;;;;;; ceiling* floor* isqrt lcm gcd cl-progv-before cl-set-frame-visible-p
;;;;;; cl-map-overlays cl-map-intervals cl-map-keymap-recursively
;;;;;; notevery notany every some mapcon mapcan mapl maplist map
-;;;;;; cl-mapcar-many equalp coerce) "cl-extra" "cl-extra.el" "ff6f0444d029166d2ed5da298f39854e")
+;;;;;; cl-mapcar-many equalp coerce) "cl-extra" "cl-extra.el" "26339d9571f9485bf34fa6d2ae38fc84")
;;; Generated autoloads from cl-extra.el
(autoload 'coerce "cl-extra" "\
;;;;;; assert check-type typep deftype cl-struct-setf-expander defstruct
;;;;;; define-modify-macro callf2 callf letf* letf rotatef shiftf
;;;;;; remf cl-do-pop psetf setf get-setf-method defsetf define-setf-method
-;;;;;; declare locally multiple-value-setq multiple-value-bind lexical-let*
-;;;;;; lexical-let symbol-macrolet macrolet labels flet progv psetq
-;;;;;; do-all-symbols do-symbols dotimes dolist do* do loop return-from
-;;;;;; return block etypecase typecase ecase case load-time-value
-;;;;;; eval-when destructuring-bind function* defmacro* defun* gentemp
-;;;;;; gensym) "cl-macs" "cl-macs.el" "fd9e3122cb1900c82072cb61a5f3c1bd")
+;;;;;; declare the locally multiple-value-setq multiple-value-bind
+;;;;;; lexical-let* lexical-let symbol-macrolet macrolet labels
+;;;;;; flet progv psetq do-all-symbols do-symbols dotimes dolist
+;;;;;; do* do loop return-from return block etypecase typecase ecase
+;;;;;; case load-time-value eval-when destructuring-bind function*
+;;;;;; defmacro* defun* gentemp gensym) "cl-macs" "cl-macs.el" "9452c0e16fd960fce5c19e5c067a7160")
;;; Generated autoloads from cl-macs.el
(autoload 'gensym "cl-macs" "\
\(fn FUNC)" nil (quote macro))
(autoload 'destructuring-bind "cl-macs" "\
-Not documented
+
\(fn ARGS EXPR &rest BODY)" nil (quote macro))
(autoload 'return-from "cl-macs" "\
Return from the block named NAME.
-This jump out to the innermost enclosing `(block NAME ...)' form,
+This jumps out to the innermost enclosing `(block NAME ...)' form,
returning RESULT from that form (or nil if RESULT is omitted).
This is compatible with Common Lisp, but note that `defun' and
`defmacro' do not create implicit blocks as they do in Common Lisp.
\(fn (VAR [OBARRAY [RESULT]]) BODY...)" nil (quote macro))
(autoload 'do-all-symbols "cl-macs" "\
-Not documented
+
\(fn SPEC &rest BODY)" nil (quote macro))
The main visible difference is that lambdas inside BODY will create
lexical closures as in Common Lisp.
-\(fn VARLIST BODY)" nil (quote macro))
+\(fn BINDINGS BODY)" nil (quote macro))
(autoload 'lexical-let* "cl-macs" "\
Like `let*', but lexically scoped.
as in Common Lisp. This is similar to the behavior of `let*' in
Common Lisp.
-\(fn VARLIST BODY)" nil (quote macro))
+\(fn BINDINGS BODY)" nil (quote macro))
(autoload 'multiple-value-bind "cl-macs" "\
Collect multiple return values.
\(fn (SYM...) FORM)" nil (quote macro))
(autoload 'locally "cl-macs" "\
-Not documented
+
\(fn &rest BODY)" nil (quote macro))
+(autoload 'the "cl-macs" "\
+
+
+\(fn TYPE FORM)" nil (quote macro))
+
(autoload 'declare "cl-macs" "\
-Not documented
+Declare SPECS about the current function while compiling.
+For instance
+
+ (declare (warn 0))
+
+will turn off byte-compile warnings in the function.
+See Info node `(cl)Declarations' for details.
\(fn &rest SPECS)" nil (quote macro))
\(fn PLACE VAL PLACE VAL ...)" nil (quote macro))
(autoload 'cl-do-pop "cl-macs" "\
-Not documented
+
\(fn PLACE)" nil nil)
\(fn NAME SLOTS...)" nil (quote macro))
(autoload 'cl-struct-setf-expander "cl-macs" "\
-Not documented
+
\(fn X NAME ACCESSOR PRED-FORM POS)" nil nil)
\(fn FUNC ARGS &rest BODY)" nil (quote macro))
(autoload 'compiler-macroexpand "cl-macs" "\
-Not documented
+
\(fn FORM)" nil nil)
;;;;;; find nsubstitute-if-not nsubstitute-if nsubstitute substitute-if-not
;;;;;; substitute-if substitute delete-duplicates remove-duplicates
;;;;;; delete-if-not delete-if delete* remove-if-not remove-if remove*
-;;;;;; replace fill reduce) "cl-seq" "cl-seq.el" "c17ab899d56f8fa132d0471ce6896a10")
+;;;;;; replace fill reduce) "cl-seq" "cl-seq.el" "df375ddc313f0c1c262cacab5cffd3e4")
;;; Generated autoloads from cl-seq.el
(autoload 'reduce "cl-seq" "\
(autoload 'union "cl-seq" "\
Combine LIST1 and LIST2 using a set-union operation.
-The result list contains all items that appear in either LIST1 or LIST2.
+The resulting list contains all items that appear in either LIST1 or LIST2.
This is a non-destructive function; it makes a copy of the data if necessary
to avoid corrupting the original LIST1 and LIST2.
(autoload 'nunion "cl-seq" "\
Combine LIST1 and LIST2 using a set-union operation.
-The result list contains all items that appear in either LIST1 or LIST2.
+The resulting list contains all items that appear in either LIST1 or LIST2.
This is a destructive function; it reuses the storage of LIST1 and LIST2
whenever possible.
(autoload 'intersection "cl-seq" "\
Combine LIST1 and LIST2 using a set-intersection operation.
-The result list contains all items that appear in both LIST1 and LIST2.
+The resulting list contains all items that appear in both LIST1 and LIST2.
This is a non-destructive function; it makes a copy of the data if necessary
to avoid corrupting the original LIST1 and LIST2.
(autoload 'nintersection "cl-seq" "\
Combine LIST1 and LIST2 using a set-intersection operation.
-The result list contains all items that appear in both LIST1 and LIST2.
+The resulting list contains all items that appear in both LIST1 and LIST2.
This is a destructive function; it reuses the storage of LIST1 and LIST2
whenever possible.
(autoload 'set-difference "cl-seq" "\
Combine LIST1 and LIST2 using a set-difference operation.
-The result list contains all items that appear in LIST1 but not LIST2.
+The resulting list contains all items that appear in LIST1 but not LIST2.
This is a non-destructive function; it makes a copy of the data if necessary
to avoid corrupting the original LIST1 and LIST2.
(autoload 'nset-difference "cl-seq" "\
Combine LIST1 and LIST2 using a set-difference operation.
-The result list contains all items that appear in LIST1 but not LIST2.
+The resulting list contains all items that appear in LIST1 but not LIST2.
This is a destructive function; it reuses the storage of LIST1 and LIST2
whenever possible.
(autoload 'set-exclusive-or "cl-seq" "\
Combine LIST1 and LIST2 using a set-exclusive-or operation.
-The result list contains all items that appear in exactly one of LIST1, LIST2.
+The resulting list contains all items appearing in exactly one of LIST1, LIST2.
This is a non-destructive function; it makes a copy of the data if necessary
to avoid corrupting the original LIST1 and LIST2.
(autoload 'nset-exclusive-or "cl-seq" "\
Combine LIST1 and LIST2 using a set-exclusive-or operation.
-The result list contains all items that appear in exactly one of LIST1, LIST2.
+The resulting list contains all items appearing in exactly one of LIST1, LIST2.
This is a destructive function; it reuses the storage of LIST1 and LIST2
whenever possible.