;;; cl-macs.el --- Common Lisp macros -*- lexical-binding: t; coding: utf-8 -*-
-;; Copyright (C) 1993, 2001-2012 Free Software Foundation, Inc.
+;; Copyright (C) 1993, 2001-2013 Free Software Foundation, Inc.
;; Author: Dave Gillespie <daveg@synaptics.com>
;; Version: 2.02
;; `gv' is required here because cl-macs can be loaded before loaddefs.el.
(require 'gv)
-(defmacro cl-pop2 (place)
+(defmacro cl--pop2 (place)
(declare (debug edebug-sexps))
`(prog1 (car (cdr ,place))
(setq ,place (cdr (cdr ,place)))))
-(defvar cl-optimize-safety)
-(defvar cl-optimize-speed)
+(defvar cl--optimize-safety)
+(defvar cl--optimize-speed)
;;; Initialization.
(defvar cl--bind-inits) (defvar cl--bind-lets) (defvar cl--bind-forms)
(defun cl--transform-lambda (form bind-block)
+ "Transform a function form FORM of name BIND-BLOCK.
+BIND-BLOCK is the name of the symbol to which the function will be bound,
+and which will be used for the name of the `cl-block' surrounding the
+function's body.
+FORM is of the form (ARGS . BODY)."
(let* ((args (car form)) (body (cdr form)) (orig-args args)
(cl--bind-block bind-block) (cl--bind-defs nil) (cl--bind-enquote nil)
(cl--bind-inits nil) (cl--bind-lets nil) (cl--bind-forms nil)
(header nil) (simple-args nil))
(while (or (stringp (car body))
- (memq (car-safe (car body)) '(interactive cl-declare)))
+ (memq (car-safe (car body)) '(interactive declare cl-declare)))
(push (pop body) header))
(setq args (if (listp args) (cl-copy-list args) (list '&rest args)))
(let ((p (last args))) (if (cdr p) (setcdr p (list '&rest (cdr p)))))
(require 'help-fns)
(cons (help-add-fundoc-usage
(if (stringp (car hdr)) (pop hdr))
- (format "%S"
- (cons 'fn
- (cl--make-usage-args orig-args))))
+ ;; Be careful with make-symbol and (back)quote,
+ ;; see bug#12884.
+ (let ((print-gensym nil) (print-quoted t))
+ (format "%S" (cons 'fn (cl--make-usage-args
+ orig-args)))))
hdr)))
(list `(let* ,cl--bind-lets
,@(nreverse cl--bind-forms)
(if (memq '&environment args) (error "&environment used incorrectly"))
(let ((save-args args)
(restarg (memq '&rest args))
- (safety (if (cl--compiling-file) cl-optimize-safety 3))
+ (safety (if (cl--compiling-file) cl--optimize-safety 3))
(keys nil)
(laterarg nil) (exactarg nil) minarg)
(or num (setq num 0))
(setq restarg (cadr restarg)))
(push (list restarg expr) cl--bind-lets)
(if (eq (car args) '&whole)
- (push (list (cl-pop2 args) restarg) cl--bind-lets))
+ (push (list (cl--pop2 args) restarg) cl--bind-lets))
(let ((p args))
(setq minarg restarg)
(while (and p (not (memq (car p) cl--lambda-list-keywords)))
(if def `(if ,restarg ,poparg ,def) poparg))
(setq num (1+ num))))))
(if (eq (car args) '&rest)
- (let ((arg (cl-pop2 args)))
+ (let ((arg (cl--pop2 args)))
(if (consp arg) (cl--do-arglist arg restarg)))
(or (eq (car args) '&key) (= safety 0) exactarg
(push `(if ,restarg
;;;###autoload
(defmacro cl-destructuring-bind (args expr &rest body)
+ "Bind the variables in ARGS to the result of EXPR and execute BODY."
(declare (indent 2)
(debug (&define cl-macro-list def-form cl-declarations def-body)))
(let* ((cl--bind-lets nil) (cl--bind-forms nil) (cl--bind-inits nil)
;;; The `cl-eval-when' form.
-(defvar cl-not-toplevel nil)
+(defvar cl--not-toplevel nil)
;;;###autoload
(defmacro cl-eval-when (when &rest body)
\(fn (WHEN...) BODY...)"
(declare (indent 1) (debug ((&rest &or "compile" "load" "eval") body)))
(if (and (fboundp 'cl--compiling-file) (cl--compiling-file)
- (not cl-not-toplevel) (not (boundp 'for-effect))) ; horrible kludge
+ (not cl--not-toplevel) (not (boundp 'for-effect))) ;Horrible kludge.
(let ((comp (or (memq 'compile when) (memq :compile-toplevel when)))
- (cl-not-toplevel t))
+ (cl--not-toplevel t))
(if (or (memq 'load when) (memq :load-toplevel when))
(if comp (cons 'progn (mapcar 'cl--compile-time-too body))
`(if nil nil ,@body))
(defvar cl--loop-first-flag)
(defvar cl--loop-initially) (defvar cl--loop-map-form) (defvar cl--loop-name)
(defvar cl--loop-result) (defvar cl--loop-result-explicit)
-(defvar cl--loop-result-var) (defvar cl--loop-steps) (defvar cl--loop-symbol-macs)
+(defvar cl--loop-result-var) (defvar cl--loop-steps)
+(defvar cl--loop-symbol-macs)
;;;###autoload
(defmacro cl-loop (&rest loop-args)
- "The Common Lisp `cl-loop' macro.
+ "The Common Lisp `loop' macro.
Valid clauses are:
for VAR from/upfrom/downfrom NUM to/upto/downto/above/below NUM by NUM,
for VAR in LIST by FUNC, for VAR on LIST by FUNC, for VAR = INIT then EXPR,
"return"] form]
;; Simple default, which covers 99% of the cases.
symbolp form)))
- (if (not (memq t (mapcar 'symbolp (delq nil (delq t (cl-copy-list loop-args))))))
+ (if (not (memq t (mapcar #'symbolp
+ (delq nil (delq t (cl-copy-list loop-args))))))
`(cl-block nil (while t ,@loop-args))
(let ((cl--loop-args loop-args) (cl--loop-name nil) (cl--loop-bindings nil)
(cl--loop-body nil) (cl--loop-steps nil)
(cl--loop-map-form nil) (cl--loop-first-flag nil)
(cl--loop-destr-temps nil) (cl--loop-symbol-macs nil))
(setq cl--loop-args (append cl--loop-args '(cl-end-loop)))
- (while (not (eq (car cl--loop-args) 'cl-end-loop)) (cl-parse-loop-clause))
+ (while (not (eq (car cl--loop-args) 'cl-end-loop))
+ (cl--parse-loop-clause))
(if cl--loop-finish-flag
(push `((,cl--loop-finish-flag t)) cl--loop-bindings))
(if cl--loop-first-flag
(progn (push `((,cl--loop-first-flag t)) cl--loop-bindings)
(push `(setq ,cl--loop-first-flag nil) cl--loop-steps)))
(let* ((epilogue (nconc (nreverse cl--loop-finally)
- (list (or cl--loop-result-explicit cl--loop-result))))
+ (list (or cl--loop-result-explicit
+ cl--loop-result))))
(ands (cl--loop-build-ands (nreverse cl--loop-body)))
(while-body (nconc (cadr ands) (nreverse cl--loop-steps)))
(body (append
`((if ,cl--loop-finish-flag
(progn ,@epilogue) ,cl--loop-result-var)))
epilogue))))
- (if cl--loop-result-var (push (list cl--loop-result-var) cl--loop-bindings))
+ (if cl--loop-result-var
+ (push (list cl--loop-result-var) cl--loop-bindings))
(while cl--loop-bindings
(if (cdar cl--loop-bindings)
(setq body (list (cl--loop-let (pop cl--loop-bindings) body t)))
(push (car (pop cl--loop-bindings)) lets))
(setq body (list (cl--loop-let lets body nil))))))
(if cl--loop-symbol-macs
- (setq body (list `(cl-symbol-macrolet ,cl--loop-symbol-macs ,@body))))
+ (setq body
+ (list `(cl-symbol-macrolet ,cl--loop-symbol-macs ,@body))))
`(cl-block ,cl--loop-name ,@body)))))
;; Below is a complete spec for cl-loop, in several parts that correspond
-(defun cl-parse-loop-clause () ; uses loop-*
+(defun cl--parse-loop-clause () ; uses loop-*
(let ((word (pop cl--loop-args))
(hash-types '(hash-key hash-keys hash-value hash-values))
(key-types '(key-code key-codes key-seq key-seqs
((eq word 'initially)
(if (memq (car cl--loop-args) '(do doing)) (pop cl--loop-args))
- (or (consp (car cl--loop-args)) (error "Syntax error on `initially' clause"))
+ (or (consp (car cl--loop-args))
+ (error "Syntax error on `initially' clause"))
(while (consp (car cl--loop-args))
(push (pop cl--loop-args) cl--loop-initially)))
((eq word 'finally)
(if (eq (car cl--loop-args) 'return)
- (setq cl--loop-result-explicit (or (cl-pop2 cl--loop-args) '(quote nil)))
+ (setq cl--loop-result-explicit
+ (or (cl--pop2 cl--loop-args) '(quote nil)))
(if (memq (car cl--loop-args) '(do doing)) (pop cl--loop-args))
- (or (consp (car cl--loop-args)) (error "Syntax error on `finally' clause"))
+ (or (consp (car cl--loop-args))
+ (error "Syntax error on `finally' clause"))
(if (and (eq (caar cl--loop-args) 'return) (null cl--loop-name))
- (setq cl--loop-result-explicit (or (nth 1 (pop cl--loop-args)) '(quote nil)))
+ (setq cl--loop-result-explicit
+ (or (nth 1 (pop cl--loop-args)) '(quote nil)))
(while (consp (car cl--loop-args))
(push (pop cl--loop-args) cl--loop-finally)))))
(if (eq word 'being) (setq word (pop cl--loop-args)))
(if (memq word '(the each)) (setq word (pop cl--loop-args)))
(if (memq word '(buffer buffers))
- (setq word 'in cl--loop-args (cons '(buffer-list) cl--loop-args)))
+ (setq word 'in
+ cl--loop-args (cons '(buffer-list) cl--loop-args)))
(cond
((memq word '(from downfrom upfrom to downto upto
(if (memq (car cl--loop-args) '(downto above))
(error "Must specify `from' value for downward cl-loop"))
(let* ((down (or (eq (car cl--loop-args) 'downfrom)
- (memq (cl-caddr cl--loop-args) '(downto above))))
+ (memq (cl-caddr cl--loop-args)
+ '(downto above))))
(excl (or (memq (car cl--loop-args) '(above below))
- (memq (cl-caddr cl--loop-args) '(above below))))
- (start (and (memq (car cl--loop-args) '(from upfrom downfrom))
- (cl-pop2 cl--loop-args)))
+ (memq (cl-caddr cl--loop-args)
+ '(above below))))
+ (start (and (memq (car cl--loop-args)
+ '(from upfrom downfrom))
+ (cl--pop2 cl--loop-args)))
(end (and (memq (car cl--loop-args)
'(to upto downto above below))
- (cl-pop2 cl--loop-args)))
- (step (and (eq (car cl--loop-args) 'by) (cl-pop2 cl--loop-args)))
+ (cl--pop2 cl--loop-args)))
+ (step (and (eq (car cl--loop-args) 'by)
+ (cl--pop2 cl--loop-args)))
(end-var (and (not (macroexp-const-p end))
(make-symbol "--cl-var--")))
(step-var (and (not (macroexp-const-p step))
loop-for-sets))))
(push (list temp
(if (eq (car cl--loop-args) 'by)
- (let ((step (cl-pop2 cl--loop-args)))
+ (let ((step (cl--pop2 cl--loop-args)))
(if (and (memq (car-safe step)
'(quote function
cl-function))
((eq word '=)
(let* ((start (pop cl--loop-args))
- (then (if (eq (car cl--loop-args) 'then) (cl-pop2 cl--loop-args) start)))
+ (then (if (eq (car cl--loop-args) 'then)
+ (cl--pop2 cl--loop-args) start)))
(push (list var nil) loop-for-bindings)
(if (or ands (eq (car cl--loop-args) 'and))
(progn
(let ((ref (or (memq (car cl--loop-args) '(in-ref of-ref))
(and (not (memq (car cl--loop-args) '(in of)))
(error "Expected `of'"))))
- (seq (cl-pop2 cl--loop-args))
+ (seq (cl--pop2 cl--loop-args))
(temp-seq (make-symbol "--cl-seq--"))
- (temp-idx (if (eq (car cl--loop-args) 'using)
- (if (and (= (length (cadr cl--loop-args)) 2)
- (eq (cl-caadr cl--loop-args) 'index))
- (cadr (cl-pop2 cl--loop-args))
- (error "Bad `using' clause"))
- (make-symbol "--cl-idx--"))))
+ (temp-idx
+ (if (eq (car cl--loop-args) 'using)
+ (if (and (= (length (cadr cl--loop-args)) 2)
+ (eq (cl-caadr cl--loop-args) 'index))
+ (cadr (cl--pop2 cl--loop-args))
+ (error "Bad `using' clause"))
+ (make-symbol "--cl-idx--"))))
(push (list temp-seq seq) loop-for-bindings)
(push (list temp-idx 0) loop-for-bindings)
(if ref
loop-for-steps)))
((memq word hash-types)
- (or (memq (car cl--loop-args) '(in of)) (error "Expected `of'"))
- (let* ((table (cl-pop2 cl--loop-args))
- (other (if (eq (car cl--loop-args) 'using)
- (if (and (= (length (cadr cl--loop-args)) 2)
- (memq (cl-caadr cl--loop-args) hash-types)
- (not (eq (cl-caadr cl--loop-args) word)))
- (cadr (cl-pop2 cl--loop-args))
- (error "Bad `using' clause"))
- (make-symbol "--cl-var--"))))
+ (or (memq (car cl--loop-args) '(in of))
+ (error "Expected `of'"))
+ (let* ((table (cl--pop2 cl--loop-args))
+ (other
+ (if (eq (car cl--loop-args) 'using)
+ (if (and (= (length (cadr cl--loop-args)) 2)
+ (memq (cl-caadr cl--loop-args) hash-types)
+ (not (eq (cl-caadr cl--loop-args) word)))
+ (cadr (cl--pop2 cl--loop-args))
+ (error "Bad `using' clause"))
+ (make-symbol "--cl-var--"))))
(if (memq word '(hash-value hash-values))
(setq var (prog1 other (setq other var))))
(setq cl--loop-map-form
((memq word '(symbol present-symbol external-symbol
symbols present-symbols external-symbols))
- (let ((ob (and (memq (car cl--loop-args) '(in of)) (cl-pop2 cl--loop-args))))
+ (let ((ob (and (memq (car cl--loop-args) '(in of))
+ (cl--pop2 cl--loop-args))))
(setq cl--loop-map-form
`(mapatoms (lambda (,var) . --cl-map) ,ob))))
((memq word '(overlay overlays extent extents))
(let ((buf nil) (from nil) (to nil))
(while (memq (car cl--loop-args) '(in of from to))
- (cond ((eq (car cl--loop-args) 'from) (setq from (cl-pop2 cl--loop-args)))
- ((eq (car cl--loop-args) 'to) (setq to (cl-pop2 cl--loop-args)))
- (t (setq buf (cl-pop2 cl--loop-args)))))
+ (cond ((eq (car cl--loop-args) 'from)
+ (setq from (cl--pop2 cl--loop-args)))
+ ((eq (car cl--loop-args) 'to)
+ (setq to (cl--pop2 cl--loop-args)))
+ (t (setq buf (cl--pop2 cl--loop-args)))))
(setq cl--loop-map-form
`(cl--map-overlays
(lambda (,var ,(make-symbol "--cl-var--"))
(var1 (make-symbol "--cl-var1--"))
(var2 (make-symbol "--cl-var2--")))
(while (memq (car cl--loop-args) '(in of property from to))
- (cond ((eq (car cl--loop-args) 'from) (setq from (cl-pop2 cl--loop-args)))
- ((eq (car cl--loop-args) 'to) (setq to (cl-pop2 cl--loop-args)))
+ (cond ((eq (car cl--loop-args) 'from)
+ (setq from (cl--pop2 cl--loop-args)))
+ ((eq (car cl--loop-args) 'to)
+ (setq to (cl--pop2 cl--loop-args)))
((eq (car cl--loop-args) 'property)
- (setq prop (cl-pop2 cl--loop-args)))
- (t (setq buf (cl-pop2 cl--loop-args)))))
+ (setq prop (cl--pop2 cl--loop-args)))
+ (t (setq buf (cl--pop2 cl--loop-args)))))
(if (and (consp var) (symbolp (car var)) (symbolp (cdr var)))
(setq var1 (car var) var2 (cdr var))
(push (list var `(cons ,var1 ,var2)) loop-for-sets))
,buf ,prop ,from ,to))))
((memq word key-types)
- (or (memq (car cl--loop-args) '(in of)) (error "Expected `of'"))
- (let ((cl-map (cl-pop2 cl--loop-args))
- (other (if (eq (car cl--loop-args) 'using)
- (if (and (= (length (cadr cl--loop-args)) 2)
- (memq (cl-caadr cl--loop-args) key-types)
- (not (eq (cl-caadr cl--loop-args) word)))
- (cadr (cl-pop2 cl--loop-args))
- (error "Bad `using' clause"))
- (make-symbol "--cl-var--"))))
+ (or (memq (car cl--loop-args) '(in of))
+ (error "Expected `of'"))
+ (let ((cl-map (cl--pop2 cl--loop-args))
+ (other
+ (if (eq (car cl--loop-args) 'using)
+ (if (and (= (length (cadr cl--loop-args)) 2)
+ (memq (cl-caadr cl--loop-args) key-types)
+ (not (eq (cl-caadr cl--loop-args) word)))
+ (cadr (cl--pop2 cl--loop-args))
+ (error "Bad `using' clause"))
+ (make-symbol "--cl-var--"))))
(if (memq word '(key-binding key-bindings))
(setq var (prog1 other (setq other var))))
(setq cl--loop-map-form
loop-for-steps)))
((memq word '(window windows))
- (let ((scr (and (memq (car cl--loop-args) '(in of)) (cl-pop2 cl--loop-args)))
+ (let ((scr (and (memq (car cl--loop-args) '(in of))
+ (cl--pop2 cl--loop-args)))
(temp (make-symbol "--cl-var--"))
(minip (make-symbol "--cl-minip--")))
(push (list var (if scr
loop-for-steps)))
(t
+ ;; This is an advertised interface: (info "(cl)Other Clauses").
(let ((handler (and (symbolp word)
- (get word 'cl--loop-for-handler))))
+ (get word 'cl-loop-for-handler))))
(if handler
(funcall handler var)
(error "Expected a `for' preposition, found %s" word)))))
((memq word '(minimize minimizing maximize maximizing))
(let* ((what (pop cl--loop-args))
- (temp (if (cl--simple-expr-p what) what (make-symbol "--cl-var--")))
+ (temp (if (cl--simple-expr-p what) what
+ (make-symbol "--cl-var--")))
(var (cl--loop-handle-accum nil))
(func (intern (substring (symbol-name word) 0 3)))
(set `(setq ,var (if ,var (,func ,var ,temp) ,temp))))
((eq word 'with)
(let ((bindings nil))
(while (progn (push (list (pop cl--loop-args)
- (and (eq (car cl--loop-args) '=) (cl-pop2 cl--loop-args)))
+ (and (eq (car cl--loop-args) '=)
+ (cl--pop2 cl--loop-args)))
bindings)
(eq (car cl--loop-args) 'and))
(pop cl--loop-args))
(push `(not ,(pop cl--loop-args)) cl--loop-body))
((eq word 'always)
- (or cl--loop-finish-flag (setq cl--loop-finish-flag (make-symbol "--cl-flag--")))
+ (or cl--loop-finish-flag
+ (setq cl--loop-finish-flag (make-symbol "--cl-flag--")))
(push `(setq ,cl--loop-finish-flag ,(pop cl--loop-args)) cl--loop-body)
(setq cl--loop-result t))
((eq word 'never)
- (or cl--loop-finish-flag (setq cl--loop-finish-flag (make-symbol "--cl-flag--")))
+ (or cl--loop-finish-flag
+ (setq cl--loop-finish-flag (make-symbol "--cl-flag--")))
(push `(setq ,cl--loop-finish-flag (not ,(pop cl--loop-args)))
cl--loop-body)
(setq cl--loop-result t))
((eq word 'thereis)
- (or cl--loop-finish-flag (setq cl--loop-finish-flag (make-symbol "--cl-flag--")))
- (or cl--loop-result-var (setq cl--loop-result-var (make-symbol "--cl-var--")))
+ (or cl--loop-finish-flag
+ (setq cl--loop-finish-flag (make-symbol "--cl-flag--")))
+ (or cl--loop-result-var
+ (setq cl--loop-result-var (make-symbol "--cl-var--")))
(push `(setq ,cl--loop-finish-flag
(not (setq ,cl--loop-result-var ,(pop cl--loop-args))))
cl--loop-body))
((memq word '(if when unless))
(let* ((cond (pop cl--loop-args))
(then (let ((cl--loop-body nil))
- (cl-parse-loop-clause)
+ (cl--parse-loop-clause)
(cl--loop-build-ands (nreverse cl--loop-body))))
(else (let ((cl--loop-body nil))
(if (eq (car cl--loop-args) 'else)
- (progn (pop cl--loop-args) (cl-parse-loop-clause)))
+ (progn (pop cl--loop-args) (cl--parse-loop-clause)))
(cl--loop-build-ands (nreverse cl--loop-body))))
(simple (and (eq (car then) t) (eq (car else) t))))
(if (eq (car cl--loop-args) 'end) (pop cl--loop-args))
(push (cons 'progn (nreverse (cons t body))) cl--loop-body)))
((eq word 'return)
- (or cl--loop-finish-flag (setq cl--loop-finish-flag (make-symbol "--cl-var--")))
- (or cl--loop-result-var (setq cl--loop-result-var (make-symbol "--cl-var--")))
+ (or cl--loop-finish-flag
+ (setq cl--loop-finish-flag (make-symbol "--cl-var--")))
+ (or cl--loop-result-var
+ (setq cl--loop-result-var (make-symbol "--cl-var--")))
(push `(setq ,cl--loop-result-var ,(pop cl--loop-args)
,cl--loop-finish-flag nil) cl--loop-body))
(t
- (let ((handler (and (symbolp word) (get word 'cl--loop-handler))))
+ ;; This is an advertised interface: (info "(cl)Other Clauses").
+ (let ((handler (and (symbolp word) (get word 'cl-loop-handler))))
(or handler (error "Expected a cl-loop keyword, found %s" word))
(funcall handler))))
(if (eq (car cl--loop-args) 'and)
- (progn (pop cl--loop-args) (cl-parse-loop-clause)))))
+ (progn (pop cl--loop-args) (cl--parse-loop-clause)))))
(defun cl--loop-let (specs body par) ; uses loop-*
(let ((p specs) (temps nil) (new nil))
(if (and (consp (car specs)) (listp (caar specs)))
(let* ((spec (caar specs)) (nspecs nil)
(expr (cadr (pop specs)))
- (temp (cdr (or (assq spec cl--loop-destr-temps)
- (car (push (cons spec (or (last spec 0)
- (make-symbol "--cl-var--")))
- cl--loop-destr-temps))))))
+ (temp
+ (cdr (or (assq spec cl--loop-destr-temps)
+ (car (push (cons spec
+ (or (last spec 0)
+ (make-symbol "--cl-var--")))
+ cl--loop-destr-temps))))))
(push (list temp expr) new)
(while (consp spec)
(push (list (pop spec)
(setq specs (nconc (nreverse nspecs) specs)))
(push (pop specs) new)))
(if (eq body 'setq)
- (let ((set (cons (if par 'cl-psetq 'setq) (apply 'nconc (nreverse new)))))
+ (let ((set (cons (if par 'cl-psetq 'setq)
+ (apply 'nconc (nreverse new)))))
(if temps `(let* ,(nreverse temps) ,set) set))
`(,(if par 'let 'let*)
,(nconc (nreverse temps) (nreverse new)) ,@body))))
-(defun cl--loop-handle-accum (def &optional func) ; uses loop-*
+(defun cl--loop-handle-accum (def &optional func) ; uses loop-*
(if (eq (car cl--loop-args) 'into)
- (let ((var (cl-pop2 cl--loop-args)))
+ (let ((var (cl--pop2 cl--loop-args)))
(or (memq var cl--loop-accum-vars)
(progn (push (list (list var def)) cl--loop-bindings)
(push var cl--loop-accum-vars)))
var)
(or cl--loop-accum-var
(progn
- (push (list (list (setq cl--loop-accum-var (make-symbol "--cl-var--")) def))
- cl--loop-bindings)
+ (push (list (list
+ (setq cl--loop-accum-var (make-symbol "--cl-var--"))
+ def))
+ cl--loop-bindings)
(setq cl--loop-result (if func (list func cl--loop-accum-var)
- cl--loop-accum-var))
+ cl--loop-accum-var))
cl--loop-accum-var))))
(defun cl--loop-build-ands (clauses)
;;;###autoload
(defmacro cl-do (steps endtest &rest body)
- "The Common Lisp `cl-do' loop.
+ "The Common Lisp `do' loop.
\(fn ((VAR INIT [STEP])...) (END-TEST [RESULT...]) BODY...)"
(declare (indent 2)
((&rest &or symbolp (symbolp &optional form form))
(form body)
cl-declarations body)))
- (cl-expand-do-loop steps endtest body nil))
+ (cl--expand-do-loop steps endtest body nil))
;;;###autoload
(defmacro cl-do* (steps endtest &rest body)
- "The Common Lisp `cl-do*' loop.
+ "The Common Lisp `do*' loop.
\(fn ((VAR INIT [STEP])...) (END-TEST [RESULT...]) BODY...)"
(declare (indent 2) (debug cl-do))
- (cl-expand-do-loop steps endtest body t))
+ (cl--expand-do-loop steps endtest body t))
-(defun cl-expand-do-loop (steps endtest body star)
+(defun cl--expand-do-loop (steps endtest body star)
`(cl-block nil
(,(if star 'let* 'let)
,(mapcar (lambda (c) (if (consp c) (list (car c) (nth 1 c)) c))
\(fn (VAR LIST [RESULT]) BODY...)"
(declare (debug ((symbolp form &optional form) cl-declarations body))
(indent 1))
- `(cl-block nil
- (,(if (eq 'cl-dolist (symbol-function 'dolist)) 'cl--dolist 'dolist)
- ,spec ,@body)))
+ (let ((loop `(dolist ,spec ,@body)))
+ (if (advice-member-p #'cl--wrap-in-nil-block 'dolist)
+ loop `(cl-block nil ,loop))))
;;;###autoload
(defmacro cl-dotimes (spec &rest body)
\(fn (VAR COUNT [RESULT]) BODY...)"
(declare (debug cl-dolist) (indent 1))
- `(cl-block nil
- (,(if (eq 'cl-dotimes (symbol-function 'dotimes)) 'cl--dotimes 'dotimes)
- ,spec ,@body)))
+ (let ((loop `(dotimes ,spec ,@body)))
+ (if (advice-member-p #'cl--wrap-in-nil-block 'dotimes)
+ loop `(cl-block nil ,loop))))
+
+(defvar cl--tagbody-alist nil)
+
+;;;###autoload
+(defmacro cl-tagbody (&rest labels-or-stmts)
+ "Execute statements while providing for control transfers to labels.
+Each element of LABELS-OR-STMTS can be either a label (integer or symbol)
+or a `cons' cell, in which case it's taken to be a statement.
+This distinction is made before performing macroexpansion.
+Statements are executed in sequence left to right, discarding any return value,
+stopping only when reaching the end of LABELS-OR-STMTS.
+Any statement can transfer control at any time to the statements that follow
+one of the labels with the special form (go LABEL).
+Labels have lexical scope and dynamic extent."
+ (let ((blocks '())
+ (first-label (if (consp (car labels-or-stmts))
+ 'cl--preamble (pop labels-or-stmts))))
+ (let ((block (list first-label)))
+ (dolist (label-or-stmt labels-or-stmts)
+ (if (consp label-or-stmt) (push label-or-stmt block)
+ ;; Add a "go to next block" to implement the fallthrough.
+ (unless (eq 'go (car-safe (car-safe block)))
+ (push `(go ,label-or-stmt) block))
+ (push (nreverse block) blocks)
+ (setq block (list label-or-stmt))))
+ (unless (eq 'go (car-safe (car-safe block)))
+ (push `(go cl--exit) block))
+ (push (nreverse block) blocks))
+ (let ((catch-tag (make-symbol "cl--tagbody-tag")))
+ (push (cons 'cl--exit catch-tag) cl--tagbody-alist)
+ (dolist (block blocks)
+ (push (cons (car block) catch-tag) cl--tagbody-alist))
+ (macroexpand-all
+ `(let ((next-label ',first-label))
+ (while
+ (not (eq (setq next-label
+ (catch ',catch-tag
+ (cl-case next-label
+ ,@blocks)))
+ 'cl--exit))))
+ `((go . ,(lambda (label)
+ (let ((catch-tag (cdr (assq label cl--tagbody-alist))))
+ (unless catch-tag
+ (error "Unknown cl-tagbody go label `%S'" label))
+ `(throw ',catch-tag ',label))))
+ ,@macroexpand-all-environment)))))
;;;###autoload
(defmacro cl-do-symbols (spec &rest body)
;;;###autoload
(defmacro cl-do-all-symbols (spec &rest body)
+ "Like `cl-do-symbols', but use the default obarray.
+
+\(fn (VAR [RESULT]) BODY...)"
(declare (indent 1) (debug ((symbolp &optional form) cl-declarations body)))
`(cl-do-symbols (,(car spec) nil ,(cadr spec)) ,@body))
"Bind SYMBOLS to VALUES dynamically in BODY.
The forms SYMBOLS and VALUES are evaluated, and must evaluate to lists.
Each symbol in the first list is bound to the corresponding value in the
-second list (or made unbound if VALUES is shorter than SYMBOLS); then the
+second list (or to nil if VALUES is shorter than SYMBOLS); then the
BODY forms are executed and their result is returned. This is much like
a `let' form, except that the list of symbols can be computed at run-time."
(declare (indent 2) (debug (form form body)))
- (let ((bodyfun (make-symbol "cl--progv-body"))
+ (let ((bodyfun (make-symbol "body"))
(binds (make-symbol "binds"))
(syms (make-symbol "syms"))
(vals (make-symbol "vals")))
`(progn
- (defvar ,bodyfun)
(let* ((,syms ,symbols)
(,vals ,values)
(,bodyfun (lambda () ,@body))
(,binds ()))
(while ,syms
(push (list (pop ,syms) (list 'quote (pop ,vals))) ,binds))
- (eval (list 'let ,binds '(funcall ,bodyfun)))))))
+ (eval (list 'let ,binds (list 'funcall (list 'quote ,bodyfun))))))))
(defvar cl--labels-convert-cache nil)
;;;###autoload
(defmacro cl-flet (bindings &rest body)
- "Make temporary function definitions.
+ "Make local function definitions.
Like `cl-labels' but the definitions are not recursive.
\(fn ((FUNC ARGLIST BODY...) ...) FORM...)"
;;;###autoload
(defmacro cl-flet* (bindings &rest body)
- "Make temporary function definitions.
+ "Make local function definitions.
Like `cl-flet' but the definitions can refer to previous ones.
\(fn ((FUNC ARGLIST BODY...) ...) FORM...)"
;;;###autoload
(defmacro cl-locally (&rest body)
+ "Equivalent to `progn'."
(declare (debug t))
(cons 'progn body))
;;;###autoload
(defmacro cl-the (_type form)
+ "At present this ignores _TYPE and is simply equivalent to FORM."
(declare (indent 1) (debug (cl-type-spec form)))
form)
-(defvar cl-proclaim-history t) ; for future compilers
-(defvar cl-declare-stack t) ; for future compilers
+(defvar cl--proclaim-history t) ; for future compilers
+(defvar cl--declare-stack t) ; for future compilers
-(defun cl-do-proclaim (spec hist)
- (and hist (listp cl-proclaim-history) (push spec cl-proclaim-history))
+(defun cl--do-proclaim (spec hist)
+ (and hist (listp cl--proclaim-history) (push spec cl--proclaim-history))
(cond ((eq (car-safe spec) 'special)
(if (boundp 'byte-compile-bound-variables)
(setq byte-compile-bound-variables
'((0 nil) (1 t) (2 t) (3 t))))
(safety (assq (nth 1 (assq 'safety (cdr spec)))
'((0 t) (1 t) (2 t) (3 nil)))))
- (if speed (setq cl-optimize-speed (car speed)
+ (if speed (setq cl--optimize-speed (car speed)
byte-optimize (nth 1 speed)))
- (if safety (setq cl-optimize-safety (car safety)
+ (if safety (setq cl--optimize-safety (car safety)
byte-compile-delete-errors (nth 1 safety)))))
((and (eq (car-safe spec) 'warn) (boundp 'byte-compile-warnings))
nil)
;;; Process any proclamations made before cl-macs was loaded.
-(defvar cl-proclaims-deferred)
-(let ((p (reverse cl-proclaims-deferred)))
- (while p (cl-do-proclaim (pop p) t))
- (setq cl-proclaims-deferred nil))
+(defvar cl--proclaims-deferred)
+(let ((p (reverse cl--proclaims-deferred)))
+ (while p (cl--do-proclaim (pop p) t))
+ (setq cl--proclaims-deferred nil))
;;;###autoload
(defmacro cl-declare (&rest specs)
See Info node `(cl)Declarations' for details."
(if (cl--compiling-file)
(while specs
- (if (listp cl-declare-stack) (push (car specs) cl-declare-stack))
- (cl-do-proclaim (pop specs) nil)))
+ (if (listp cl--declare-stack) (push (car specs) cl--declare-stack))
+ (cl--do-proclaim (pop specs) nil)))
nil)
;;; The standard modify macros.
(copier (intern (format "copy-%s" name)))
(predicate (intern (format "%s-p" name)))
(print-func nil) (print-auto nil)
- (safety (if (cl--compiling-file) cl-optimize-safety 3))
+ (safety (if (cl--compiling-file) cl--optimize-safety 3))
(include nil)
(tag (intern (format "cl-struct-%s" name)))
(tag-symbol (intern (format "cl-struct-%s-tags" name)))
((memq type '(nil t)) type)
((eq type 'null) `(null ,val))
((eq type 'atom) `(atom ,val))
- ((eq type 'float) `(cl-floatp-safe ,val))
+ ((eq type 'float) `(floatp ,val))
((eq type 'real) `(numberp ,val))
((eq type 'fixnum) `(integerp ,val))
;; FIXME: Should `character' accept things like ?\C-\M-a ? --Stef
(if (consp (cadr type)) `(> ,val ,(cl-caadr type))
`(>= ,val ,(cadr type))))
,(if (memq (cl-caddr type) '(* nil)) t
- (if (consp (cl-caddr type)) `(< ,val ,(cl-caaddr type))
+ (if (consp (cl-caddr type))
+ `(< ,val ,(cl-caaddr type))
`(<= ,val ,(cl-caddr type)))))))
((memq (car type) '(and or not))
(cons (car type)
STRING is an optional description of the desired type."
(declare (debug (place cl-type-spec &optional stringp)))
(and (or (not (cl--compiling-file))
- (< cl-optimize-speed 3) (= cl-optimize-safety 3))
+ (< cl--optimize-speed 3) (= cl--optimize-safety 3))
(let* ((temp (if (cl--simple-expr-p form 3)
form (make-symbol "--cl-var--")))
(body `(or ,(cl--make-type-test temp type)
omitted, a default message listing FORM itself is used."
(declare (debug (form &rest form)))
(and (or (not (cl--compiling-file))
- (< cl-optimize-speed 3) (= cl-optimize-safety 3))
+ (< cl--optimize-speed 3) (= cl--optimize-safety 3))
(let ((sargs (and show-args
(delq nil (mapcar (lambda (x)
(unless (macroexp-const-p x)
;;;###autoload
(defun cl-compiler-macroexpand (form)
+ "Like `macroexpand', but for compiler macros.
+Expands FORM repeatedly until no further expansion is possible.
+Returns FORM unchanged if it has no compiler macro, or if it has a
+macro that returns its `&whole' argument."
(while
(let ((func (car-safe form)) (handler nil))
(while (and (symbolp func)
(cond ((eq test 'eq) `(assq ,a ,list))
((eq test 'equal) `(assoc ,a ,list))
((and (macroexp-const-p a) (or (null keys) (eq test 'eql)))
- (if (cl-floatp-safe (cl--const-expr-val a))
+ (if (floatp (cl--const-expr-val a))
`(assoc ,a ,list) `(assq ,a ,list)))
(t form))))
(put y 'side-effect-free t))
;;; Things that are inline.
-(cl-proclaim '(inline cl-floatp-safe cl-acons cl-map cl-concatenate cl-notany
+(cl-proclaim '(inline cl-acons cl-map cl-concatenate cl-notany
cl-notevery cl--set-elt cl-revappend cl-nreconc gethash))
;;; Things that are side-effect-free.
(mapc (lambda (x) (put x 'side-effect-free t))
- '(cl-oddp cl-evenp cl-signum last butlast cl-ldiff cl-pairlis cl-gcd cl-lcm
- cl-isqrt cl-floor cl-ceiling cl-truncate cl-round cl-mod cl-rem cl-subseq
- cl-list-length cl-get cl-getf))
+ '(cl-oddp cl-evenp cl-signum last butlast cl-ldiff cl-pairlis cl-gcd
+ cl-lcm cl-isqrt cl-floor cl-ceiling cl-truncate cl-round cl-mod cl-rem
+ cl-subseq cl-list-length cl-get cl-getf))
;;; Things that are side-effect-and-error-free.
(mapc (lambda (x) (put x 'side-effect-free 'error-free))
- '(eql cl-floatp-safe cl-list* cl-subst cl-acons cl-equalp cl-random-state-p
- copy-tree cl-sublis))
+ '(eql cl-list* cl-subst cl-acons cl-equalp
+ cl-random-state-p copy-tree cl-sublis))
(run-hooks 'cl-macs-load-hook)