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569 lines
20 KiB
EmacsLisp
569 lines
20 KiB
EmacsLisp
;;; cl-lib.el --- Common Lisp extensions for Emacs -*- lexical-binding: t -*-
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;; Copyright (C) 1993, 2001-2023 Free Software Foundation, Inc.
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;; Author: Dave Gillespie <daveg@synaptics.com>
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;; Version: 1.0
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;; Keywords: extensions
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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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;; These are extensions to Emacs Lisp that provide a degree of
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;; Common Lisp compatibility, beyond what is already built-in
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;; in Emacs Lisp.
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;;
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;; This package was written by Dave Gillespie; it is a complete
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;; rewrite of Cesar Quiroz's original cl.el package of December 1986.
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;;
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;; Bug reports, comments, and suggestions are welcome!
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;; This file contains the portions of the Common Lisp extensions
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;; package which should always be present.
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;;; Change Log:
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;; Version 2.02 (30 Jul 93):
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;; * Added "cl-compat.el" file, extra compatibility with old package.
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;; * Added `lexical-let' and `lexical-let*'.
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;; * Added `define-modify-macro', `callf', and `callf2'.
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;; * Added `ignore-errors'.
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;; * Changed `(setf (nthcdr N PLACE) X)' to work when N is zero.
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;; * Merged `*gentemp-counter*' into `*gensym-counter*'.
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;; * Extended `subseq' to allow negative START and END like `substring'.
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;; * Added `in-ref', `across-ref', `elements of-ref' loop clauses.
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;; * Added `concat', `vconcat' loop clauses.
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;; * Cleaned up a number of compiler warnings.
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;; Version 2.01 (7 Jul 93):
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;; * Added support for FSF version of Emacs 19.
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;; * Added `add-hook' for Emacs 18 users.
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;; * Added `defsubst*' and `symbol-macrolet'.
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;; * Added `maplist', `mapc', `mapl', `mapcan', `mapcon'.
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;; * Added `map', `concatenate', `reduce', `merge'.
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;; * Added `revappend', `nreconc', `tailp', `tree-equal'.
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;; * Added `assert', `check-type', `typecase', `typep', and `deftype'.
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;; * Added destructuring and `&environment' support to `defmacro*'.
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;; * Added destructuring to `loop', and added the following clauses:
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;; `elements', `frames', `overlays', `intervals', `buffers', `key-seqs'.
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;; * Renamed `delete' to `delete*' and `remove' to `remove*'.
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;; * Completed support for all keywords in `remove*', `substitute', etc.
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;; * Added `most-positive-float' and company.
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;; * Fixed hash tables to work with latest Lucid Emacs.
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;; * `proclaim' forms are no longer compile-time-evaluating; use `declaim'.
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;; * Syntax for `warn' declarations has changed.
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;; * Improved implementation of `random*'.
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;; * Moved most sequence functions to a new file, cl-seq.el.
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;; * Moved `eval-when' into cl-macs.el.
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;; * Moved `pushnew' and `adjoin' to cl.el for most common cases.
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;; * Moved `provide' forms down to ends of files.
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;; * Changed expansion of `pop' to something that compiles to better code.
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;; * Changed so that no patch is required for Emacs 19 byte compiler.
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;; * Made more things dependent on `optimize' declarations.
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;; * Added a partial implementation of struct print functions.
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;; * Miscellaneous minor changes.
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;; Version 2.00:
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;; * First public release of this package.
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;;; Code:
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(require 'macroexp)
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(defvar cl--optimize-speed 1)
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(defvar cl--optimize-safety 1)
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;;;###autoload
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(defvar cl-custom-print-functions nil
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"This is a list of functions that format user objects for printing.
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Each function is called in turn with three arguments: the object, the
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stream, and the print level (currently ignored). If it is able to
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print the object it returns true; otherwise it returns nil and the
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printer proceeds to the next function on the list.
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This variable is not used at present, but it is defined in hopes that
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a future Emacs interpreter will be able to use it.")
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;;; Generalized variables.
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;; These macros are defined here so that they
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;; can safely be used in init files.
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;;;###autoload
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(defmacro cl-incf (place &optional x)
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"Increment PLACE by X (1 by default).
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PLACE may be a symbol, or any generalized variable allowed by `setf'.
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The return value is the incremented value of PLACE.
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If X is specified, it should be an expression that should
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evaluate to a number."
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(declare (debug (place &optional form)))
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(if (symbolp place)
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(list 'setq place (if x (list '+ place x) (list '1+ place)))
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(list 'cl-callf '+ place (or x 1))))
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(defmacro cl-decf (place &optional x)
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"Decrement PLACE by X (1 by default).
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PLACE may be a symbol, or any generalized variable allowed by `setf'.
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The return value is the decremented value of PLACE.
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If X is specified, it should be an expression that should
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evaluate to a number."
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(declare (debug cl-incf))
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(if (symbolp place)
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(list 'setq place (if x (list '- place x) (list '1- place)))
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(list 'cl-callf '- place (or x 1))))
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(defmacro cl-pushnew (x place &rest keys)
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"Add X to the list stored in PLACE unless X is already in the list.
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PLACE is a generalized variable that stores a list.
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Like (push X PLACE), except that PLACE is unmodified if X is `eql'
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to an element already in the list stored in PLACE.
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\nKeywords supported: :test :test-not :key
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\n(fn X PLACE [KEYWORD VALUE]...)"
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(declare (debug
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(form place &rest
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&or [[&or ":test" ":test-not" ":key"] form]
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[keywordp form])))
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(if (symbolp place)
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(if (null keys)
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(macroexp-let2 nil var x
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`(if (memql ,var ,place)
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;; This symbol may later on expand to actual code which then
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;; trigger warnings like "value unused" since cl-pushnew's
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;; return value is rarely used. It should not matter that
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;; other warnings may be silenced, since `place' is used
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;; earlier and should have triggered them already.
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(with-no-warnings ,place)
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(setq ,place (cons ,var ,place))))
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`(setq ,place (cl-adjoin ,x ,place ,@keys)))
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`(cl-callf2 cl-adjoin ,x ,place ,@keys)))
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(defun cl--set-buffer-substring (start end val)
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(save-excursion (delete-region start end)
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(goto-char start)
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(insert val)
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val))
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(defun cl--set-substring (str start end val)
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(if end (if (< end 0) (cl-incf end (length str)))
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(setq end (length str)))
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(if (< start 0) (cl-incf start (length str)))
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(concat (and (> start 0) (substring str 0 start))
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val
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(and (< end (length str)) (substring str end))))
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;;; Blocks and exits.
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(defalias 'cl--block-wrapper 'identity)
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(defalias 'cl--block-throw 'throw)
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;;; Multiple values.
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;; True multiple values are not supported, or even
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;; simulated. Instead, cl-multiple-value-bind and friends simply expect
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;; the target form to return the values as a list.
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(defun cl--defalias (cl-f el-f &optional doc)
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(defalias cl-f el-f doc)
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(put cl-f 'byte-optimizer 'byte-compile-inline-expand))
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(cl--defalias 'cl-values #'list
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"Return multiple values, Common Lisp style.
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The arguments of `cl-values' are the values
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that the containing function should return.
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\(fn &rest VALUES)")
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(defun cl-values-list (list)
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"Return multiple values, Common Lisp style, taken from a list.
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LIST specifies the list of values that the containing function
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should return.
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Note that Emacs Lisp doesn't really support multiple values, so
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all this function does is return LIST."
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(unless (listp list)
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(signal 'wrong-type-argument list))
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list)
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(defsubst cl-multiple-value-list (expression)
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"Return a list of the multiple values produced by EXPRESSION.
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This handles multiple values in Common Lisp style, but it does not
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work right when EXPRESSION calls an ordinary Emacs Lisp function
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that returns just one value."
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expression)
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(defsubst cl-multiple-value-apply (function expression)
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"Evaluate EXPRESSION to get multiple values and apply FUNCTION to them.
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This handles multiple values in Common Lisp style, but it does not work
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right when EXPRESSION calls an ordinary Emacs Lisp function that returns just
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one value."
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(apply function expression))
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(defalias 'cl-multiple-value-call 'apply
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"Apply FUNCTION to ARGUMENTS, taking multiple values into account.
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This implementation only handles the case where there is only one argument.")
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(cl--defalias 'cl-nth-value #'nth
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"Evaluate EXPRESSION to get multiple values and return the Nth one.
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This handles multiple values in Common Lisp style, but it does not work
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right when EXPRESSION calls an ordinary Emacs Lisp function that returns just
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one value.
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\(fn N EXPRESSION)")
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;;; Declarations.
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(define-obsolete-function-alias 'cl--compiling-file
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#'macroexp-compiling-p "28.1")
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(defvar cl--proclaims-deferred nil)
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(defun cl-proclaim (spec)
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"Record a global declaration specified by SPEC."
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(if (fboundp 'cl--do-proclaim) (cl--do-proclaim spec t)
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(push spec cl--proclaims-deferred))
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nil)
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(defmacro cl-declaim (&rest specs)
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"Like `cl-proclaim', but takes any number of unevaluated, unquoted arguments.
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Puts `(cl-eval-when (compile load eval) ...)' around the declarations
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so that they are registered at compile-time as well as run-time."
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(let ((body (mapcar (lambda (x) `(cl-proclaim ',x)) specs)))
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(if (macroexp-compiling-p) `(cl-eval-when (compile load eval) ,@body)
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`(progn ,@body)))) ; Avoid loading cl-macs.el for cl-eval-when.
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;;; Numbers.
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(define-obsolete-function-alias 'cl-floatp-safe 'floatp "24.4")
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(defsubst cl-plusp (number)
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"Return t if NUMBER is positive."
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(> number 0))
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(defsubst cl-minusp (number)
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"Return t if NUMBER is negative."
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(< number 0))
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(defun cl-oddp (integer)
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"Return t if INTEGER is odd."
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(eq (logand integer 1) 1))
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(defun cl-evenp (integer)
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"Return t if INTEGER is even."
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(eq (logand integer 1) 0))
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(defconst cl-digit-char-table
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(let* ((digits (make-vector 256 nil))
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(populate (lambda (start end base)
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(mapc (lambda (i)
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(aset digits i (+ base (- i start))))
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(number-sequence start end)))))
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(funcall populate ?0 ?9 0)
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(funcall populate ?A ?Z 10)
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(funcall populate ?a ?z 10)
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digits))
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(defun cl-digit-char-p (char &optional radix)
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"Test if CHAR is a digit in the specified RADIX (default 10).
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If true return the decimal value of digit CHAR in RADIX."
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(or (<= 2 (or radix 10) 36)
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(signal 'args-out-of-range (list 'radix radix '(2 36))))
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(let ((n (aref cl-digit-char-table char)))
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(and n (< n (or radix 10)) n)))
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(defconst cl-most-positive-float nil
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"The largest value that a Lisp float can hold.
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If your system supports infinities, this is the largest finite value.
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For Emacs, this equals 1.7976931348623157e+308.
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Call `cl-float-limits' to set this.")
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(defconst cl-most-negative-float nil
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"The largest negative value that a Lisp float can hold.
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This is simply -`cl-most-positive-float'.
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Call `cl-float-limits' to set this.")
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(defconst cl-least-positive-float nil
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"The smallest value greater than zero that a Lisp float can hold.
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For Emacs, this equals 5e-324 if subnormal numbers are supported,
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`cl-least-positive-normalized-float' if they are not.
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Call `cl-float-limits' to set this.")
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(defconst cl-least-negative-float nil
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"The smallest value less than zero that a Lisp float can hold.
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This is simply -`cl-least-positive-float'.
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Call `cl-float-limits' to set this.")
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(defconst cl-least-positive-normalized-float nil
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"The smallest normalized Lisp float greater than zero.
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This is the smallest value that has full precision.
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For Emacs, this equals 2.2250738585072014e-308.
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Call `cl-float-limits' to set this.")
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(defconst cl-least-negative-normalized-float nil
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"The smallest normalized Lisp float less than zero.
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This is simply -`cl-least-positive-normalized-float'.
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Call `cl-float-limits' to set this.")
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(defconst cl-float-epsilon nil
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"The smallest positive float that adds to 1.0 to give a distinct value.
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Adding a number less than this to 1.0 returns 1.0 due to roundoff.
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For Emacs, this equals 2.220446049250313e-16.
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Call `cl-float-limits' to set this.")
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(defconst cl-float-negative-epsilon nil
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"The smallest positive float that subtracts from 1.0 to give a distinct value.
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For Emacs, this equals 1.1102230246251565e-16.
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Call `cl-float-limits' to set this.")
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;;; Sequence functions.
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(cl--defalias 'cl-copy-seq 'copy-sequence)
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(declare-function cl--mapcar-many "cl-extra" (cl-func cl-seqs &optional acc))
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(defun cl-mapcar (cl-func cl-x &rest cl-rest)
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"Apply FUNCTION to each element of SEQ, and make a list of the results.
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If there are several SEQs, FUNCTION is called with that many arguments,
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and mapping stops as soon as the shortest list runs out. With just one
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SEQ, this is like `mapcar'. With several, it is like the Common Lisp
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`mapcar' function extended to arbitrary sequence types.
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\n(fn FUNCTION SEQ...)"
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(if cl-rest
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(if (or (cdr cl-rest) (nlistp cl-x) (nlistp (car cl-rest)))
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(cl--mapcar-many cl-func (cons cl-x cl-rest) 'accumulate)
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(let ((cl-res nil) (cl-y (car cl-rest)))
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(while (and cl-x cl-y)
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(push (funcall cl-func (pop cl-x) (pop cl-y)) cl-res))
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(nreverse cl-res)))
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(mapcar cl-func cl-x)))
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(cl--defalias 'cl-svref 'aref)
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;;; List functions.
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(cl--defalias 'cl-first 'car)
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(cl--defalias 'cl-second 'cadr)
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(cl--defalias 'cl-rest 'cdr)
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(cl--defalias 'cl-third #'caddr "Return the third element of the list X.")
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(cl--defalias 'cl-fourth #'cadddr "Return the fourth element of the list X.")
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(defsubst cl-fifth (x)
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"Return the fifth element of the list X."
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(declare (gv-setter (lambda (store) `(setcar (nthcdr 4 ,x) ,store))))
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(nth 4 x))
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(defsubst cl-sixth (x)
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"Return the sixth element of the list X."
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(declare (gv-setter (lambda (store) `(setcar (nthcdr 5 ,x) ,store))))
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(nth 5 x))
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(defsubst cl-seventh (x)
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"Return the seventh element of the list X."
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(declare (gv-setter (lambda (store) `(setcar (nthcdr 6 ,x) ,store))))
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(nth 6 x))
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(defsubst cl-eighth (x)
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"Return the eighth element of the list X."
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(declare (gv-setter (lambda (store) `(setcar (nthcdr 7 ,x) ,store))))
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(nth 7 x))
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(defsubst cl-ninth (x)
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"Return the ninth element of the list X."
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(declare (gv-setter (lambda (store) `(setcar (nthcdr 8 ,x) ,store))))
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(nth 8 x))
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(defsubst cl-tenth (x)
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"Return the tenth element of the list X."
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(declare (gv-setter (lambda (store) `(setcar (nthcdr 9 ,x) ,store))))
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(nth 9 x))
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(defalias 'cl-caaar 'caaar)
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(defalias 'cl-caadr 'caadr)
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(defalias 'cl-cadar 'cadar)
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(defalias 'cl-caddr 'caddr)
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(defalias 'cl-cdaar 'cdaar)
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(defalias 'cl-cdadr 'cdadr)
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(defalias 'cl-cddar 'cddar)
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(defalias 'cl-cdddr 'cdddr)
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(defalias 'cl-caaaar 'caaaar)
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(defalias 'cl-caaadr 'caaadr)
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(defalias 'cl-caadar 'caadar)
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(defalias 'cl-caaddr 'caaddr)
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(defalias 'cl-cadaar 'cadaar)
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(defalias 'cl-cadadr 'cadadr)
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(defalias 'cl-caddar 'caddar)
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(defalias 'cl-cadddr 'cadddr)
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(defalias 'cl-cdaaar 'cdaaar)
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(defalias 'cl-cdaadr 'cdaadr)
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(defalias 'cl-cdadar 'cdadar)
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(defalias 'cl-cdaddr 'cdaddr)
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(defalias 'cl-cddaar 'cddaar)
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(defalias 'cl-cddadr 'cddadr)
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(defalias 'cl-cdddar 'cdddar)
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(defalias 'cl-cddddr 'cddddr)
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;;(defun last* (x &optional n)
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;; "Returns the last link in the list LIST.
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;;With optional argument N, returns Nth-to-last link (default 1)."
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;; (if n
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;; (let ((m 0) (p x))
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;; (while (consp p) (cl-incf m) (pop p))
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;; (if (<= n 0) p
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;; (if (< n m) (nthcdr (- m n) x) x)))
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;; (while (consp (cdr x)) (pop x))
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;; x))
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(defun cl-list* (arg &rest rest)
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"Return a new list with specified ARGs as elements, consed to last ARG.
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Thus, `(cl-list* A B C D)' is equivalent to `(nconc (list A B C) D)', or to
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`(cons A (cons B (cons C D)))'.
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\n(fn ARG...)"
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(declare (compiler-macro cl--compiler-macro-list*))
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(cond ((not rest) arg)
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((not (cdr rest)) (cons arg (car rest)))
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(t (let* ((n (length rest))
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(copy (copy-sequence rest))
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(last (nthcdr (- n 2) copy)))
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|
(setcdr last (car (cdr last)))
|
|
(cons arg copy)))))
|
|
|
|
(defun cl-ldiff (list sublist)
|
|
"Return a copy of LIST with the tail SUBLIST removed."
|
|
(let ((res nil))
|
|
(while (and (consp list) (not (eq list sublist)))
|
|
(push (pop list) res))
|
|
(nreverse res)))
|
|
|
|
(defun cl-copy-list (list)
|
|
"Return a copy of LIST, which may be a dotted list.
|
|
The elements of LIST are not copied, just the list structure itself."
|
|
(if (consp list)
|
|
(let ((res nil))
|
|
(while (consp list) (push (pop list) res))
|
|
(prog1 (nreverse res) (setcdr res list)))
|
|
(car list)))
|
|
|
|
;; Autoloaded, but we have not loaded cl-loaddefs yet.
|
|
(declare-function cl-floor "cl-extra" (x &optional y))
|
|
(declare-function cl-ceiling "cl-extra" (x &optional y))
|
|
(declare-function cl-truncate "cl-extra" (x &optional y))
|
|
(declare-function cl-round "cl-extra" (x &optional y))
|
|
(declare-function cl-mod "cl-extra" (x y))
|
|
|
|
(defun cl-adjoin (cl-item cl-list &rest cl-keys)
|
|
"Return ITEM consed onto the front of LIST only if it's not already there.
|
|
Otherwise, return LIST unmodified.
|
|
\nKeywords supported: :test :test-not :key
|
|
\n(fn ITEM LIST [KEYWORD VALUE]...)"
|
|
(declare (compiler-macro cl--compiler-macro-adjoin))
|
|
(cond ((or (equal cl-keys '(:test eq))
|
|
(and (null cl-keys) (not (numberp cl-item))))
|
|
(if (memq cl-item cl-list) cl-list (cons cl-item cl-list)))
|
|
((or (equal cl-keys '(:test equal)) (null cl-keys))
|
|
(if (member cl-item cl-list) cl-list (cons cl-item cl-list)))
|
|
(t (apply 'cl--adjoin cl-item cl-list cl-keys))))
|
|
|
|
(defun cl-subst (cl-new cl-old cl-tree &rest cl-keys)
|
|
"Substitute NEW for OLD everywhere in TREE (non-destructively).
|
|
Return a copy of TREE with all elements `eql' to OLD replaced by NEW.
|
|
\nKeywords supported: :test :test-not :key
|
|
\n(fn NEW OLD TREE [KEYWORD VALUE]...)"
|
|
(if (or cl-keys (and (numberp cl-old) (not (integerp cl-old))))
|
|
(apply 'cl-sublis (list (cons cl-old cl-new)) cl-tree cl-keys)
|
|
(cl--do-subst cl-new cl-old cl-tree)))
|
|
|
|
(defun cl--do-subst (cl-new cl-old cl-tree)
|
|
(cond ((eq cl-tree cl-old) cl-new)
|
|
((consp cl-tree)
|
|
(let ((a (cl--do-subst cl-new cl-old (car cl-tree)))
|
|
(d (cl--do-subst cl-new cl-old (cdr cl-tree))))
|
|
(if (and (eq a (car cl-tree)) (eq d (cdr cl-tree)))
|
|
cl-tree (cons a d))))
|
|
(t cl-tree)))
|
|
|
|
(defun cl-acons (key value alist)
|
|
"Add KEY and VALUE to ALIST.
|
|
Return a new list with (cons KEY VALUE) as car and ALIST as cdr."
|
|
(cons (cons key value) alist))
|
|
|
|
(defun cl-pairlis (keys values &optional alist)
|
|
"Make an alist from KEYS and VALUES.
|
|
Return a new alist composed by associating KEYS to corresponding VALUES;
|
|
the process stops as soon as KEYS or VALUES run out.
|
|
If ALIST is non-nil, the new pairs are prepended to it."
|
|
(nconc (cl-mapcar 'cons keys values) alist))
|
|
|
|
;;; Miscellaneous.
|
|
|
|
(provide 'cl-lib)
|
|
(unless (load "cl-loaddefs" 'noerror 'quiet)
|
|
;; When bootstrapping, cl-loaddefs hasn't been built yet!
|
|
(require 'cl-macs)
|
|
(require 'cl-seq))
|
|
|
|
(defun cl--old-struct-type-of (orig-fun object)
|
|
(or (and (vectorp object) (> (length object) 0)
|
|
(let ((tag (aref object 0)))
|
|
(when (and (symbolp tag)
|
|
(string-prefix-p "cl-struct-" (symbol-name tag)))
|
|
(unless (eq (symbol-function tag)
|
|
:quick-object-witness-check)
|
|
;; Old-style old-style struct:
|
|
;; Convert to new-style old-style struct!
|
|
(let* ((type (intern (substring (symbol-name tag)
|
|
(length "cl-struct-"))))
|
|
(class (cl--struct-get-class type)))
|
|
;; If the `cl-defstruct' was recompiled after the code
|
|
;; which constructed `object', `cl--struct-get-class' may
|
|
;; not have called `cl-struct-define' and setup the tag
|
|
;; symbol for us.
|
|
(unless (eq (symbol-function tag)
|
|
:quick-object-witness-check)
|
|
(set tag class)
|
|
(fset tag :quick-object-witness-check))))
|
|
(cl--class-name (symbol-value tag)))))
|
|
(funcall orig-fun object)))
|
|
|
|
;;;###autoload
|
|
(define-minor-mode cl-old-struct-compat-mode
|
|
"Enable backward compatibility with old-style structs.
|
|
This can be needed when using code byte-compiled using the old
|
|
macro-expansion of `cl-defstruct' that used vectors objects instead
|
|
of record objects."
|
|
:global t
|
|
:group 'tools
|
|
(cond
|
|
(cl-old-struct-compat-mode
|
|
(advice-add 'type-of :around #'cl--old-struct-type-of))
|
|
(t
|
|
(advice-remove 'type-of #'cl--old-struct-type-of))))
|
|
|
|
(defun cl-constantly (value)
|
|
"Return a function that takes any number of arguments, but returns VALUE."
|
|
(lambda (&rest _)
|
|
value))
|
|
|
|
;;; cl-lib.el ends here
|