:format-control "Symbol macro name already declared constant: ~S."
:format-arguments (list name))))
name)
-
\f
;;;; DEFINE-COMPILER-MACRO
(error 'simple-program-error
:format-control "cannot define a compiler-macro for a special operator: ~S"
:format-arguments (list name)))
- (let ((whole (gensym "WHOLE-"))
- (environment (gensym "ENV-")))
+ (with-unique-names (whole environment)
(multiple-value-bind (body local-decs doc)
(parse-defmacro lambda-list whole body name 'define-compiler-macro
:environment environment)
(let ((def `(lambda (,whole ,environment)
,@local-decs
- (block ,(fun-name-block-name name)
- ,body)))
+ ,body))
(debug-name (debug-namify "DEFINE-COMPILER-MACRO ~S" name)))
`(eval-when (:compile-toplevel :load-toplevel :execute)
- (sb!c::%define-compiler-macro ',name #',def ',lambda-list ,doc ,debug-name))))))
+ (sb!c::%define-compiler-macro ',name
+ #',def
+ ',lambda-list
+ ,doc
+ ,debug-name))))))
;;; FIXME: This will look remarkably similar to those who have already
;;; seen the code for %DEFMACRO in src/code/defmacro.lisp. Various
lambda-list
(%simple-fun-name (%closure-fun definition))
debug-name))
- ((#.sb!vm:simple-fun-header-widetag
- #.sb!vm:closure-fun-header-widetag)
+ (#.sb!vm:simple-fun-header-widetag
(setf (%simple-fun-arglist definition) lambda-list
(%simple-fun-name definition) debug-name))))
name))))
(progn
(def (:load-toplevel :execute) #-sb-xc-host t #+sb-xc-host nil)
- (def (:compile-toplevel) nil)))
+ #-sb-xc (def (:compile-toplevel) nil)))
\f
;;;; CASE, TYPECASE, and friends
-(eval-when (:compile-toplevel :load-toplevel :execute)
+(eval-when (#-sb-xc :compile-toplevel :load-toplevel :execute)
;;; CASE-BODY returns code for all the standard "case" macros. NAME is
;;; the macro name, and KEYFORM is the thing to case on. MULTI-P
;;;; WITH-FOO i/o-related macros
(defmacro-mundanely with-open-stream ((var stream) &body forms-decls)
- (multiple-value-bind (forms decls) (parse-body forms-decls nil)
+ (multiple-value-bind (forms decls)
+ (parse-body forms-decls :doc-string-allowed nil)
(let ((abortp (gensym)))
`(let ((,var ,stream)
(,abortp t))
(defmacro-mundanely with-input-from-string ((var string &key index start end)
&body forms-decls)
- (multiple-value-bind (forms decls) (parse-body forms-decls nil)
+ (multiple-value-bind (forms decls)
+ (parse-body forms-decls :doc-string-allowed nil)
;; The ONCE-ONLY inhibits compiler note for unreachable code when
;; END is true.
(once-only ((string string))
,@(when index
`((setf ,index (string-input-stream-current ,var)))))))))
-(defmacro-mundanely with-output-to-string ((var &optional string)
- &body forms-decls)
- (multiple-value-bind (forms decls) (parse-body forms-decls nil)
+(defmacro-mundanely with-output-to-string
+ ((var &optional string &key (element-type ''character))
+ &body forms-decls)
+ (multiple-value-bind (forms decls)
+ (parse-body forms-decls :doc-string-allowed nil)
(if string
`(let ((,var (make-fill-pointer-output-stream ,string)))
,@decls
(unwind-protect
(progn ,@forms)
(close ,var)))
- `(let ((,var (make-string-output-stream)))
+ `(let ((,var (make-string-output-stream :element-type ,element-type)))
,@decls
(unwind-protect
(progn ,@forms)
#!+sb-doc
"Evaluate FORM and return the Nth value (zero based). This involves no
consing when N is a trivial constant integer."
+ ;; FIXME: The above is true, if slightly misleading. The
+ ;; MULTIPLE-VALUE-BIND idiom [ as opposed to MULTIPLE-VALUE-CALL
+ ;; (LAMBDA (&REST VALUES) (NTH N VALUES)) ] does indeed not cons at
+ ;; runtime. However, for large N (say N = 200), COMPILE on such a
+ ;; form will take longer than can be described as adequate, as the
+ ;; optional dispatch mechanism for the M-V-B gets increasingly
+ ;; hairy.
(if (integerp n)
(let ((dummy-list nil)
(keeper (gensym "KEEPER-")))