;;;; that part of the condition system which can or should come early ;;;; (mostly macro-related) ;;;; This software is part of the SBCL system. See the README file for ;;;; more information. ;;;; ;;;; This software is derived from the CMU CL system, which was ;;;; written at Carnegie Mellon University and released into the ;;;; public domain. The software is in the public domain and is ;;;; provided with absolutely no warranty. See the COPYING and CREDITS ;;;; files for more information. (in-package "SB!CONDITIONS") ;;;; restarts ;;; a list of lists of restarts (defvar *restart-clusters* '()) ;;; An ALIST (condition . restarts) which records the restarts currently ;;; associated with Condition. (defvar *condition-restarts* ()) (defun compute-restarts (&optional condition) #!+sb-doc "Return a list of all the currently active restarts ordered from most recently established to less recently established. If Condition is specified, then only restarts associated with Condition (or with no condition) will be returned." (let ((associated ()) (other ())) (dolist (alist *condition-restarts*) (if (eq (car alist) condition) (setq associated (cdr alist)) (setq other (append (cdr alist) other)))) (collect ((res)) (dolist (restart-cluster *restart-clusters*) (dolist (restart restart-cluster) (when (and (or (not condition) (member restart associated) (not (member restart other))) (funcall (restart-test-function restart) condition)) (res restart)))) (res)))) (defstruct restart name function report-function interactive-function (test-function #'(lambda (cond) (declare (ignore cond)) t))) (def!method print-object ((restart restart) stream) (if *print-escape* (print-unreadable-object (restart stream :type t :identity t)) (restart-report restart stream))) #!+sb-doc (setf (fdocumentation 'restart-name 'function) "Returns the name of the given restart object.") (defun restart-report (restart stream) (funcall (or (restart-report-function restart) (let ((name (restart-name restart))) #'(lambda (stream) (if name (format stream "~S" name) (format stream "~S" restart))))) stream)) (defmacro with-condition-restarts (condition-form restarts-form &body body) #!+sb-doc "WITH-CONDITION-RESTARTS Condition-Form Restarts-Form Form* Evaluates the Forms in a dynamic environment where the restarts in the list Restarts-Form are associated with the condition returned by Condition-Form. This allows FIND-RESTART, etc., to recognize restarts that are not related to the error currently being debugged. See also RESTART-CASE." (let ((n-cond (gensym))) `(let ((*condition-restarts* (cons (let ((,n-cond ,condition-form)) (cons ,n-cond (append ,restarts-form (cdr (assoc ,n-cond *condition-restarts*))))) *condition-restarts*))) ,@body))) (defmacro restart-bind (bindings &body forms) #!+sb-doc "Executes forms in a dynamic context where the given restart bindings are in effect. Users probably want to use RESTART-CASE. When clauses contain the same restart name, FIND-RESTART will find the first such clause." `(let ((*restart-clusters* (cons (list ,@(mapcar #'(lambda (binding) (unless (or (car binding) (member :report-function binding :test #'eq)) (warn "Unnamed restart does not have a ~ report function: ~S" binding)) `(make-restart :name ',(car binding) :function ,(cadr binding) ,@(cddr binding))) bindings)) *restart-clusters*))) ,@forms)) (defun find-restart (name &optional condition) #!+sb-doc "Returns the first restart named name. If name is a restart, it is returned if it is currently active. If no such restart is found, nil is returned. It is an error to supply nil as a name. If Condition is specified and not NIL, then only restarts associated with that condition (or with no condition) will be returned." (find-if #'(lambda (x) (or (eq x name) (eq (restart-name x) name))) (compute-restarts condition))) (defun invoke-restart (restart &rest values) #!+sb-doc "Calls the function associated with the given restart, passing any given arguments. If the argument restart is not a restart or a currently active non-nil restart name, then a control-error is signalled." (let ((real-restart (find-restart restart))) (unless real-restart (error 'simple-control-error :format-control "Restart ~S is not active." :format-arguments (list restart))) (apply (restart-function real-restart) values))) (defun invoke-restart-interactively (restart) #!+sb-doc "Calls the function associated with the given restart, prompting for any necessary arguments. If the argument restart is not a restart or a currently active non-nil restart name, then a control-error is signalled." (let ((real-restart (find-restart restart))) (unless real-restart (error 'simple-control-error :format-control "Restart ~S is not active." :format-arguments (list restart))) (apply (restart-function real-restart) (let ((interactive-function (restart-interactive-function real-restart))) (if interactive-function (funcall interactive-function) '()))))) (eval-when (:compile-toplevel :load-toplevel :execute) ;;; Wrap the RESTART-CASE expression in a WITH-CONDITION-RESTARTS if ;;; appropriate. Gross, but it's what the book seems to say... (defun munge-restart-case-expression (expression data) (let ((exp (macroexpand expression))) (if (consp exp) (let* ((name (car exp)) (args (if (eq name 'cerror) (cddr exp) (cdr exp)))) (if (member name '(signal error cerror warn)) (once-only ((n-cond `(coerce-to-condition ,(first args) (list ,@(rest args)) ',(case name (warn 'simple-warning) (signal 'simple-condition) (t 'simple-error)) ',name))) `(with-condition-restarts ,n-cond (list ,@(mapcar #'(lambda (da) `(find-restart ',(nth 0 da))) data)) ,(if (eq name 'cerror) `(cerror ,(second expression) ,n-cond) `(,name ,n-cond)))) expression)) expression))) ) ; EVAL-WHEN ;;; FIXME: I did a fair amount of rearrangement of this code in order to ;;; get WITH-KEYWORD-PAIRS to work cleanly. This code should be tested.. (defmacro restart-case (expression &body clauses) #!+sb-doc "(RESTART-CASE form {(case-name arg-list {keyword value}* body)}*) The form is evaluated in a dynamic context where the clauses have special meanings as points to which control may be transferred (see INVOKE-RESTART). When clauses contain the same case-name, FIND-RESTART will find the first such clause. If Expression is a call to SIGNAL, ERROR, CERROR or WARN (or macroexpands into such) then the signalled condition will be associated with the new restarts." (flet ((transform-keywords (&key report interactive test) (let ((result '())) (when report (setq result (list* (if (stringp report) `#'(lambda (stream) (write-string ,report stream)) `#',report) :report-function result))) (when interactive (setq result (list* `#',interactive :interactive-function result))) (when test (setq result (list* `#',test :test-function result))) (nreverse result))) (parse-keyword-pairs (list keys) (do ((l list (cddr l)) (k '() (list* (cadr l) (car l) k))) ((or (null l) (not (member (car l) keys))) (values (nreverse k) l))))) (let ((block-tag (gensym)) (temp-var (gensym)) (data (macrolet (;; KLUDGE: This started as an old DEFMACRO ;; WITH-KEYWORD-PAIRS general utility, which was used ;; only in this one place in the code. It was translated ;; literally into this MACROLET in order to avoid some ;; cross-compilation bootstrap problems. It would almost ;; certainly be clearer, and it would certainly be more ;; concise, to do a more idiomatic translation, merging ;; this with the TRANSFORM-KEYWORDS logic above. ;; -- WHN 19990925 (with-keyword-pairs ((names expression) &body forms) (let ((temp (member '&rest names))) (unless (= (length temp) 2) (error "&REST keyword is ~:[missing~;misplaced~]." temp)) (let* ((key-vars (ldiff names temp)) (keywords (mapcar #'keywordicate key-vars)) (key-var (gensym)) (rest-var (cadr temp))) `(multiple-value-bind (,key-var ,rest-var) (parse-keyword-pairs ,expression ',keywords) (let ,(mapcar (lambda (var keyword) `(,var (getf ,key-var ,keyword))) key-vars keywords) ,@forms)))))) (mapcar (lambda (clause) (with-keyword-pairs ((report interactive test &rest forms) (cddr clause)) (list (car clause) ;name=0 (gensym) ;tag=1 (transform-keywords :report report ;keywords=2 :interactive interactive :test test) (cadr clause) ;bvl=3 forms))) ;body=4 clauses)))) `(block ,block-tag (let ((,temp-var nil)) (tagbody (restart-bind ,(mapcar #'(lambda (datum) (let ((name (nth 0 datum)) (tag (nth 1 datum)) (keys (nth 2 datum))) `(,name #'(lambda (&rest temp) (setq ,temp-var temp) (go ,tag)) ,@keys))) data) (return-from ,block-tag ,(munge-restart-case-expression expression data))) ,@(mapcan #'(lambda (datum) (let ((tag (nth 1 datum)) (bvl (nth 3 datum)) (body (nth 4 datum))) (list tag `(return-from ,block-tag (apply #'(lambda ,bvl ,@body) ,temp-var))))) data))))))) (defmacro with-simple-restart ((restart-name format-string &rest format-arguments) &body forms) #!+sb-doc "(WITH-SIMPLE-RESTART (restart-name format-string format-arguments) body) If restart-name is not invoked, then all values returned by forms are returned. If control is transferred to this restart, it immediately returns the values nil and t." `(restart-case ;; If there's just one body form, then don't use PROGN. This allows ;; RESTART-CASE to "see" calls to ERROR, etc. ,(if (= (length forms) 1) (car forms) `(progn ,@forms)) (,restart-name () :report (lambda (stream) (format stream ,format-string ,@format-arguments)) (values nil t)))) ;;;; HANDLER-BIND (defvar *handler-clusters* nil) (defmacro handler-bind (bindings &body forms) #!+sb-doc "(HANDLER-BIND ( {(type handler)}* ) body) Executes body in a dynamic context where the given handler bindings are in effect. Each handler must take the condition being signalled as an argument. The bindings are searched first to last in the event of a signalled condition." (let ((member-if (member-if (lambda (x) (not (proper-list-of-length-p x 2))) bindings))) (when member-if (error "ill-formed handler binding: ~S" (first member-if)))) `(let ((*handler-clusters* (cons (list ,@(mapcar #'(lambda (x) `(cons ',(car x) ,(cadr x))) bindings)) *handler-clusters*))) (multiple-value-prog1 ,@forms ;; Wait for any float exceptions #!+x86 (float-wait)))) ;;;; HANDLER-CASE and IGNORE-ERRORS (defmacro handler-case (form &rest cases) #!+sb-doc "(HANDLER-CASE form { (type ([var]) body) }* ) Executes form in a context with handlers established for the condition types. A peculiar property allows type to be :no-error. If such a clause occurs, and form returns normally, all its values are passed to this clause as if by MULTIPLE-VALUE-CALL. The :no-error clause accepts more than one var specification." (let ((no-error-clause (assoc ':no-error cases))) (if no-error-clause (let ((normal-return (make-symbol "normal-return")) (error-return (make-symbol "error-return"))) `(block ,error-return (multiple-value-call #'(lambda ,@(cdr no-error-clause)) (block ,normal-return (return-from ,error-return (handler-case (return-from ,normal-return ,form) ,@(remove no-error-clause cases))))))) (let ((var (gensym)) (outer-tag (gensym)) (inner-tag (gensym)) (tag-var (gensym)) (annotated-cases (mapcar #'(lambda (case) (cons (gensym) case)) cases))) `(let ((,outer-tag (cons nil nil)) (,inner-tag (cons nil nil)) ,var ,tag-var) ;; FIXME: should be (DECLARE (IGNORABLE ,VAR)) ,var ;ignoreable (catch ,outer-tag (catch ,inner-tag (throw ,outer-tag (handler-bind ,(mapcar #'(lambda (annotated-case) `(,(cadr annotated-case) #'(lambda (temp) ,(if (caddr annotated-case) `(setq ,var temp) '(declare (ignore temp))) (setf ,tag-var ',(car annotated-case)) (throw ,inner-tag nil)))) annotated-cases) ,form))) (case ,tag-var ,@(mapcar #'(lambda (annotated-case) (let ((body (cdddr annotated-case)) (varp (caddr annotated-case))) `(,(car annotated-case) ,@(if varp `((let ((,(car varp) ,var)) ,@body)) body)))) annotated-cases)))))))) (defmacro ignore-errors (&rest forms) #!+sb-doc "Executes forms after establishing a handler for all error conditions that returns from this form NIL and the condition signalled." `(handler-case (progn ,@forms) (error (condition) (values nil condition)))) ;;;; helper functions for restartable error handling which couldn't be defined ;;;; 'til now 'cause they use the RESTART-CASE macro (defun assert-error (assertion places datum &rest arguments) (let ((cond (if datum (sb!conditions::coerce-to-condition datum arguments 'simple-error 'error) (make-condition 'simple-error :format-control "The assertion ~S failed." :format-arguments (list assertion))))) (restart-case (error cond) (continue () :report (lambda (stream) (format stream "Retry assertion") (if places (format stream " with new value~P for ~{~S~^, ~}." (length places) places) (format stream "."))) nil)))) ;;; READ-EVALUATED-FORM is used as the interactive method for restart cases ;;; setup by the Common Lisp "casing" (e.g., CCASE and CTYPECASE) macros ;;; and by CHECK-TYPE. (defun read-evaluated-form () (format *query-io* "~&Type a form to be evaluated:~%") (list (eval (read *query-io*)))) (defun check-type-error (place place-value type type-string) (let ((cond (if type-string (make-condition 'simple-type-error :datum place :expected-type type :format-control "The value of ~S is ~S, which is not ~A." :format-arguments (list place place-value type-string)) (make-condition 'simple-type-error :datum place :expected-type type :format-control "The value of ~S is ~S, which is not of type ~S." :format-arguments (list place place-value type))))) (restart-case (error cond) (store-value (value) :report (lambda (stream) (format stream "Supply a new value for ~S." place)) :interactive read-evaluated-form value)))) (defun case-body-error (name keyform keyform-value expected-type keys) (restart-case (error 'sb!conditions::case-failure :name name :datum keyform-value :expected-type expected-type :possibilities keys) (store-value (value) :report (lambda (stream) (format stream "Supply a new value for ~S." keyform)) :interactive read-evaluated-form value)))