;;; In SBCL, as in CMU CL before it, the environment is represented
;;; with a structure that holds alists for the functional things,
-;;; variables, blocks, etc.
-;;; Except for SYMBOL-MACROLET, only the SB-C::LEXENV-FUNCTIONS slot
-;;; is relevant. It holds: Alist (Name . What), where What is either
-;;; a functional (a local function) or a list (MACRO . <function>) (a
-;;; local macro, with the specifier expander.) Note that Name may be a
-;;; (SETF <name>) function.
-;;; Accessors are defined below, eg (ENV-WALK-FUNCTION ENV).
+;;; variables, blocks, etc. Except for SYMBOL-MACROLET, only the
+;;; SB-C::LEXENV-FUNS slot is relevant. It holds: Alist (Name . What),
+;;; where What is either a functional (a local function) or a list
+;;; (MACRO . <function>) (a local macro, with the specifier expander.)
+;;; Note that Name may be a (SETF <name>) function. Accessors are
+;;; defined below, eg (ENV-WALK-FUNCTION ENV).
;;;
;;; If WITH-AUGMENTED-ENVIRONMENT is called from WALKER-ENVIRONMENT-BIND
;;; this code hides the WALKER version of an environment
;;; a list, which was not really an interpreted function.
;;; Instead this list was COERCEd to a #<FUNCTION ...>!
;;;
-;;; Instead, we now use a special sort of "function"-type for that information,
-;;; because the functions slot in SB-C::LEXENV is supposed to have a list of
-;;; <Name MACRO . #<function> elements.
-;;; So, now we hide our bits of interest in the walker-info slot in our new
-;;; BOGO-FUNCTION.
+;;; Instead, we now use a special sort of "function"-type for that
+;;; information, because the functions slot in SB-C::LEXENV is
+;;; supposed to have a list of <Name MACRO . #<function> elements.
+;;; So, now we hide our bits of interest in the walker-info slot in
+;;; our new BOGO-FUN.
;;;
;;; MACROEXPAND-1 is the only SBCL function that gets called with the
;;; constructed environment argument.
+(/show "walk.lisp 108")
+
(defmacro with-augmented-environment
((new-env old-env &key functions macros) &body body)
`(let ((,new-env (with-augmented-environment-internal ,old-env
,macros)))
,@body))
-(defstruct (bogo-function
- (:alternate-metaclass sb-kernel:funcallable-instance
- sb-kernel:funcallable-structure-class
- sb-kernel:make-funcallable-structure-class)
- (:type sb-kernel:funcallable-structure)
- (:copier nil))
- (walker-info (required-argument) :type list))
-
-(defun walker-info-to-bogo-function (x)
- (make-bogo-function :walker-info x))
+;;; a unique tag to show that we're the intended caller of BOGO-FUN
+(defvar *bogo-fun-magic-tag*
+ '(:bogo-fun-magic-tag))
-(defun bogo-function-to-walker-info (x)
- (bogo-function-walker-info x))
+;;; The interface of BOGO-FUNs (previously implemented as
+;;; FUNCALLABLE-INSTANCEs) is just these two operations, so we can do
+;;; them with ordinary closures.
+;;;
+;;; KLUDGE: BOGO-FUNs are sorta weird, and MNA and I have both hacked
+;;; on this code without quite figuring out what they're for. (He
+;;; changed them to work after some changes in the IR1 interpreter
+;;; made functions not be built lazily, and I changed them so that
+;;; they don't need FUNCALLABLE-INSTANCE stuff, so that the F-I stuff
+;;; can become less general.) There may be further simplifications or
+;;; clarifications which could be done. -- WHN 2001-10-19
+(defun walker-info-to-bogo-fun (walker-info)
+ (lambda (magic-tag &rest rest)
+ (aver (not rest)) ; else someone is using me in an unexpected way
+ (aver (eql magic-tag *bogo-fun-magic-tag*)) ; else ditto
+ walker-info))
+(defun bogo-fun-to-walker-info (bogo-fun)
+ (declare (type function bogo-fun))
+ (funcall bogo-fun *bogo-fun-magic-tag*))
-(defun with-augmented-environment-internal (env functions macros)
+(defun with-augmented-environment-internal (env funs macros)
;; Note: In order to record the correct function definition, we
;; would have to create an interpreted closure, but the
;; WITH-NEW-DEFINITION macro down below makes no distinction between
(let ((lexenv (sb-kernel::coerce-to-lexenv env)))
(sb-c::make-lexenv
:default lexenv
- :functions
- (append (mapcar (lambda (f)
- (cons (car f) (sb-c::make-functional :lexenv lexenv)))
- functions)
- (mapcar (lambda (m)
- (list* (car m)
- 'sb-c::macro
- (if (eq (car m) *key-to-walker-environment*)
- (walker-info-to-bogo-function (cadr m))
- (coerce (cadr m) 'function))))
- macros)))))
+ :funs (append (mapcar (lambda (f)
+ (cons (car f)
+ (sb-c::make-functional :lexenv lexenv)))
+ funs)
+ (mapcar (lambda (m)
+ (list* (car m)
+ 'sb-c::macro
+ (if (eq (car m)
+ *key-to-walker-environment*)
+ (walker-info-to-bogo-fun (cadr m))
+ (coerce (cadr m) 'function))))
+ macros)))))
(defun environment-function (env fn)
(when env
- (let ((entry (assoc fn (sb-c::lexenv-functions env) :test #'equal)))
+ (let ((entry (assoc fn (sb-c::lexenv-funs env) :test #'equal)))
(and entry
(sb-c::functional-p (cdr entry))
(cdr entry)))))
(defun environment-macro (env macro)
(when env
- (let ((entry (assoc macro (sb-c::lexenv-functions env) :test #'eq)))
+ (let ((entry (assoc macro (sb-c::lexenv-funs env) :test #'eq)))
(and entry
(eq (cadr entry) 'sb-c::macro)
(if (eq macro *key-to-walker-environment*)
- (values (bogo-function-to-walker-info (cddr entry)))
- (values (function-lambda-expression (cddr entry))))))))
+ (values (bogo-fun-to-walker-info (cddr entry)))
+ (values (function-lambda-expression (cddr entry))))))))
\f
;;;; other environment hacking, not so SBCL-specific as the
;;;; environment hacking in the previous section
(body (cdddr form)))
(walk-form-internal
`(let ()
- (declare (special ,@(mapcar #'(lambda (x) (if (listp x) (car x) x))
+ (declare (special ,@(mapcar (lambda (x) (if (listp x) (car x) x))
bindings)))
(flet ((.let-if-dummy. () ,@body))
(if ,test
(defun walk-multiple-value-setq (form context env)
(let ((vars (cadr form)))
- (if (some #'(lambda (var)
- (variable-symbol-macro-p var env))
+ (if (some (lambda (var)
+ (variable-symbol-macro-p var env))
vars)
- (let* ((temps (mapcar #'(lambda (var)
- (declare (ignore var))
- (gensym))
+ (let* ((temps (mapcar (lambda (var)
+ (declare (ignore var))
+ (gensym))
vars))
- (sets (mapcar #'(lambda (var temp) `(setq ,var ,temp))
+ (sets (mapcar (lambda (var temp) `(setq ,var ,temp))
vars
temps))
(expanded `(multiple-value-bind ,temps ,(caddr form)
(walked-body
(walk-declarations
body
- #'(lambda (real-body real-env)
- (setq walked-bindings
- (walk-bindings-1 bindings
- old-env
- new-env
- context
- nil))
- (walk-repeat-eval real-body real-env))
+ (lambda (real-body real-env)
+ (setq walked-bindings
+ (walk-bindings-1 bindings
+ old-env
+ new-env
+ context
+ nil))
+ (walk-repeat-eval real-body real-env))
new-env)))
(relist* form mvb walked-bindings mv-form walked-body))))
(walker-environment-bind
(new-env old-env
:lexical-variables
- (append (mapcar #'(lambda (binding)
- `(,(car binding)
- :macro . ,(cadr binding)))
+ (append (mapcar (lambda (binding)
+ `(,(car binding)
+ :macro . ,(cadr binding)))
bindings)
(env-lexical-variables old-env)))
(relist* form 'symbol-macrolet bindings