ((cdr path)
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normal-indent)
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((<= (car path) method)
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;; `distinguished' form
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(list (+ sexp-column 4)
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containing-form-start))
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((= (car path) (1+ method))
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;; first body form.
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(+ sexp-column lisp-body-indent))
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(t
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;; other body form
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normal-indent))))
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(t
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(setq calculated
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(common-lisp-indent-call-method
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function method path state indent-point
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sexp-column normal-indent)))))
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(goto-char containing-sexp)
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(unless calculated
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(condition-case ()
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(progn (backward-up-list 1)
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(setq depth (1+ depth)))
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(error (setq depth lisp-indent-maximum-backtracking))))))
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(or calculated tentative-calculated))))
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;; Dynamically bound in common-lisp-indent-call-method.
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(defvar lisp-indent-error-function)
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(defun common-lisp-indent-call-method (function method path state indent-point
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sexp-column normal-indent)
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||
(let ((lisp-indent-error-function function))
|
||
(if (symbolp method)
|
||
(funcall method
|
||
path state indent-point
|
||
sexp-column normal-indent)
|
||
(lisp-indent-259 method path state indent-point
|
||
sexp-column normal-indent))))
|
||
|
||
(defun lisp-indent-report-bad-format (m)
|
||
(error "%s has a badly-formed %s property: %s"
|
||
;; Love those free variable references!!
|
||
lisp-indent-error-function 'common-lisp-indent-function m))
|
||
|
||
|
||
;; Lambda-list indentation is now done in LISP-INDENT-LAMBDA-LIST.
|
||
;; See also `lisp-lambda-list-keyword-alignment',
|
||
;; `lisp-lambda-list-keyword-parameter-alignment' and
|
||
;; `lisp-lambda-list-keyword-parameter-indentation' -- dvl
|
||
|
||
(defvar lisp-indent-lambda-list-keywords-regexp
|
||
"&\\(\
|
||
optional\\|rest\\|key\\|allow-other-keys\\|aux\\|whole\\|body\\|environment\
|
||
\\)\\([ \t]\\|$\\)"
|
||
"Regular expression matching lambda-list keywords.")
|
||
|
||
(defun lisp-indent-lambda-list
|
||
(indent-point sexp-column containing-form-start)
|
||
(let (limit)
|
||
(cond ((save-excursion
|
||
(goto-char indent-point)
|
||
(beginning-of-line)
|
||
(skip-chars-forward " \t")
|
||
(setq limit (point))
|
||
(looking-at lisp-indent-lambda-list-keywords-regexp))
|
||
;; We're facing a lambda-list keyword.
|
||
(if lisp-lambda-list-keyword-alignment
|
||
;; Align to the first keyword if any, or to the beginning of
|
||
;; the lambda-list.
|
||
(save-excursion
|
||
(goto-char containing-form-start)
|
||
(save-match-data
|
||
(if (re-search-forward
|
||
lisp-indent-lambda-list-keywords-regexp
|
||
limit t)
|
||
(progn
|
||
(goto-char (match-beginning 0))
|
||
(current-column))
|
||
(1+ sexp-column))))
|
||
;; Align to the beginning of the lambda-list.
|
||
(1+ sexp-column)))
|
||
(t
|
||
;; Otherwise, align to the first argument of the last lambda-list
|
||
;; keyword, the keyword itself, or the beginning of the
|
||
;; lambda-list.
|
||
(save-excursion
|
||
(goto-char indent-point)
|
||
(forward-line -1)
|
||
(end-of-line)
|
||
(save-match-data
|
||
(if (re-search-backward lisp-indent-lambda-list-keywords-regexp
|
||
containing-form-start t)
|
||
(let* ((keyword-posn
|
||
(progn
|
||
(goto-char (match-beginning 0))
|
||
(current-column)))
|
||
(indented-keyword-posn
|
||
(+ keyword-posn
|
||
lisp-lambda-list-keyword-parameter-indentation)))
|
||
(goto-char (match-end 0))
|
||
(skip-chars-forward " \t")
|
||
(if (eolp)
|
||
indented-keyword-posn
|
||
(if lisp-lambda-list-keyword-parameter-alignment
|
||
(current-column)
|
||
indented-keyword-posn)))
|
||
(1+ sexp-column))))))))
|
||
|
||
;; Blame the crufty control structure on dynamic scoping
|
||
;; -- not on me!
|
||
(defun lisp-indent-259
|
||
(method path state indent-point sexp-column normal-indent)
|
||
(catch 'exit
|
||
(let ((p path)
|
||
(containing-form-start (elt state 1))
|
||
n tem tail)
|
||
;; Isn't tail-recursion wonderful?
|
||
(while p
|
||
;; This while loop is for destructuring.
|
||
;; p is set to (cdr p) each iteration.
|
||
(if (not (consp method)) (lisp-indent-report-bad-format method))
|
||
(setq n (1- (car p))
|
||
p (cdr p)
|
||
tail nil)
|
||
(while n
|
||
;; This while loop is for advancing along a method
|
||
;; until the relevant (possibly &rest/&body) pattern
|
||
;; is reached.
|
||
;; n is set to (1- n) and method to (cdr method)
|
||
;; each iteration.
|
||
(setq tem (car method))
|
||
|
||
(or (eq tem 'nil) ;default indentation
|
||
(eq tem '&lambda) ;lambda list
|
||
(and (eq tem '&body) (null (cdr method)))
|
||
(and (eq tem '&rest)
|
||
(consp (cdr method))
|
||
(null (cddr method)))
|
||
(integerp tem) ;explicit indentation specified
|
||
(and (consp tem) ;destructuring
|
||
(eq (car tem) '&whole)
|
||
(or (symbolp (cadr tem))
|
||
(integerp (cadr tem))))
|
||
(and (symbolp tem) ;a function to call to do the work.
|
||
(null (cdr method)))
|
||
(lisp-indent-report-bad-format method))
|
||
|
||
(cond ((and tail (not (or (consp tem) (symbolp tem))))
|
||
;; indent tail of &rest in same way as first elt of rest
|
||
(throw 'exit normal-indent))
|
||
((eq tem '&body)
|
||
;; &body means (&rest <lisp-body-indent>)
|
||
(throw 'exit
|
||
(if (and (= n 0) ;first body form
|
||
(null p)) ;not in subforms
|
||
(+ sexp-column
|
||
lisp-body-indent)
|
||
normal-indent)))
|
||
((eq tem '&rest)
|
||
;; this pattern holds for all remaining forms
|
||
(setq tail (> n 0)
|
||
n 0
|
||
method (cdr method)))
|
||
((> n 0)
|
||
;; try next element of pattern
|
||
(setq n (1- n)
|
||
method (cdr method))
|
||
(if (< n 0)
|
||
;; Too few elements in pattern.
|
||
(throw 'exit normal-indent)))
|
||
((eq tem 'nil)
|
||
(throw 'exit (if (consp normal-indent)
|
||
normal-indent
|
||
(list normal-indent containing-form-start))))
|
||
((eq tem '&lambda)
|
||
(throw 'exit
|
||
(cond ((null p)
|
||
(list (+ sexp-column 4) containing-form-start))
|
||
((null (cdr p))
|
||
;; Indentation within a lambda-list. -- dvl
|
||
(list (lisp-indent-lambda-list
|
||
indent-point
|
||
sexp-column
|
||
containing-form-start)
|
||
containing-form-start))
|
||
(t
|
||
normal-indent))))
|
||
((integerp tem)
|
||
(throw 'exit
|
||
(if (null p) ;not in subforms
|
||
(list (+ sexp-column tem) containing-form-start)
|
||
normal-indent)))
|
||
((symbolp tem) ;a function to call
|
||
(throw 'exit
|
||
(funcall tem path state indent-point
|
||
sexp-column normal-indent)))
|
||
(t
|
||
;; must be a destructing frob
|
||
(if (not (null p))
|
||
;; descend
|
||
(setq method (cddr tem)
|
||
n nil)
|
||
(setq tem (cadr tem))
|
||
(throw 'exit
|
||
(cond (tail
|
||
normal-indent)
|
||
((eq tem 'nil)
|
||
(list normal-indent
|
||
containing-form-start))
|
||
((integerp tem)
|
||
(list (+ sexp-column tem)
|
||
containing-form-start))
|
||
(t
|
||
(funcall tem path state indent-point
|
||
sexp-column normal-indent))))))))))))
|
||
|
||
(defun lisp-indent-tagbody (path state indent-point sexp-column normal-indent)
|
||
(if (not (null (cdr path)))
|
||
normal-indent
|
||
(save-excursion
|
||
(goto-char indent-point)
|
||
(beginning-of-line)
|
||
(skip-chars-forward " \t")
|
||
(list (cond ((looking-at "\\sw\\|\\s_")
|
||
;; a tagbody tag
|
||
(+ sexp-column lisp-tag-indentation))
|
||
((integerp lisp-tag-body-indentation)
|
||
(+ sexp-column lisp-tag-body-indentation))
|
||
((eq lisp-tag-body-indentation 't)
|
||
(condition-case ()
|
||
(progn (backward-sexp 1) (current-column))
|
||
(error (1+ sexp-column))))
|
||
(t (+ sexp-column lisp-body-indent)))
|
||
; (cond ((integerp lisp-tag-body-indentation)
|
||
; (+ sexp-column lisp-tag-body-indentation))
|
||
; ((eq lisp-tag-body-indentation 't)
|
||
; normal-indent)
|
||
; (t
|
||
; (+ sexp-column lisp-body-indent)))
|
||
(elt state 1)
|
||
))))
|
||
|
||
(defun lisp-indent-do (path state indent-point sexp-column normal-indent)
|
||
(if (>= (car path) 3)
|
||
(let ((lisp-tag-body-indentation lisp-body-indent))
|
||
(funcall (function lisp-indent-tagbody)
|
||
path state indent-point sexp-column normal-indent))
|
||
(funcall (function lisp-indent-259)
|
||
'((&whole nil &rest
|
||
;; the following causes weird indentation
|
||
;;(&whole 1 1 2 nil)
|
||
)
|
||
(&whole nil &rest 1))
|
||
path state indent-point sexp-column normal-indent)))
|
||
|
||
|
||
;; LISP-INDENT-DEFMETHOD now supports the presence of more than one method
|
||
;; qualifier and indents the method's lambda list properly. -- dvl
|
||
(defun lisp-indent-defmethod
|
||
(path state indent-point sexp-column normal-indent)
|
||
(lisp-indent-259
|
||
(let ((nqual 0))
|
||
(if (and (>= (car path) 3)
|
||
(save-excursion
|
||
(beginning-of-defun)
|
||
(forward-char 1)
|
||
(forward-sexp 2)
|
||
(skip-chars-forward " \t\n")
|
||
(while (looking-at "\\sw\\|\\s_")
|
||
(cl-incf nqual)
|
||
(forward-sexp)
|
||
(skip-chars-forward " \t\n"))
|
||
(> nqual 0)))
|
||
(append '(4) (make-list nqual 4) '(&lambda &body))
|
||
(get 'defun 'common-lisp-indent-function)))
|
||
path state indent-point sexp-column normal-indent))
|
||
|
||
|
||
(defun lisp-indent-function-lambda-hack (path _state _indent-point
|
||
sexp-column normal-indent)
|
||
;; indent (function (lambda () <newline> <body-forms>)) kludgily.
|
||
(if (or (cdr path) ; wtf?
|
||
(> (car path) 3))
|
||
;; line up under previous body form
|
||
normal-indent
|
||
;; line up under function rather than under lambda in order to
|
||
;; conserve horizontal space. (Which is what #' is for.)
|
||
(condition-case ()
|
||
(save-excursion
|
||
(backward-up-list 2)
|
||
(forward-char 1)
|
||
(if (looking-at "\\(lisp:+\\)?function\\(\\Sw\\|\\S_\\)")
|
||
(+ lisp-body-indent -1 (current-column))
|
||
(+ sexp-column lisp-body-indent)))
|
||
(error (+ sexp-column lisp-body-indent)))))
|
||
|
||
|
||
|
||
(let ((l '((block 1)
|
||
(case (4 &rest (&whole 2 &rest 1)))
|
||
(ccase . case)
|
||
(ecase . case)
|
||
(typecase . case)
|
||
(etypecase . case)
|
||
(ctypecase . case)
|
||
(catch 1)
|
||
(cond (&rest (&whole 2 &rest 1)))
|
||
(defvar (4 2 2))
|
||
(defclass (6 4 (&whole 2 &rest 1) (&whole 2 &rest 1)))
|
||
(defconstant . defvar)
|
||
(defcustom (4 2 2 2))
|
||
(defparameter . defvar)
|
||
(defconst . defcustom)
|
||
(define-condition . defclass)
|
||
(define-modify-macro (4 &lambda &body))
|
||
(defsetf (4 &lambda 4 &body))
|
||
(defun (4 &lambda &body))
|
||
(defgeneric (4 &lambda &body))
|
||
(define-setf-method . defun)
|
||
(define-setf-expander . defun)
|
||
(defmacro . defun)
|
||
(defsubst . defun)
|
||
(deftype . defun)
|
||
(defmethod lisp-indent-defmethod)
|
||
(defpackage (4 2))
|
||
(defstruct ((&whole 4 &rest (&whole 2 &rest 1))
|
||
&rest (&whole 2 &rest 1)))
|
||
(destructuring-bind
|
||
((&whole 6 &rest 1) 4 &body))
|
||
(do lisp-indent-do)
|
||
(do* . do)
|
||
(dolist ((&whole 4 2 1) &body))
|
||
(dotimes . dolist)
|
||
(eval-when 1)
|
||
(flet ((&whole 4 &rest (&whole 1 &lambda &body)) &body))
|
||
(labels . flet)
|
||
(macrolet . flet)
|
||
(generic-flet . flet)
|
||
(generic-labels . flet)
|
||
(handler-case (4 &rest (&whole 2 &lambda &body)))
|
||
(restart-case . handler-case)
|
||
;; `else-body' style
|
||
(if (nil nil &body))
|
||
;; single-else style (then and else equally indented)
|
||
(if (&rest nil))
|
||
(lambda (&lambda &rest lisp-indent-function-lambda-hack))
|
||
(let ((&whole 4 &rest (&whole 1 1 2)) &body))
|
||
(let* . let)
|
||
(compiler-let . let) ;barf
|
||
(handler-bind . let)
|
||
(restart-bind . let)
|
||
(locally 1)
|
||
;(loop lisp-indent-loop)
|
||
(:method (&lambda &body)) ; in `defgeneric'
|
||
(multiple-value-bind ((&whole 6 &rest 1) 4 &body))
|
||
(multiple-value-call (4 &body))
|
||
(multiple-value-prog1 1)
|
||
(multiple-value-setq (4 2))
|
||
(multiple-value-setf . multiple-value-setq)
|
||
(pprint-logical-block (4 2))
|
||
(print-unreadable-object ((&whole 4 1 &rest 1) &body))
|
||
;; Combines the worst features of BLOCK, LET and TAGBODY
|
||
(prog (&lambda &rest lisp-indent-tagbody))
|
||
(prog* . prog)
|
||
(prog1 1)
|
||
(prog2 2)
|
||
(progn 0)
|
||
(progv (4 4 &body))
|
||
(return 0)
|
||
(return-from (nil &body))
|
||
(symbol-macrolet . let)
|
||
(tagbody lisp-indent-tagbody)
|
||
(throw 1)
|
||
(unless 1)
|
||
(unwind-protect (5 &body))
|
||
(when 1)
|
||
(with-accessors . multiple-value-bind)
|
||
(with-condition-restarts . multiple-value-bind)
|
||
(with-compilation-unit (&lambda &body))
|
||
(with-output-to-string (4 2))
|
||
(with-slots . multiple-value-bind)
|
||
(with-standard-io-syntax (2)))))
|
||
(dolist (el l)
|
||
(put (car el) 'common-lisp-indent-function
|
||
(if (symbolp (cdr el))
|
||
(get (cdr el) 'common-lisp-indent-function)
|
||
(car (cdr el))))))
|
||
|
||
;; In elisp, the else part of `if' is in an implicit progn, so indent
|
||
;; it more.
|
||
(put 'if 'common-lisp-indent-function-for-elisp 2)
|
||
(put 'with-output-to-string 'common-lisp-indent-function-for-elisp 0)
|
||
|
||
|
||
;(defun foo (x)
|
||
; (tagbody
|
||
; foo
|
||
; (bar)
|
||
; baz
|
||
; (when (losing)
|
||
; (with-big-loser
|
||
; (yow)
|
||
; ((lambda ()
|
||
; foo)
|
||
; big)))
|
||
; (flet ((foo (bar baz zap)
|
||
; (zip))
|
||
; (zot ()
|
||
; quux))
|
||
; (do ()
|
||
; ((lose)
|
||
; (foo 1))
|
||
; (quux)
|
||
; foo
|
||
; (lose))
|
||
; (cond ((x)
|
||
; (win 1 2
|
||
; (foo)))
|
||
; (t
|
||
; (lose
|
||
; 3))))))
|
||
|
||
|
||
;(put 'while 'common-lisp-indent-function 1)
|
||
;(put 'defwrapper'common-lisp-indent-function ...)
|
||
;(put 'def 'common-lisp-indent-function ...)
|
||
;(put 'defflavor 'common-lisp-indent-function ...)
|
||
;(put 'defsubst 'common-lisp-indent-function ...)
|
||
|
||
;(put 'with-restart 'common-lisp-indent-function '((1 4 ((* 1))) (2 &body)))
|
||
;(put 'restart-case 'common-lisp-indent-function '((1 4) (* 2 ((0 1) (* 1)))))
|
||
;(put 'define-condition 'common-lisp-indent-function '((1 6) (2 6 ((&whole 1))) (3 4 ((&whole 1))) (4 &body)))
|
||
;(put 'with-condition-handler 'common-lisp-indent-function '((1 4 ((* 1))) (2 &body)))
|
||
;(put 'condition-case 'common-lisp-indent-function '((1 4) (* 2 ((0 1) (1 3) (2 &body)))))
|
||
;(put 'defclass 'common-lisp-indent-function '((&whole 2 &rest (&whole 2 &rest 1) &rest (&whole 2 &rest 1)))
|
||
;(put 'defgeneric 'common-lisp-indent-function 'defun)
|
||
|
||
(provide 'cl-indent)
|
||
|
||
;;; cl-indent.el ends here
|