(in-package "SB!C")
\f
-;;;; control special forms
+;;;; special forms for control
(def-ir1-translator progn ((&rest forms) start cont)
#!+sb-doc
(setf (entry-cleanup entry) cleanup)
(link-node-to-previous-continuation entry start)
(use-continuation entry dummy)
-
+
(let* ((env-entry (list entry cont))
(*lexenv* (make-lexenv :blocks (list (cons name env-entry))
:cleanup cleanup)))
(push env-entry (continuation-lexenv-uses cont))
(ir1-convert-progn-body dummy cont forms))))
-
(def-ir1-translator return-from ((name &optional value) start cont)
#!+sb-doc
"Return-From Block-Name Value-Form
(starts dummy)
(dolist (segment (rest segments))
(let* ((tag-cont (make-continuation))
- (tag (list (car segment) entry tag-cont)))
+ (tag (list (car segment) entry tag-cont)))
(conts tag-cont)
(starts tag-cont)
(continuation-starts-block tag-cont)
;;; are ignored for non-top-level forms. For non-top-level forms, an
;;; eval-when specifying the :EXECUTE situation is treated as an
;;; implicit PROGN including the forms in the body of the EVAL-WHEN
-;;; form; otherwise, the forms in the body are ignored.
+;;; form; otherwise, the forms in the body are ignored.
(def-ir1-translator eval-when ((situations &rest forms) start cont)
#!+sb-doc
"EVAL-WHEN (Situation*) Form*
definitions
fun)
(declare (type function definitionize-fun fun))
- (declare (type (member :variables :functions) definitionize-keyword))
+ (declare (type (member :vars :funs) definitionize-keyword))
(declare (type list definitions))
(unless (= (length definitions)
(length (remove-duplicates definitions :key #'first)))
(compiler-style-warn "duplicate definitions in ~S" definitions))
(let* ((processed-definitions (mapcar definitionize-fun definitions))
(*lexenv* (make-lexenv definitionize-keyword processed-definitions)))
- (funcall fun)))
+ (funcall fun definitionize-keyword processed-definitions)))
-;;; Tweak *LEXENV* to include the DEFINITIONS from a MACROLET, then
+;;; Tweak LEXENV to include the DEFINITIONS from a MACROLET, then
;;; call FUN (with no arguments).
;;;
;;; This is split off from the IR1 convert method so that it can be
-;;; shared by the special-case top level MACROLET processing code.
+;;; shared by the special-case top level MACROLET processing code, and
+;;; further split so that the special-case MACROLET processing code in
+;;; EVAL can likewise make use of it.
+(defmacro macrolet-definitionize-fun (context lexenv)
+ (flet ((make-error-form (control &rest args)
+ (ecase context
+ (:compile `(compiler-error ,control ,@args))
+ (:eval `(error 'simple-program-error
+ :format-control ,control
+ :format-arguments (list ,@args))))))
+ `(lambda (definition)
+ (unless (list-of-length-at-least-p definition 2)
+ ,(make-error-form "The list ~S is too short to be a legal local macro definition." 'definition))
+ (destructuring-bind (name arglist &body body) definition
+ (unless (symbolp name)
+ ,(make-error-form "The local macro name ~S is not a symbol." 'name))
+ (unless (listp arglist)
+ ,(make-error-form "The local macro argument list ~S is not a list." 'arglist))
+ (let ((whole (gensym "WHOLE"))
+ (environment (gensym "ENVIRONMENT")))
+ (multiple-value-bind (body local-decls)
+ (parse-defmacro arglist whole body name 'macrolet
+ :environment environment)
+ `(,name macro .
+ ,(compile-in-lexenv
+ nil
+ `(lambda (,whole ,environment)
+ ,@local-decls
+ (block ,name ,body))
+ ,lexenv))))))))
+
(defun funcall-in-macrolet-lexenv (definitions fun)
(%funcall-in-foomacrolet-lexenv
- (lambda (definition)
- (unless (list-of-length-at-least-p definition 2)
- (compiler-error
- "The list ~S is too short to be a legal local macro definition."
- definition))
- (destructuring-bind (name arglist &body body) definition
- (unless (symbolp name)
- (compiler-error "The local macro name ~S is not a symbol." name))
- (let ((whole (gensym "WHOLE"))
- (environment (gensym "ENVIRONMENT")))
- (multiple-value-bind (body local-decls)
- (parse-defmacro arglist whole body name 'macrolet
- :environment environment)
- `(,name macro .
- ,(compile nil
- `(lambda (,whole ,environment)
- ,@local-decls
- (block ,name ,body))))))))
- :functions
+ (macrolet-definitionize-fun :compile (make-restricted-lexenv *lexenv*))
+ :funs
definitions
fun))
"MACROLET ({(Name Lambda-List Form*)}*) Body-Form*
Evaluate the Body-Forms in an environment with the specified local macros
defined. Name is the local macro name, Lambda-List is the DEFMACRO style
- destructuring lambda list, and the Forms evaluate to the expansion. The
- Forms are evaluated in the null environment."
- (funcall-in-macrolet-lexenv definitions
- (lambda ()
- (ir1-translate-locally body start cont))))
+ destructuring lambda list, and the Forms evaluate to the expansion.."
+ (funcall-in-macrolet-lexenv
+ definitions
+ (lambda (&key funs)
+ (declare (ignore funs))
+ (ir1-translate-locally body start cont))))
-(defun funcall-in-symbol-macrolet-lexenv (definitions fun)
- (%funcall-in-foomacrolet-lexenv
- (lambda (definition)
- (unless (proper-list-of-length-p definition 2)
- (compiler-error "malformed symbol/expansion pair: ~S" definition))
+(defmacro symbol-macrolet-definitionize-fun (context)
+ (flet ((make-error-form (control &rest args)
+ (ecase context
+ (:compile `(compiler-error ,control ,@args))
+ (:eval `(error 'simple-program-error
+ :format-control ,control
+ :format-arguments (list ,@args))))))
+ `(lambda (definition)
+ (unless (proper-list-of-length-p definition 2)
+ ,(make-error-form "malformed symbol/expansion pair: ~S" 'definition))
(destructuring-bind (name expansion) definition
(unless (symbolp name)
- (compiler-error
- "The local symbol macro name ~S is not a symbol."
- name))
- `(,name . (MACRO . ,expansion))))
- :variables
+ ,(make-error-form
+ "The local symbol macro name ~S is not a symbol."
+ 'name))
+ (let ((kind (info :variable :kind name)))
+ (when (member kind '(:special :constant))
+ ,(make-error-form
+ "Attempt to bind a ~(~A~) variable with SYMBOL-MACROLET: ~S"
+ 'kind 'name)))
+ `(,name . (MACRO . ,expansion))))))1
+
+(defun funcall-in-symbol-macrolet-lexenv (definitions fun)
+ (%funcall-in-foomacrolet-lexenv
+ (symbol-macrolet-definitionize-fun :compile)
+ :vars
definitions
fun))
-
+
(def-ir1-translator symbol-macrolet ((macrobindings &body body) start cont)
#!+sb-doc
"SYMBOL-MACROLET ({(Name Expansion)}*) Decl* Form*
body, references to a Name will effectively be replaced with the Expansion."
(funcall-in-symbol-macrolet-lexenv
macrobindings
- (lambda ()
- (ir1-translate-locally body start cont))))
+ (lambda (&key vars)
+ (ir1-translate-locally body start cont :vars vars))))
;;; not really a special form, but..
(def-ir1-translator declare ((&rest stuff) start cont)
;;; VOP or %VOP.. -- WHN 2001-06-11
;;; FIXME: Look at doing this ^, it doesn't look too hard actually.
(def-ir1-translator %primitive ((name &rest args) start cont)
- (unless (symbolp name)
- (compiler-error "internal error: Primitive name ~S is not a symbol." name))
+ (declare (type symbol name))
(let* ((template (or (gethash name *backend-template-names*)
- (compiler-error
- "internal error: Primitive name ~A is not defined."
- name)))
+ (bug "undefined primitive ~A" name)))
(required (length (template-arg-types template)))
(info (template-info-arg-count template))
(min (+ required info))
(nargs (length args)))
(if (template-more-args-type template)
(when (< nargs min)
- (compiler-error "internal error: Primitive ~A was called ~
- with ~R argument~:P, ~
- but wants at least ~R."
- name
- nargs
- min))
+ (bug "Primitive ~A was called with ~R argument~:P, ~
+ but wants at least ~R."
+ name
+ nargs
+ min))
(unless (= nargs min)
- (compiler-error "internal error: Primitive ~A was called ~
- with ~R argument~:P, ~
- but wants exactly ~R."
- name
- nargs
- min)))
+ (bug "Primitive ~A was called with ~R argument~:P, ~
+ but wants exactly ~R."
+ name
+ nargs
+ min)))
(when (eq (template-result-types template) :conditional)
- (compiler-error
- "%PRIMITIVE was used with a conditional template."))
+ (bug "%PRIMITIVE was used with a conditional template."))
(when (template-more-results-type template)
- (compiler-error
- "%PRIMITIVE was used with an unknown values template."))
+ (bug "%PRIMITIVE was used with an unknown values template."))
(ir1-convert start
cont
;;; except that the value of NAME is passed to the compiler for use in
;;; creation of debug information for the resulting function.
;;;
-;;; Eventually we might use this for NAME values other than legal
-;;; function names, e.g.
+;;; NAME can be a legal function name or some arbitrary other thing.
+;;;
+;;; If NAME is a legal function name, then the caller should be
+;;; planning to set (FDEFINITION NAME) to the created function.
+;;; (Otherwise the debug names will be inconsistent and thus
+;;; unnecessarily confusing.)
+;;;
+;;; Arbitrary other things are appropriate for naming things which are
+;;; not the FDEFINITION of NAME. E.g.
;;; NAME = (:FLET FOO BAR)
;;; for the FLET function in
;;; (DEFUN BAR (X)
;;; (FLET ((FOO (Y) (+ X Y)))
;;; FOO))
;;; or
-;;; NAME = (:METHOD PRINT-OBJECT (STARSHIP T))
+;;; NAME = (:METHOD PRINT-OBJECT :AROUND (STARSHIP T))
;;; for the function used to implement
-;;; (DEFMETHOD PRINT-OBJECT ((SS STARSHIP) STREAM) ...).
-;;; However, as of this writing (while defining/implementing it in
-;;; sbcl-0.pre7.108) NAME is always a legal function name.
-;;;
-;;; If NAME is a legal function name, then the caller should be
-;;; planning to set (FDEFINITION NAME) to the created function.
-;;; (Otherwise the debug names will be inconsistent and thus
-;;; unnecessarily confusing.)
+;;; (DEFMETHOD PRINT-OBJECT :AROUND ((SS STARSHIP) STREAM) ...).
(def-ir1-translator named-lambda ((name &rest rest) start cont)
- (reference-leaf start
- cont
- (ir1-convert-lambda `(lambda ,@rest)
- :source-name name)))
+ (let* ((fun (if (legal-fun-name-p name)
+ (ir1-convert-lambda `(lambda ,@rest)
+ :source-name name)
+ (ir1-convert-lambda `(lambda ,@rest)
+ :debug-name name)))
+ (leaf (reference-leaf start cont fun)))
+ (when (legal-fun-name-p name)
+ (assert-global-function-definition-type name fun))
+ leaf))
\f
;;;; FUNCALL
;;; FUNCALL is implemented on %FUNCALL, which can only call functions
;;; (not symbols). %FUNCALL is used directly in some places where the
;;; call should always be open-coded even if FUNCALL is :NOTINLINE.
-(deftransform funcall ((function &rest args) * * :when :both)
+(deftransform funcall ((function &rest args) * *)
(let ((arg-names (make-gensym-list (length args))))
`(lambda (function ,@arg-names)
(%funcall ,(if (csubtypep (continuation-type function)
(def-ir1-translator %funcall ((function &rest args) start cont)
(let ((fun-cont (make-continuation)))
(ir1-convert start fun-cont function)
- (assert-continuation-type fun-cont (specifier-type 'function))
+ (assert-continuation-type fun-cont (specifier-type 'function)
+ (lexenv-policy *lexenv*))
(ir1-convert-combination-args fun-cont cont args)))
;;; This source transform exists to reduce the amount of work for the
(values nil t)))
(deftransform %coerce-callable-to-fun ((thing) (function) *
- :when :both
:important t)
"optimize away possible call to FDEFINITION at runtime"
'thing)
;;;; any pervasive declarations also affect the evaluation of the
;;;; arguments.)
-;;; Given a list of binding specifiers in the style of Let, return:
+;;; Given a list of binding specifiers in the style of LET, return:
;;; 1. The list of var structures for the variables bound.
;;; 2. The initial value form for each variable.
;;;
;;; The variable names are checked for legality and globally special
;;; variables are marked as such. Context is the name of the form, for
;;; error reporting purposes.
-(declaim (ftype (function (list symbol) (values list list list))
- extract-let-variables))
-(defun extract-let-variables (bindings context)
+(declaim (ftype (function (list symbol) (values list list))
+ extract-let-vars))
+(defun extract-let-vars (bindings context)
(collect ((vars)
(vals)
(names))
(cond ((atom spec)
(let ((var (get-var spec)))
(vars var)
- (names (cons spec var))
+ (names spec)
(vals nil)))
(t
(unless (proper-list-of-length-p spec 1 2)
(names name)
(vals (second spec)))))))
- (values (vars) (vals) (names))))
+ (values (vars) (vals))))
(def-ir1-translator let ((bindings &body body)
start cont)
During evaluation of the Forms, bind the Vars to the result of evaluating the
Value forms. The variables are bound in parallel after all of the Values are
evaluated."
- (multiple-value-bind (forms decls) (sb!sys:parse-body body nil)
- (multiple-value-bind (vars values) (extract-let-variables bindings 'let)
- (let* ((*lexenv* (process-decls decls vars nil cont))
- (fun-cont (make-continuation))
- (fun (ir1-convert-lambda-body
- forms vars :debug-name (debug-namify "LET ~S" bindings))))
- (reference-leaf start fun-cont fun)
- (ir1-convert-combination-args fun-cont cont values)))))
+ (multiple-value-bind (forms decls) (parse-body body nil)
+ (multiple-value-bind (vars values) (extract-let-vars bindings 'let)
+ (let ((fun-cont (make-continuation)))
+ (let* ((*lexenv* (process-decls decls vars nil cont))
+ (fun (ir1-convert-lambda-body
+ forms vars
+ :debug-name (debug-namify "LET ~S" bindings))))
+ (reference-leaf start fun-cont fun))
+ (ir1-convert-combination-args fun-cont cont values)))))
(def-ir1-translator let* ((bindings &body body)
start cont)
"LET* ({(Var [Value]) | Var}*) Declaration* Form*
Similar to LET, but the variables are bound sequentially, allowing each Value
form to reference any of the previous Vars."
- (multiple-value-bind (forms decls) (sb!sys:parse-body body nil)
- (multiple-value-bind (vars values) (extract-let-variables bindings 'let*)
+ (multiple-value-bind (forms decls) (parse-body body nil)
+ (multiple-value-bind (vars values) (extract-let-vars bindings 'let*)
(let ((*lexenv* (process-decls decls vars nil cont)))
(ir1-convert-aux-bindings start cont forms vars values)))))
;;; but we don't need to worry about that within an IR1 translator,
;;; since toplevel-formness is picked off by PROCESS-TOPLEVEL-FOO
;;; forms before we hit the IR1 transform level.
-(defun ir1-translate-locally (body start cont)
+(defun ir1-translate-locally (body start cont &key vars funs)
(declare (type list body) (type continuation start cont))
- (multiple-value-bind (forms decls) (sb!sys:parse-body body nil)
- (let ((*lexenv* (process-decls decls nil nil cont)))
+ (multiple-value-bind (forms decls) (parse-body body nil)
+ (let ((*lexenv* (process-decls decls vars funs cont)))
(ir1-convert-aux-bindings start cont forms nil nil))))
(def-ir1-translator locally ((&body body) start cont)
;;;
;;; The function names are checked for legality. CONTEXT is the name
;;; of the form, for error reporting.
-(declaim (ftype (function (list symbol) (values list list))
- extract-flet-variables))
-(defun extract-flet-variables (definitions context)
+(declaim (ftype (function (list symbol) (values list list)) extract-flet-vars))
+(defun extract-flet-vars (definitions context)
(collect ((names)
(defs))
(dolist (def definitions)
(let ((name (first def)))
(check-fun-name name)
(names name)
- (multiple-value-bind (forms decls) (sb!sys:parse-body (cddr def))
+ (multiple-value-bind (forms decls) (parse-body (cddr def))
(defs `(lambda ,(second def)
,@decls
(block ,(fun-name-block-name name)
Evaluate the Body-Forms with some local function definitions. The bindings
do not enclose the definitions; any use of Name in the Forms will refer to
the lexically apparent function definition in the enclosing environment."
- (multiple-value-bind (forms decls) (sb!sys:parse-body body nil)
+ (multiple-value-bind (forms decls) (parse-body body nil)
(multiple-value-bind (names defs)
- (extract-flet-variables definitions 'flet)
+ (extract-flet-vars definitions 'flet)
(let* ((fvars (mapcar (lambda (n d)
(ir1-convert-lambda d
:source-name n
names defs))
(*lexenv* (make-lexenv
:default (process-decls decls nil fvars cont)
- :functions (pairlis names fvars))))
+ :funs (pairlis names fvars))))
(ir1-convert-progn-body start cont forms)))))
(def-ir1-translator labels ((definitions &body body) start cont)
Evaluate the Body-Forms with some local function definitions. The bindings
enclose the new definitions, so the defined functions can call themselves or
each other."
- (multiple-value-bind (forms decls) (sb!sys:parse-body body nil)
+ (multiple-value-bind (forms decls) (parse-body body nil)
(multiple-value-bind (names defs)
- (extract-flet-variables definitions 'labels)
+ (extract-flet-vars definitions 'labels)
(let* (;; dummy LABELS functions, to be used as placeholders
;; during construction of real LABELS functions
(placeholder-funs (mapcar (lambda (name)
;; the real LABELS functions, compiled in a LEXENV which
;; includes the dummy LABELS functions
(real-funs
- (let ((*lexenv* (make-lexenv
- :functions placeholder-fenv)))
+ (let ((*lexenv* (make-lexenv :funs placeholder-fenv)))
(mapcar (lambda (name def)
(ir1-convert-lambda def
:source-name name
;; placeholder used earlier) so that if the
;; lexical environment is used for inline
;; expansion we'll get the right functions.
- :functions (pairlis names real-funs))))
+ :funs (pairlis names real-funs))))
(ir1-convert-progn-body start cont forms))))))
\f
;;;; the THE special operator, and friends
;;; We make this work by getting USE-CONTINUATION to do the unioning
;;; across COND branches. We can't do it here, since we don't know how
;;; many branches there are going to be.
-(defun do-the-stuff (type cont lexenv name)
+(defun ir1ize-the-or-values (type cont lexenv place)
(declare (type continuation cont) (type lexenv lexenv))
- (let* ((ctype (values-specifier-type type))
- (old-type (or (lexenv-find cont type-restrictions)
- *wild-type*))
- (intersects (values-types-equal-or-intersect old-type ctype))
- (int (values-type-intersection old-type ctype))
- (new (if intersects int old-type)))
+ (let* ((atype (if (typep type 'ctype) type (compiler-values-specifier-type type)))
+ (old-atype (or (lexenv-find cont type-restrictions)
+ *wild-type*))
+ (old-ctype (or (lexenv-find cont weakend-type-restrictions)
+ *wild-type*))
+ (intersects (values-types-equal-or-intersect old-atype atype))
+ (new-atype (values-type-intersection old-atype atype))
+ (new-ctype (values-type-intersection
+ old-ctype (maybe-weaken-check atype (lexenv-policy lexenv)))))
(when (null (find-uses cont))
- (setf (continuation-asserted-type cont) new))
+ (setf (continuation-asserted-type cont) new-atype)
+ (setf (continuation-type-to-check cont) new-ctype))
(when (and (not intersects)
+ ;; FIXME: Is it really right to look at *LEXENV* here,
+ ;; instead of looking at the LEXENV argument? Why?
(not (policy *lexenv*
(= inhibit-warnings 3)))) ;FIXME: really OK to suppress?
(compiler-warn
- "The type ~S in ~S declaration conflicts with an ~
- enclosing assertion:~% ~S"
- (type-specifier ctype)
- name
- (type-specifier old-type)))
- (make-lexenv :type-restrictions `((,cont . ,new))
+ "The type ~S ~A conflicts with an enclosing assertion:~% ~S"
+ (type-specifier atype)
+ place
+ (type-specifier old-atype)))
+ (make-lexenv :type-restrictions `((,cont . ,new-atype))
+ :weakend-type-restrictions `((,cont . ,new-ctype))
:default lexenv)))
;;; Assert that FORM evaluates to the specified type (which may be a
;;; this didn't seem to expand into an assertion, at least for ALIEN
;;; values. Check that SBCL doesn't have this problem.
(def-ir1-translator the ((type value) start cont)
- (let ((*lexenv* (do-the-stuff type cont *lexenv* 'the)))
+ (with-continuation-type-assertion (cont (compiler-values-specifier-type type)
+ "in THE declaration")
(ir1-convert start cont value)))
;;; This is like the THE special form, except that it believes
(def-ir1-translator truly-the ((type value) start cont)
#!+sb-doc
(declare (inline member))
- (let ((type (values-specifier-type type))
+ (let ((type (compiler-values-specifier-type type))
(old (find-uses cont)))
(ir1-convert start cont value)
(do-uses (use cont)
\f
;;;; SETQ
-;;; If there is a definition in LEXENV-VARIABLES, just set that,
-;;; otherwise look at the global information. If the name is for a
-;;; constant, then error out.
+;;; If there is a definition in LEXENV-VARS, just set that, otherwise
+;;; look at the global information. If the name is for a constant,
+;;; then error out.
(def-ir1-translator setq ((&whole source &rest things) start cont)
(let ((len (length things)))
(when (oddp len)
(compiler-error "odd number of args to SETQ: ~S" source))
(if (= len 2)
(let* ((name (first things))
- (leaf (or (lexenv-find name variables)
- (find-free-variable name))))
+ (leaf (or (lexenv-find name vars)
+ (find-free-var name))))
(etypecase leaf
(leaf
(when (constant-p leaf)
(compiler-style-warn
"~S is being set even though it was declared to be ignored."
name)))
- (set-variable start cont leaf (second things)))
+ (setq-var start cont leaf (second things)))
(cons
(aver (eq (car leaf) 'MACRO))
(ir1-convert start cont `(setf ,(cdr leaf) ,(second things))))
;;; This is kind of like REFERENCE-LEAF, but we generate a SET node.
;;; This should only need to be called in SETQ.
-(defun set-variable (start cont var value)
+(defun setq-var (start cont var value)
(declare (type continuation start cont) (type basic-var var))
(let ((dest (make-continuation)))
- (setf (continuation-asserted-type dest) (leaf-type var))
+ (assert-continuation-type dest (leaf-type var) (lexenv-policy *lexenv*))
(ir1-convert start dest value)
(let ((res (make-set :var var :value dest)))
(setf (continuation-dest dest) res)
;;; function and smashes it to a :CLEANUP function, as well as
;;; referencing it.
(def-ir1-translator %cleanup-fun ((name) start cont)
- (let ((fun (lexenv-find name functions)))
+ (let ((fun (lexenv-find name funs)))
(aver (lambda-p fun))
(setf (functional-kind fun) :cleanup)
(reference-leaf start cont fun)))
`(%coerce-callable-to-fun ,fun)))
(setf (continuation-dest fun-cont) node)
(assert-continuation-type fun-cont
- (specifier-type '(or function symbol)))
+ (specifier-type '(or function symbol))
+ (lexenv-policy *lexenv*))
(collect ((arg-conts))
(let ((this-start fun-cont))
(dolist (arg args)
(continuation-starts-block dummy-start)
(ir1-convert start dummy-start result)
- (substitute-continuation-uses cont dummy-start)
+ (with-continuation-type-assertion
+ ;; FIXME: policy
+ (cont (continuation-asserted-type dummy-start)
+ "of the first form")
+ (substitute-continuation-uses cont dummy-start))
(continuation-starts-block dummy-result)
(ir1-convert-progn-body dummy-start dummy-result forms)
(eq first 'original-source-start))
(return path)))))
-;;; Warn about incompatible or illegal definitions and add the macro
-;;; to the compiler environment.
-;;;
-;;; Someday we could check for macro arguments being incompatibly
-;;; redefined. Doing this right will involve finding the old macro
-;;; lambda-list and comparing it with the new one.
-(def-ir1-translator %defmacro ((qname qdef lambda-list doc) start cont
- :kind :function)
- (let (;; QNAME is typically a quoted name. I think the idea is to
- ;; let %DEFMACRO work as an ordinary function when
- ;; interpreting. Whatever the reason the quote is there, we
- ;; don't want it any more. -- WHN 19990603
- (name (eval qname))
- ;; QDEF should be a sharp-quoted definition. We don't want to
- ;; make a function of it just yet, so we just drop the
- ;; sharp-quote.
- (def (progn
- (aver (eq 'function (first qdef)))
- (aver (proper-list-of-length-p qdef 2))
- (second qdef))))
-
- (/show "doing IR1 translator for %DEFMACRO" name)
-
- (unless (symbolp name)
- (compiler-error "The macro name ~S is not a symbol." name))
-
- (ecase (info :function :kind name)
- ((nil))
- (:function
- (remhash name *free-funs*)
- (undefine-fun-name name)
- (compiler-warn
- "~S is being redefined as a macro when it was ~
- previously ~(~A~) to be a function."
- name
- (info :function :where-from name)))
- (:macro)
- (:special-form
- (compiler-error "The special form ~S can't be redefined as a macro."
- name)))
-
- (setf (info :function :kind name) :macro
- (info :function :where-from name) :defined
- (info :function :macro-function name) (coerce def 'function))
-
- (let* ((*current-path* (revert-source-path 'defmacro))
- (fun (ir1-convert-lambda def
- :debug-name (debug-namify "DEFMACRO ~S"
- name))))
- (setf (functional-arg-documentation fun) (eval lambda-list))
-
- (ir1-convert start cont `(%%defmacro ',name ,fun ,doc)))
-
- (when sb!xc:*compile-print*
- ;; FIXME: It would be nice to convert this, and the other places
- ;; which create compiler diagnostic output prefixed by
- ;; semicolons, to use some common utility which automatically
- ;; prefixes all its output with semicolons. (The addition of
- ;; semicolon prefixes was introduced ca. sbcl-0.6.8.10 as the
- ;; "MNA compiler message patch", and implemented by modifying a
- ;; bunch of output statements on a case-by-case basis, which
- ;; seems unnecessarily error-prone and unclear, scattering
- ;; implicit information about output style throughout the
- ;; system.) Starting by rewriting COMPILER-MUMBLE to add
- ;; semicolon prefixes would be a good start, and perhaps also:
- ;; * Add semicolon prefixes for "FOO assembled" messages emitted
- ;; when e.g. src/assembly/x86/assem-rtns.lisp is processed.
- ;; * At least some debugger output messages deserve semicolon
- ;; prefixes too:
- ;; ** restarts table
- ;; ** "Within the debugger, you can type HELP for help."
- (compiler-mumble "~&; converted ~S~%" name))))
-
(def-ir1-translator %define-compiler-macro ((name def lambda-list doc)
start cont
:kind :function)
(coerce def 'function))
(let* ((*current-path* (revert-source-path 'define-compiler-macro))
- (fun (ir1-convert-lambda def
+ (fun (ir1-convert-lambda def
:debug-name (debug-namify
"DEFINE-COMPILER-MACRO ~S"
name))))
projects / sbcl.git / blobdiff