;;;;; -*- indent-tabs-mode: nil -*- ;;; ;;; swank-sbcl.lisp --- SLIME backend for SBCL. ;;; ;;; Created 2003, Daniel Barlow ;;; ;;; This code has been placed in the Public Domain. All warranties are ;;; disclaimed. ;;; Requires the SB-INTROSPECT contrib. ;;; Administrivia (defpackage swank/sbcl (:use cl swank/backend swank/source-path-parser swank/source-file-cache)) (in-package swank/sbcl) (eval-when (:compile-toplevel :load-toplevel :execute) (require 'sb-bsd-sockets) (require 'sb-introspect) (require 'sb-posix) (require 'sb-cltl2)) (declaim (optimize (debug 2) (sb-c::insert-step-conditions 0) (sb-c::insert-debug-catch 0))) ;;; backwards compability tests (eval-when (:compile-toplevel :load-toplevel :execute) ;; Generate a form suitable for testing for stepper support (0.9.17) ;; with #+. (defun sbcl-with-new-stepper-p () (with-symbol 'enable-stepping 'sb-impl)) ;; Ditto for weak hash-tables (defun sbcl-with-weak-hash-tables () (with-symbol 'hash-table-weakness 'sb-ext)) ;; And for xref support (1.0.1) (defun sbcl-with-xref-p () (with-symbol 'who-calls 'sb-introspect)) ;; ... for restart-frame support (1.0.2) (defun sbcl-with-restart-frame () (with-symbol 'frame-has-debug-tag-p 'sb-debug)) ;; ... for :setf :inverse info (1.1.17) (defun sbcl-with-setf-inverse-meta-info () (boolean-to-feature-expression ;; going through FIND-SYMBOL since META-INFO was renamed from ;; TYPE-INFO in 1.2.10. (let ((sym (find-symbol "META-INFO" "SB-C"))) (and sym (fboundp sym) (funcall sym :setf :inverse ())))))) ;;; swank-mop (import-swank-mop-symbols :sb-mop '(:slot-definition-documentation)) (defun swank-mop:slot-definition-documentation (slot) (sb-pcl::documentation slot t)) ;; stream support (defimplementation gray-package-name () "SB-GRAY") ;; Pretty printer calls this, apparently (defmethod sb-gray:stream-line-length ((s sb-gray:fundamental-character-input-stream)) nil) ;;; Connection info (defimplementation lisp-implementation-type-name () "sbcl") ;; Declare return type explicitly to shut up STYLE-WARNINGS about ;; %SAP-ALIEN in ENABLE-SIGIO-ON-FD below. (declaim (ftype (function () (values (signed-byte 32) &optional)) getpid)) (defimplementation getpid () (sb-posix:getpid)) ;;; UTF8 (defimplementation string-to-utf8 (string) (sb-ext:string-to-octets string :external-format :utf8)) (defimplementation utf8-to-string (octets) (sb-ext:octets-to-string octets :external-format :utf8)) ;;; TCP Server (defimplementation preferred-communication-style () (cond ;; fixme: when SBCL/win32 gains better select() support, remove ;; this. ((member :sb-thread *features*) :spawn) ((member :win32 *features*) nil) (t :fd-handler))) (defun resolve-hostname (name) (car (sb-bsd-sockets:host-ent-addresses (sb-bsd-sockets:get-host-by-name name)))) (defimplementation create-socket (host port &key backlog) (let ((socket (make-instance 'sb-bsd-sockets:inet-socket :type :stream :protocol :tcp))) (setf (sb-bsd-sockets:sockopt-reuse-address socket) t) (sb-bsd-sockets:socket-bind socket (resolve-hostname host) port) (sb-bsd-sockets:socket-listen socket (or backlog 5)) socket)) (defimplementation local-port (socket) (nth-value 1 (sb-bsd-sockets:socket-name socket))) (defimplementation close-socket (socket) (sb-sys:invalidate-descriptor (socket-fd socket)) (sb-bsd-sockets:socket-close socket)) (defimplementation accept-connection (socket &key external-format buffering timeout) (declare (ignore timeout)) (make-socket-io-stream (accept socket) external-format (ecase buffering ((t :full) :full) ((nil :none) :none) ((:line) :line)))) ;; The SIGIO stuff should probably be removed as it's unlikey that ;; anybody uses it. #-win32 (progn (defimplementation install-sigint-handler (function) (sb-sys:enable-interrupt sb-unix:sigint (lambda (&rest args) (declare (ignore args)) (sb-sys:invoke-interruption (lambda () (sb-sys:with-interrupts (funcall function))))))) (defvar *sigio-handlers* '() "List of (key . fn) pairs to be called on SIGIO.") (defun sigio-handler (signal code scp) (declare (ignore signal code scp)) (sb-sys:with-interrupts (mapc (lambda (handler) (funcall (the function (cdr handler)))) *sigio-handlers*))) (defun set-sigio-handler () (sb-sys:enable-interrupt sb-unix:sigio #'sigio-handler)) (defun enable-sigio-on-fd (fd) (sb-posix::fcntl fd sb-posix::f-setfl sb-posix::o-async) (sb-posix::fcntl fd sb-posix::f-setown (getpid)) (values)) (defimplementation add-sigio-handler (socket fn) (set-sigio-handler) (let ((fd (socket-fd socket))) (enable-sigio-on-fd fd) (push (cons fd fn) *sigio-handlers*))) (defimplementation remove-sigio-handlers (socket) (let ((fd (socket-fd socket))) (setf *sigio-handlers* (delete fd *sigio-handlers* :key #'car)) (sb-sys:invalidate-descriptor fd)) (close socket))) (defimplementation add-fd-handler (socket fun) (let ((fd (socket-fd socket)) (handler nil)) (labels ((add () (setq handler (sb-sys:add-fd-handler fd :input #'run))) (run (fd) (sb-sys:remove-fd-handler handler) ; prevent recursion (unwind-protect (funcall fun) (when (sb-unix:unix-fstat fd) ; still open? (add))))) (add)))) (defimplementation remove-fd-handlers (socket) (sb-sys:invalidate-descriptor (socket-fd socket))) (defimplementation socket-fd (socket) (etypecase socket (fixnum socket) (sb-bsd-sockets:socket (sb-bsd-sockets:socket-file-descriptor socket)) (file-stream (sb-sys:fd-stream-fd socket)))) (defimplementation command-line-args () sb-ext:*posix-argv*) (defimplementation dup (fd) (sb-posix:dup fd)) (defvar *wait-for-input-called*) (defimplementation wait-for-input (streams &optional timeout) (assert (member timeout '(nil t))) (when (boundp '*wait-for-input-called*) (setq *wait-for-input-called* t)) (let ((*wait-for-input-called* nil)) (loop (let ((ready (remove-if-not #'input-ready-p streams))) (when ready (return ready))) (when (check-slime-interrupts) (return :interrupt)) (when *wait-for-input-called* (return :interrupt)) (when timeout (return nil)) (sleep 0.1)))) (defun fd-stream-input-buffer-empty-p (stream) (let ((buffer (sb-impl::fd-stream-ibuf stream))) (or (not buffer) (= (sb-impl::buffer-head buffer) (sb-impl::buffer-tail buffer))))) #-win32 (defun input-ready-p (stream) (or (not (fd-stream-input-buffer-empty-p stream)) #+#.(swank/backend:with-symbol 'fd-stream-fd-type 'sb-impl) (eq :regular (sb-impl::fd-stream-fd-type stream)) (not (sb-impl::sysread-may-block-p stream)))) #+win32 (progn (defun input-ready-p (stream) (or (not (fd-stream-input-buffer-empty-p stream)) (handle-listen (sockint::fd->handle (sb-impl::fd-stream-fd stream))))) (sb-alien:define-alien-routine ("WSACreateEvent" wsa-create-event) sb-win32:handle) (sb-alien:define-alien-routine ("WSACloseEvent" wsa-close-event) sb-alien:int (event sb-win32:handle)) (defconstant +fd-read+ #.(ash 1 0)) (defconstant +fd-close+ #.(ash 1 5)) (sb-alien:define-alien-routine ("WSAEventSelect" wsa-event-select) sb-alien:int (fd sb-alien:int) (handle sb-win32:handle) (mask sb-alien:long)) (sb-alien:load-shared-object "kernel32.dll") (sb-alien:define-alien-routine ("WaitForSingleObjectEx" wait-for-single-object-ex) sb-alien:int (event sb-win32:handle) (milliseconds sb-alien:long) (alertable sb-alien:int)) ;; see SB-WIN32:HANDLE-LISTEN (defun handle-listen (handle) (sb-alien:with-alien ((avail sb-win32:dword) (buf (array char #.sb-win32::input-record-size))) (unless (zerop (sb-win32:peek-named-pipe handle nil 0 nil (sb-alien:alien-sap (sb-alien:addr avail)) nil)) (return-from handle-listen (plusp avail))) (unless (zerop (sb-win32:peek-console-input handle (sb-alien:alien-sap buf) sb-win32::input-record-size (sb-alien:alien-sap (sb-alien:addr avail)))) (return-from handle-listen (plusp avail)))) (let ((event (wsa-create-event))) (wsa-event-select handle event (logior +fd-read+ +fd-close+)) (let ((val (wait-for-single-object-ex event 0 0))) (wsa-close-event event) (unless (= val -1) (return-from handle-listen (zerop val))))) nil) ) (defvar *external-format-to-coding-system* '((:iso-8859-1 "latin-1" "latin-1-unix" "iso-latin-1-unix" "iso-8859-1" "iso-8859-1-unix") (:utf-8 "utf-8" "utf-8-unix") (:euc-jp "euc-jp" "euc-jp-unix") (:us-ascii "us-ascii" "us-ascii-unix"))) ;; C.f. R.M.Kreuter in <20536.1219412774@progn.net> on sbcl-general, ;; 2008-08-22. (defvar *physical-pathname-host* (pathname-host (user-homedir-pathname))) (defimplementation filename-to-pathname (filename) (sb-ext:parse-native-namestring filename *physical-pathname-host*)) (defimplementation find-external-format (coding-system) (car (rassoc-if (lambda (x) (member coding-system x :test #'equal)) *external-format-to-coding-system*))) (defimplementation set-default-directory (directory) (let ((directory (truename (merge-pathnames directory)))) (sb-posix:chdir directory) (setf *default-pathname-defaults* directory) (default-directory))) (defun make-socket-io-stream (socket external-format buffering) (let ((args `(,@() :output t :input t :element-type ,(if external-format 'character '(unsigned-byte 8)) :buffering ,buffering ,@(cond ((and external-format (sb-int:featurep :sb-unicode)) `(:external-format ,external-format)) (t '())) :serve-events ,(eq :fd-handler swank:*communication-style*) ;; SBCL < 1.0.42.43 doesn't support :SERVE-EVENTS ;; argument. :allow-other-keys t))) (apply #'sb-bsd-sockets:socket-make-stream socket args))) (defun accept (socket) "Like socket-accept, but retry on EAGAIN." (loop (handler-case (return (sb-bsd-sockets:socket-accept socket)) (sb-bsd-sockets:interrupted-error ())))) ;;;; Support for SBCL syntax ;;; SBCL's source code is riddled with #! reader macros. Also symbols ;;; containing `!' have special meaning. We have to work long and ;;; hard to be able to read the source. To deal with #! reader ;;; macros, we use a special readtable. The special symbols are ;;; converted by a condition handler. (defun feature-in-list-p (feature list) (etypecase feature (symbol (member feature list :test #'eq)) (cons (flet ((subfeature-in-list-p (subfeature) (feature-in-list-p subfeature list))) ;; Don't use ECASE since SBCL also has :host-feature, ;; don't need to handle it or anything else appearing in ;; the future or in erronous code. (case (first feature) (:or (some #'subfeature-in-list-p (rest feature))) (:and (every #'subfeature-in-list-p (rest feature))) (:not (destructuring-bind (e) (cdr feature) (not (subfeature-in-list-p e))))))))) (defun shebang-reader (stream sub-character infix-parameter) (declare (ignore sub-character)) (when infix-parameter (error "illegal read syntax: #~D!" infix-parameter)) (let ((next-char (read-char stream))) (unless (find next-char "+-") (error "illegal read syntax: #!~C" next-char)) ;; When test is not satisfied ;; FIXME: clearer if order of NOT-P and (NOT NOT-P) were reversed? then ;; would become "unless test is satisfied".. (when (let* ((*package* (find-package "KEYWORD")) (*read-suppress* nil) (not-p (char= next-char #\-)) (feature (read stream))) (if (feature-in-list-p feature *features*) not-p (not not-p))) ;; Read (and discard) a form from input. (let ((*read-suppress* t)) (read stream t nil t)))) (values)) (defvar *shebang-readtable* (let ((*readtable* (copy-readtable nil))) (set-dispatch-macro-character #\# #\! (lambda (s c n) (shebang-reader s c n)) *readtable*) *readtable*)) (defun shebang-readtable () *shebang-readtable*) (defun sbcl-package-p (package) (let ((name (package-name package))) (eql (mismatch "SB-" name) 3))) (defun sbcl-source-file-p (filename) (when filename (loop for (nil pattern) in (logical-pathname-translations "SYS") thereis (pathname-match-p filename pattern)))) (defun guess-readtable-for-filename (filename) (if (sbcl-source-file-p filename) (shebang-readtable) *readtable*)) (defvar *debootstrap-packages* t) (defun call-with-debootstrapping (fun) (handler-bind ((sb-int:bootstrap-package-not-found #'sb-int:debootstrap-package)) (funcall fun))) (defmacro with-debootstrapping (&body body) `(call-with-debootstrapping (lambda () ,@body))) (defimplementation call-with-syntax-hooks (fn) (cond ((and *debootstrap-packages* (sbcl-package-p *package*)) (with-debootstrapping (funcall fn))) (t (funcall fn)))) (defimplementation default-readtable-alist () (let ((readtable (shebang-readtable))) (loop for p in (remove-if-not #'sbcl-package-p (list-all-packages)) collect (cons (package-name p) readtable)))) ;;; Packages #+#.(swank/backend:with-symbol 'package-local-nicknames 'sb-ext) (defimplementation package-local-nicknames (package) (sb-ext:package-local-nicknames package)) ;;; Utilities #+#.(swank/backend:with-symbol 'function-lambda-list 'sb-introspect) (defimplementation arglist (fname) (sb-introspect:function-lambda-list fname)) #-#.(swank/backend:with-symbol 'function-lambda-list 'sb-introspect) (defimplementation arglist (fname) (sb-introspect:function-arglist fname)) (defimplementation function-name (f) (check-type f function) (sb-impl::%fun-name f)) (defmethod declaration-arglist ((decl-identifier (eql 'optimize))) (flet ((ensure-list (thing) (if (listp thing) thing (list thing)))) (let* ((flags (sb-cltl2:declaration-information decl-identifier))) (if flags ;; Symbols aren't printed with package qualifiers, but the ;; FLAGS would have to be fully qualified when used inside a ;; declaration. So we strip those as long as there's no ;; better way. (FIXME) `(&any ,@(remove-if-not #'(lambda (qualifier) (find-symbol (symbol-name (first qualifier)) :cl)) flags :key #'ensure-list)) (call-next-method))))) #+#.(swank/backend:with-symbol 'deftype-lambda-list 'sb-introspect) (defmethod type-specifier-arglist :around (typespec-operator) (multiple-value-bind (arglist foundp) (sb-introspect:deftype-lambda-list typespec-operator) (if foundp arglist (call-next-method)))) (defimplementation type-specifier-p (symbol) (or (sb-ext:valid-type-specifier-p symbol) (not (eq (type-specifier-arglist symbol) :not-available)))) (defvar *buffer-name* nil) (defvar *buffer-tmpfile* nil) (defvar *buffer-offset*) (defvar *buffer-substring* nil) (defvar *previous-compiler-condition* nil "Used to detect duplicates.") (defun handle-notification-condition (condition) "Handle a condition caused by a compiler warning. This traps all compiler conditions at a lower-level than using C:*COMPILER-NOTIFICATION-FUNCTION*. The advantage is that we get to craft our own error messages, which can omit a lot of redundant information." (unless (or (eq condition *previous-compiler-condition*)) ;; First resignal warnings, so that outer handlers -- which may choose to ;; muffle this -- get a chance to run. (when (typep condition 'warning) (signal condition)) (setq *previous-compiler-condition* condition) (signal-compiler-condition (real-condition condition) (sb-c::find-error-context nil)))) (defun signal-compiler-condition (condition context) (signal 'compiler-condition :original-condition condition :severity (etypecase condition (sb-ext:compiler-note :note) (sb-c:compiler-error :error) (reader-error :read-error) (error :error) #+#.(swank/backend:with-symbol redefinition-warning sb-kernel) (sb-kernel:redefinition-warning :redefinition) (style-warning :style-warning) (warning :warning)) :references (condition-references condition) :message (brief-compiler-message-for-emacs condition) :source-context (compiler-error-context context) :location (compiler-note-location condition context))) (defun real-condition (condition) "Return the encapsulated condition or CONDITION itself." (typecase condition (sb-int:encapsulated-condition (sb-int:encapsulated-condition condition)) (t condition))) (defun condition-references (condition) (if (typep condition 'sb-int:reference-condition) (externalize-reference (sb-int:reference-condition-references condition)))) (defun compiler-note-location (condition context) (flet ((bailout () (return-from compiler-note-location (make-error-location "No error location available")))) (cond (context (locate-compiler-note (sb-c::compiler-error-context-file-name context) (compiler-source-path context) (sb-c::compiler-error-context-original-source context))) ((typep condition 'reader-error) (let* ((stream (stream-error-stream condition)) (file (pathname stream))) (unless (open-stream-p stream) (bailout)) (if (compiling-from-buffer-p file) ;; The stream position for e.g. "comma not inside ;; backquote" is at the character following the ;; comma, :offset is 0-based, hence the 1-. (make-location (list :buffer *buffer-name*) (list :offset *buffer-offset* (1- (file-position stream)))) (progn (assert (compiling-from-file-p file)) ;; No 1- because :position is 1-based. (make-location (list :file (namestring file)) (list :position (file-position stream))))))) (t (bailout))))) (defun compiling-from-buffer-p (filename) (and *buffer-name* ;; The following is to trigger COMPILING-FROM-GENERATED-CODE-P ;; in LOCATE-COMPILER-NOTE, and allows handling nested ;; compilation from eg. hitting C-C on (eval-when ... (require ..))). ;; ;; PROBE-FILE to handle tempfile directory being a symlink. (pathnamep filename) (let ((true1 (probe-file filename)) (true2 (probe-file *buffer-tmpfile*))) (and true1 (equal true1 true2))))) (defun compiling-from-file-p (filename) (and (pathnamep filename) (or (null *buffer-name*) (null *buffer-tmpfile*) (let ((true1 (probe-file filename)) (true2 (probe-file *buffer-tmpfile*))) (not (and true1 (equal true1 true2))))))) (defun compiling-from-generated-code-p (filename source) (and (eq filename :lisp) (stringp source))) (defun locate-compiler-note (file source-path source) (cond ((compiling-from-buffer-p file) (make-location (list :buffer *buffer-name*) (list :offset *buffer-offset* (source-path-string-position source-path *buffer-substring*)))) ((compiling-from-file-p file) (let ((position (source-path-file-position source-path file))) (make-location (list :file (namestring file)) (list :position (and position (1+ position)))))) ((compiling-from-generated-code-p file source) (make-location (list :source-form source) (list :position 1))) (t (error "unhandled case in compiler note ~S ~S ~S" file source-path source)))) (defun brief-compiler-message-for-emacs (condition) "Briefly describe a compiler error for Emacs. When Emacs presents the message it already has the source popped up and the source form highlighted. This makes much of the information in the error-context redundant." (let ((sb-int:*print-condition-references* nil)) (princ-to-string condition))) (defun compiler-error-context (error-context) "Describe a compiler error for Emacs including context information." (declare (type (or sb-c::compiler-error-context null) error-context)) (multiple-value-bind (enclosing source) (if error-context (values (sb-c::compiler-error-context-enclosing-source error-context) (sb-c::compiler-error-context-source error-context))) (and (or enclosing source) (format nil "~@[--> ~{~<~%--> ~1:;~A~> ~}~%~]~@[~{==>~%~A~%~}~]" enclosing source)))) (defun compiler-source-path (context) "Return the source-path for the current compiler error. Returns NIL if this cannot be determined by examining internal compiler state." (cond ((sb-c::node-p context) (reverse (sb-c::source-path-original-source (sb-c::node-source-path context)))) ((sb-c::compiler-error-context-p context) (reverse (sb-c::compiler-error-context-original-source-path context))))) (defimplementation call-with-compilation-hooks (function) (declare (type function function)) (handler-bind ;; N.B. Even though these handlers are called HANDLE-FOO they ;; actually decline, i.e. the signalling of the original ;; condition continues upward. ((sb-c:fatal-compiler-error #'handle-notification-condition) (sb-c:compiler-error #'handle-notification-condition) (sb-ext:compiler-note #'handle-notification-condition) (error #'handle-notification-condition) (warning #'handle-notification-condition)) (funcall function))) ;;; HACK: SBCL 1.2.12 shipped with a bug where ;;; SB-EXT:RESTRICT-COMPILER-POLICY would signal an error when there ;;; were no policy restrictions in place. This workaround ensures the ;;; existence of at least one dummy restriction. (handler-case (sb-ext:restrict-compiler-policy) (error () (sb-ext:restrict-compiler-policy 'debug))) (defun compiler-policy (qualities) "Return compiler policy qualities present in the QUALITIES alist. QUALITIES is an alist with (quality . value)" #+#.(swank/backend:with-symbol 'restrict-compiler-policy 'sb-ext) (loop with policy = (sb-ext:restrict-compiler-policy) for (quality) in qualities collect (cons quality (or (cdr (assoc quality policy)) 0)))) (defun (setf compiler-policy) (policy) (declare (ignorable policy)) #+#.(swank/backend:with-symbol 'restrict-compiler-policy 'sb-ext) (loop for (qual . value) in policy do (sb-ext:restrict-compiler-policy qual value))) (defmacro with-compiler-policy (policy &body body) (let ((current-policy (gensym))) `(let ((,current-policy (compiler-policy ,policy))) (setf (compiler-policy) ,policy) (unwind-protect (progn ,@body) (setf (compiler-policy) ,current-policy))))) (defimplementation swank-compile-file (input-file output-file load-p external-format &key policy) (multiple-value-bind (output-file warnings-p failure-p) (with-compiler-policy policy (with-compilation-hooks () (compile-file input-file :output-file output-file :external-format external-format))) (values output-file warnings-p (or failure-p (when load-p ;; Cache the latest source file for definition-finding. (source-cache-get input-file (file-write-date input-file)) (not (load output-file))))))) ;;;; compile-string ;;; We copy the string to a temporary file in order to get adequate ;;; semantics for :COMPILE-TOPLEVEL and :LOAD-TOPLEVEL EVAL-WHEN forms ;;; which the previous approach using ;;; (compile nil `(lambda () ,(read-from-string string))) ;;; did not provide. (locally (declare (sb-ext:muffle-conditions sb-ext:compiler-note)) (sb-alien:define-alien-routine (#-win32 "tempnam" #+win32 "_tempnam" tempnam) sb-alien:c-string (dir sb-alien:c-string) (prefix sb-alien:c-string)) ) (defun temp-file-name () "Return a temporary file name to compile strings into." (tempnam nil nil)) (defvar *trap-load-time-warnings* t) (defimplementation swank-compile-string (string &key buffer position filename policy) (let ((*buffer-name* buffer) (*buffer-offset* position) (*buffer-substring* string) (*buffer-tmpfile* (temp-file-name))) (labels ((load-it (filename) (cond (*trap-load-time-warnings* (with-compilation-hooks () (load filename))) (t (load filename)))) (cf () (with-compiler-policy policy (with-compilation-unit (:source-plist (list :emacs-buffer buffer :emacs-filename filename :emacs-package (package-name *package*) :emacs-position position :emacs-string string) :source-namestring filename :allow-other-keys t) (compile-file *buffer-tmpfile* :external-format :utf-8))))) (with-open-file (s *buffer-tmpfile* :direction :output :if-exists :error :external-format :utf-8) (write-string string s)) (unwind-protect (multiple-value-bind (output-file warningsp failurep) (with-compilation-hooks () (cf)) (declare (ignore warningsp)) (when output-file (load-it output-file)) (not failurep)) (ignore-errors (delete-file *buffer-tmpfile*) (delete-file (compile-file-pathname *buffer-tmpfile*))))))) ;;;; Definitions (defparameter *definition-types* '(:variable defvar :constant defconstant :type deftype :symbol-macro define-symbol-macro :macro defmacro :compiler-macro define-compiler-macro :function defun :generic-function defgeneric :method defmethod :setf-expander define-setf-expander :structure defstruct :condition define-condition :class defclass :method-combination define-method-combination :package defpackage :transform :deftransform :optimizer :defoptimizer :vop :define-vop :source-transform :define-source-transform :ir1-convert :def-ir1-translator :declaration declaim :alien-type :define-alien-type) "Map SB-INTROSPECT definition type names to Slime-friendly forms") (defun definition-specifier (type) "Return a pretty specifier for NAME representing a definition of type TYPE." (getf *definition-types* type)) (defun make-dspec (type name source-location) (list* (definition-specifier type) name (sb-introspect::definition-source-description source-location))) (defimplementation find-definitions (name) (loop for type in *definition-types* by #'cddr for defsrcs = (sb-introspect:find-definition-sources-by-name name type) append (loop for defsrc in defsrcs collect (list (make-dspec type name defsrc) (converting-errors-to-error-location (definition-source-for-emacs defsrc type name)))))) (defimplementation find-source-location (obj) (flet ((general-type-of (obj) (typecase obj (method :method) (generic-function :generic-function) (function :function) (structure-class :structure-class) (class :class) (method-combination :method-combination) (package :package) (condition :condition) (structure-object :structure-object) (standard-object :standard-object) (t :thing))) (to-string (obj) (typecase obj ;; Packages are possibly named entities. (package (princ-to-string obj)) ((or structure-object standard-object condition) (with-output-to-string (s) (print-unreadable-object (obj s :type t :identity t)))) (t (princ-to-string obj))))) (converting-errors-to-error-location (let ((defsrc (sb-introspect:find-definition-source obj))) (definition-source-for-emacs defsrc (general-type-of obj) (to-string obj)))))) (defmacro with-definition-source ((&rest names) obj &body body) "Like with-slots but works only for structs." (flet ((reader (slot) ;; Use read-from-string instead of intern so that ;; conc-name can be a string such as ext:struct- and not ;; cause errors and not force interning ext::struct- (read-from-string (concatenate 'string "sb-introspect:definition-source-" (string slot))))) (let ((tmp (gensym "OO-"))) ` (let ((,tmp ,obj)) (symbol-macrolet ,(loop for name in names collect (typecase name (symbol `(,name (,(reader name) ,tmp))) (cons `(,(first name) (,(reader (second name)) ,tmp))) (t (error "Malformed syntax in WITH-STRUCT: ~A" name)))) ,@body))))) (defun categorize-definition-source (definition-source) (with-definition-source (pathname form-path character-offset plist) definition-source (let ((file-p (and pathname (probe-file pathname) (or form-path character-offset)))) (cond ((and (getf plist :emacs-buffer) file-p) :buffer-and-file) ((getf plist :emacs-buffer) :buffer) (file-p :file) (pathname :file-without-position) (t :invalid))))) #+#.(swank/backend:with-symbol 'definition-source-form-number 'sb-introspect) (defun form-number-position (definition-source stream) (let* ((tlf-number (car (sb-introspect:definition-source-form-path definition-source))) (form-number (sb-introspect:definition-source-form-number definition-source))) (multiple-value-bind (tlf pos-map) (read-source-form tlf-number stream) (let* ((path-table (sb-di::form-number-translations tlf 0)) (path (cond ((<= (length path-table) form-number) (warn "inconsistent form-number-translations") (list 0)) (t (reverse (cdr (aref path-table form-number))))))) (source-path-source-position path tlf pos-map))))) #+#.(swank/backend:with-symbol 'definition-source-form-number 'sb-introspect) (defun file-form-number-position (definition-source) (let* ((code-date (sb-introspect:definition-source-file-write-date definition-source)) (filename (sb-introspect:definition-source-pathname definition-source)) (*readtable* (guess-readtable-for-filename filename)) (source-code (get-source-code filename code-date))) (with-debootstrapping (with-input-from-string (s source-code) (form-number-position definition-source s))))) #+#.(swank/backend:with-symbol 'definition-source-form-number 'sb-introspect) (defun string-form-number-position (definition-source string) (with-input-from-string (s string) (form-number-position definition-source s))) (defun definition-source-buffer-location (definition-source) (with-definition-source (form-path character-offset plist) definition-source (destructuring-bind (&key emacs-buffer emacs-position emacs-directory emacs-string &allow-other-keys) plist (let ((*readtable* (guess-readtable-for-filename emacs-directory)) start end) (with-debootstrapping (or (and form-path (or #+#.(swank/backend:with-symbol 'definition-source-form-number 'sb-introspect) (setf (values start end) (and (sb-introspect:definition-source-form-number definition-source) (string-form-number-position definition-source emacs-string))) (setf (values start end) (source-path-string-position form-path emacs-string)))) (setf start character-offset end most-positive-fixnum))) (make-location `(:buffer ,emacs-buffer) `(:offset ,emacs-position ,start) `(:snippet ,(subseq emacs-string start (min end (+ start *source-snippet-size*))))))))) (defun definition-source-file-location (definition-source) (with-definition-source (pathname form-path character-offset plist file-write-date) definition-source (let* ((namestring (namestring (translate-logical-pathname pathname))) (pos (or (and form-path (or #+#.(swank/backend:with-symbol 'definition-source-form-number 'sb-introspect) (and (sb-introspect:definition-source-form-number definition-source) (ignore-errors (file-form-number-position definition-source))) (ignore-errors (source-file-position namestring file-write-date form-path)))) character-offset)) (snippet (source-hint-snippet namestring file-write-date pos))) (make-location `(:file ,namestring) ;; /file positions/ in Common Lisp start from ;; 0, buffer positions in Emacs start from 1. `(:position ,(1+ pos)) `(:snippet ,snippet))))) (defun definition-source-buffer-and-file-location (definition-source) (let ((buffer (definition-source-buffer-location definition-source))) (make-location (list :buffer-and-file (cadr (location-buffer buffer)) (namestring (sb-introspect:definition-source-pathname definition-source))) (location-position buffer) (location-hints buffer)))) (defun definition-source-for-emacs (definition-source type name) (with-definition-source (pathname form-path character-offset plist file-write-date) definition-source (ecase (categorize-definition-source definition-source) (:buffer-and-file (definition-source-buffer-and-file-location definition-source)) (:buffer (definition-source-buffer-location definition-source)) (:file (definition-source-file-location definition-source)) (:file-without-position (make-location `(:file ,(namestring (translate-logical-pathname pathname))) '(:position 1) (when (eql type :function) `(:snippet ,(format nil "(defun ~a " (symbol-name name)))))) (:invalid (error "DEFINITION-SOURCE of ~(~A~) ~A did not contain ~ meaningful information." type name))))) (defun source-file-position (filename write-date form-path) (let ((source (get-source-code filename write-date)) (*readtable* (guess-readtable-for-filename filename))) (with-debootstrapping (source-path-string-position form-path source)))) (defun source-hint-snippet (filename write-date position) (read-snippet-from-string (get-source-code filename write-date) position)) (defun function-source-location (function &optional name) (declare (type function function)) (definition-source-for-emacs (sb-introspect:find-definition-source function) :function (or name (function-name function)))) (defun setf-expander (symbol) (or #+#.(swank/sbcl::sbcl-with-setf-inverse-meta-info) (sb-int:info :setf :inverse symbol) (sb-int:info :setf :expander symbol))) (defimplementation describe-symbol-for-emacs (symbol) "Return a plist describing SYMBOL. Return NIL if the symbol is unbound." (let ((result '())) (flet ((doc (kind) (or (documentation symbol kind) :not-documented)) (maybe-push (property value) (when value (setf result (list* property value result))))) (maybe-push :variable (multiple-value-bind (kind recorded-p) (sb-int:info :variable :kind symbol) (declare (ignore kind)) (if (or (boundp symbol) recorded-p) (doc 'variable)))) (when (fboundp symbol) (maybe-push (cond ((macro-function symbol) :macro) ((special-operator-p symbol) :special-operator) ((typep (fdefinition symbol) 'generic-function) :generic-function) (t :function)) (doc 'function))) (maybe-push :setf (and (setf-expander symbol) (doc 'setf))) (maybe-push :type (if (sb-int:info :type :kind symbol) (doc 'type))) result))) (defimplementation describe-definition (symbol type) (case type (:variable (describe symbol)) (:function (describe (symbol-function symbol))) (:setf (describe (setf-expander symbol))) (:class (describe (find-class symbol))) (:type (describe (sb-kernel:values-specifier-type symbol))))) #+#.(swank/sbcl::sbcl-with-xref-p) (progn (defmacro defxref (name &optional fn-name) `(defimplementation ,name (what) (sanitize-xrefs (mapcar #'source-location-for-xref-data (,(find-symbol (symbol-name (if fn-name fn-name name)) "SB-INTROSPECT") what))))) (defxref who-calls) (defxref who-binds) (defxref who-sets) (defxref who-references) (defxref who-macroexpands) #+#.(swank/backend:with-symbol 'who-specializes-directly 'sb-introspect) (defxref who-specializes who-specializes-directly)) (defun source-location-for-xref-data (xref-data) (destructuring-bind (name . defsrc) xref-data (list name (converting-errors-to-error-location (definition-source-for-emacs defsrc 'function name))))) (defimplementation list-callers (symbol) (let ((fn (fdefinition symbol))) (sanitize-xrefs (mapcar #'function-dspec (sb-introspect:find-function-callers fn))))) (defimplementation list-callees (symbol) (let ((fn (fdefinition symbol))) (sanitize-xrefs (mapcar #'function-dspec (sb-introspect:find-function-callees fn))))) (defun sanitize-xrefs (xrefs) (remove-duplicates (remove-if (lambda (f) (member f (ignored-xref-function-names))) (loop for entry in xrefs for name = (car entry) collect (if (and (consp name) (member (car name) '(sb-pcl::fast-method sb-pcl::slow-method sb-pcl::method))) (cons (cons 'defmethod (cdr name)) (cdr entry)) entry)) :key #'car) :test (lambda (a b) (and (eq (first a) (first b)) (equal (second a) (second b)))))) (defun ignored-xref-function-names () #-#.(swank/sbcl::sbcl-with-new-stepper-p) '(nil sb-c::step-form sb-c::step-values) #+#.(swank/sbcl::sbcl-with-new-stepper-p) '(nil)) (defun function-dspec (fn) "Describe where the function FN was defined. Return a list of the form (NAME LOCATION)." (let ((name (function-name fn))) (list name (converting-errors-to-error-location (function-source-location fn name))))) ;;; macroexpansion (defimplementation macroexpand-all (form &optional env) (sb-cltl2:macroexpand-all form env)) (defimplementation collect-macro-forms (form &optional environment) (let ((macro-forms '()) (compiler-macro-forms '()) (function-quoted-forms '())) (sb-walker:walk-form form environment (lambda (form context environment) (declare (ignore context)) (when (and (consp form) (symbolp (car form))) (cond ((eq (car form) 'function) (push (cadr form) function-quoted-forms)) ((member form function-quoted-forms) nil) ((macro-function (car form) environment) (push form macro-forms)) ((not (eq form (compiler-macroexpand-1 form environment))) (push form compiler-macro-forms)))) form)) (values macro-forms compiler-macro-forms))) ;;; Debugging ;;; Notice that SB-EXT:*INVOKE-DEBUGGER-HOOK* is slightly stronger ;;; than just a hook into BREAK. In particular, it'll make ;;; (LET ((*DEBUGGER-HOOK* NIL)) ..error..) drop into SLDB rather ;;; than the native debugger. That should probably be considered a ;;; feature. (defun make-invoke-debugger-hook (hook) (when hook #'(sb-int:named-lambda swank-invoke-debugger-hook (condition old-hook) (if *debugger-hook* nil ; decline, *DEBUGGER-HOOK* will be tried next. (funcall hook condition old-hook))))) (defun set-break-hook (hook) (setq sb-ext:*invoke-debugger-hook* (make-invoke-debugger-hook hook))) (defun call-with-break-hook (hook continuation) (let ((sb-ext:*invoke-debugger-hook* (make-invoke-debugger-hook hook))) (funcall continuation))) (defimplementation install-debugger-globally (function) (setq *debugger-hook* function) (set-break-hook function)) (defimplementation condition-extras (condition) (cond #+#.(swank/sbcl::sbcl-with-new-stepper-p) ((typep condition 'sb-impl::step-form-condition) `((:show-frame-source 0))) ((typep condition 'sb-int:reference-condition) (let ((refs (sb-int:reference-condition-references condition))) (if refs `((:references ,(externalize-reference refs)))))))) (defun externalize-reference (ref) (etypecase ref (null nil) (cons (cons (externalize-reference (car ref)) (externalize-reference (cdr ref)))) ((or string number) ref) (symbol (cond ((eq (symbol-package ref) (symbol-package :test)) ref) (t (symbol-name ref)))))) (defvar *sldb-stack-top*) (defimplementation call-with-debugging-environment (debugger-loop-fn) (declare (type function debugger-loop-fn)) (let ((*sldb-stack-top* (if (and (not *debug-swank-backend*) sb-debug:*stack-top-hint*) #+#.(swank/backend:with-symbol 'resolve-stack-top-hint 'sb-debug) (sb-debug::resolve-stack-top-hint) #-#.(swank/backend:with-symbol 'resolve-stack-top-hint 'sb-debug) sb-debug:*stack-top-hint* (sb-di:top-frame))) (sb-debug:*stack-top-hint* nil)) (handler-bind ((sb-di:debug-condition (lambda (condition) (signal 'sldb-condition :original-condition condition)))) (funcall debugger-loop-fn)))) #+#.(swank/sbcl::sbcl-with-new-stepper-p) (progn (defimplementation activate-stepping (frame) (declare (ignore frame)) (sb-impl::enable-stepping)) (defimplementation sldb-stepper-condition-p (condition) (typep condition 'sb-ext:step-form-condition)) (defimplementation sldb-step-into () (invoke-restart 'sb-ext:step-into)) (defimplementation sldb-step-next () (invoke-restart 'sb-ext:step-next)) (defimplementation sldb-step-out () (invoke-restart 'sb-ext:step-out))) (defimplementation call-with-debugger-hook (hook fun) (let ((*debugger-hook* hook) #+#.(swank/sbcl::sbcl-with-new-stepper-p) (sb-ext:*stepper-hook* (lambda (condition) (typecase condition (sb-ext:step-form-condition (let ((sb-debug:*stack-top-hint* (sb-di::find-stepped-frame))) (sb-impl::invoke-debugger condition))))))) (handler-bind (#+#.(swank/sbcl::sbcl-with-new-stepper-p) (sb-ext:step-condition #'sb-impl::invoke-stepper)) (call-with-break-hook hook fun)))) (defun nth-frame (index) (do ((frame *sldb-stack-top* (sb-di:frame-down frame)) (i index (1- i))) ((zerop i) frame))) (defimplementation compute-backtrace (start end) "Return a list of frames starting with frame number START and continuing to frame number END or, if END is nil, the last frame on the stack." (let ((end (or end most-positive-fixnum))) (loop for f = (nth-frame start) then (sb-di:frame-down f) for i from start below end while f collect f))) (defimplementation print-frame (frame stream) (sb-debug::print-frame-call frame stream)) (defimplementation frame-restartable-p (frame) #+#.(swank/sbcl::sbcl-with-restart-frame) (not (null (sb-debug:frame-has-debug-tag-p frame)))) (defimplementation frame-call (frame-number) (multiple-value-bind (name args) (sb-debug::frame-call (nth-frame frame-number)) (with-output-to-string (stream) (locally (declare (sb-ext:muffle-conditions sb-ext:compiler-note)) (pprint-logical-block (stream nil :prefix "(" :suffix ")") (locally (declare (sb-ext:unmuffle-conditions sb-ext:compiler-note)) (let ((*print-length* nil) (*print-level* nil)) (prin1 (sb-debug::ensure-printable-object name) stream)) (let ((args (sb-debug::ensure-printable-object args))) (if (listp args) (format stream "~{ ~_~S~}" args) (format stream " ~S" args))))))))) ;;;; Code-location -> source-location translation ;;; If debug-block info is avaibale, we determine the file position of ;;; the source-path for a code-location. If the code was compiled ;;; with C-c C-c, we have to search the position in the source string. ;;; If there's no debug-block info, we return the (less precise) ;;; source-location of the corresponding function. (defun code-location-source-location (code-location) (let* ((dsource (sb-di:code-location-debug-source code-location)) (plist (sb-c::debug-source-plist dsource)) (package (getf plist :emacs-package)) (*package* (or (and package (find-package package)) *package*))) (if (getf plist :emacs-buffer) (emacs-buffer-source-location code-location plist) #+#.(swank/backend:with-symbol 'debug-source-from 'sb-di) (ecase (sb-di:debug-source-from dsource) (:file (file-source-location code-location)) (:lisp (lisp-source-location code-location))) #-#.(swank/backend:with-symbol 'debug-source-from 'sb-di) (if (sb-di:debug-source-namestring dsource) (file-source-location code-location) (lisp-source-location code-location))))) ;;; FIXME: The naming policy of source-location functions is a bit ;;; fuzzy: we have FUNCTION-SOURCE-LOCATION which returns the ;;; source-location for a function, and we also have FILE-SOURCE-LOCATION &co ;;; which returns the source location for a _code-location_. ;;; ;;; Maybe these should be named code-location-file-source-location, ;;; etc, turned into generic functions, or something. In the very ;;; least the names should indicate the main entry point vs. helper ;;; status. (defun file-source-location (code-location) (if (code-location-has-debug-block-info-p code-location) (source-file-source-location code-location) (fallback-source-location code-location))) (defun fallback-source-location (code-location) (let ((fun (code-location-debug-fun-fun code-location))) (cond (fun (function-source-location fun)) (t (error "Cannot find source location for: ~A " code-location))))) (defun lisp-source-location (code-location) (let ((source (prin1-to-string (sb-debug::code-location-source-form code-location 100))) (condition swank:*swank-debugger-condition*)) (if (and (typep condition 'sb-impl::step-form-condition) (search "SB-IMPL::WITH-STEPPING-ENABLED" source :test #'char-equal) (search "SB-IMPL::STEP-FINISHED" source :test #'char-equal)) ;; The initial form is utterly uninteresting -- and almost ;; certainly right there in the REPL. (make-error-location "Stepping...") (make-location `(:source-form ,source) '(:position 1))))) (defun emacs-buffer-source-location (code-location plist) (if (code-location-has-debug-block-info-p code-location) (destructuring-bind (&key emacs-buffer emacs-position emacs-string &allow-other-keys) plist (let* ((pos (string-source-position code-location emacs-string)) (snipped (read-snippet-from-string emacs-string pos))) (make-location `(:buffer ,emacs-buffer) `(:offset ,emacs-position ,pos) `(:snippet ,snipped)))) (fallback-source-location code-location))) (defun source-file-source-location (code-location) (let* ((code-date (code-location-debug-source-created code-location)) (filename (code-location-debug-source-name code-location)) (*readtable* (guess-readtable-for-filename filename)) (source-code (get-source-code filename code-date))) (with-debootstrapping (with-input-from-string (s source-code) (let* ((pos (stream-source-position code-location s)) (snippet (read-snippet s pos))) (make-location `(:file ,filename) `(:position ,pos) `(:snippet ,snippet))))))) (defun code-location-debug-source-name (code-location) (namestring (truename (#.(swank/backend:choose-symbol 'sb-c 'debug-source-name 'sb-c 'debug-source-namestring) (sb-di::code-location-debug-source code-location))))) (defun code-location-debug-source-created (code-location) (sb-c::debug-source-created (sb-di::code-location-debug-source code-location))) (defun code-location-debug-fun-fun (code-location) (sb-di:debug-fun-fun (sb-di:code-location-debug-fun code-location))) (defun code-location-has-debug-block-info-p (code-location) (handler-case (progn (sb-di:code-location-debug-block code-location) t) (sb-di:no-debug-blocks () nil))) (defun stream-source-position (code-location stream) (let* ((cloc (sb-debug::maybe-block-start-location code-location)) (tlf-number (sb-di::code-location-toplevel-form-offset cloc)) (form-number (sb-di::code-location-form-number cloc))) (multiple-value-bind (tlf pos-map) (read-source-form tlf-number stream) (let* ((path-table (sb-di::form-number-translations tlf 0)) (path (cond ((<= (length path-table) form-number) (warn "inconsistent form-number-translations") (list 0)) (t (reverse (cdr (aref path-table form-number))))))) (source-path-source-position path tlf pos-map))))) (defun string-source-position (code-location string) (with-input-from-string (s string) (stream-source-position code-location s))) ;;; source-path-file-position and friends are in source-path-parser (defimplementation frame-source-location (index) (converting-errors-to-error-location (code-location-source-location (sb-di:frame-code-location (nth-frame index))))) (defvar *keep-non-valid-locals* nil) (defun frame-debug-vars (frame) "Return a vector of debug-variables in frame." (let ((all-vars (sb-di::debug-fun-debug-vars (sb-di:frame-debug-fun frame)))) (cond (*keep-non-valid-locals* all-vars) (t (let ((loc (sb-di:frame-code-location frame))) (remove-if (lambda (var) (ecase (sb-di:debug-var-validity var loc) (:valid nil) ((:invalid :unknown) t))) all-vars)))))) (defun debug-var-value (var frame location) (ecase (sb-di:debug-var-validity var location) (:valid (sb-di:debug-var-value var frame)) ((:invalid :unknown) ':))) (defun debug-var-info (var) ;; Introduced by SBCL 1.0.49.76. (let ((s (find-symbol "DEBUG-VAR-INFO" :sb-di))) (when (and s (fboundp s)) (funcall s var)))) (defimplementation frame-locals (index) (let* ((frame (nth-frame index)) (loc (sb-di:frame-code-location frame)) (vars (frame-debug-vars frame)) ;; Since SBCL 1.0.49.76 PREPROCESS-FOR-EVAL understands SB-DEBUG::MORE ;; specially. (more-name (or (find-symbol "MORE" :sb-debug) 'more)) (more-context nil) (more-count nil) (more-id 0)) (when vars (let ((locals (loop for v across vars do (when (eq (sb-di:debug-var-symbol v) more-name) (incf more-id)) (case (debug-var-info v) (:more-context (setf more-context (debug-var-value v frame loc))) (:more-count (setf more-count (debug-var-value v frame loc)))) collect (list :name (sb-di:debug-var-symbol v) :id (sb-di:debug-var-id v) :value (debug-var-value v frame loc))))) (when (and more-context more-count) (setf locals (append locals (list (list :name more-name :id more-id :value (multiple-value-list (sb-c:%more-arg-values more-context 0 more-count))))))) locals)))) (defimplementation frame-var-value (frame var) (let* ((frame (nth-frame frame)) (vars (frame-debug-vars frame)) (loc (sb-di:frame-code-location frame)) (dvar (if (= var (length vars)) ;; If VAR is out of bounds, it must be the fake var ;; we made up for &MORE. (let* ((context-var (find :more-context vars :key #'debug-var-info)) (more-context (debug-var-value context-var frame loc)) (count-var (find :more-count vars :key #'debug-var-info)) (more-count (debug-var-value count-var frame loc))) (return-from frame-var-value (multiple-value-list (sb-c:%more-arg-values more-context 0 more-count)))) (aref vars var)))) (debug-var-value dvar frame loc))) (defimplementation frame-catch-tags (index) (mapcar #'car (sb-di:frame-catches (nth-frame index)))) (defimplementation eval-in-frame (form index) (let ((frame (nth-frame index))) (funcall (the function (sb-di:preprocess-for-eval form (sb-di:frame-code-location frame))) frame))) (defimplementation frame-package (frame-number) (let* ((frame (nth-frame frame-number)) (fun (sb-di:debug-fun-fun (sb-di:frame-debug-fun frame)))) (when fun (let ((name (function-name fun))) (typecase name (null nil) (symbol (symbol-package name)) ((cons (eql setf) (cons symbol)) (symbol-package (cadr name)))))))) #+#.(swank/sbcl::sbcl-with-restart-frame) (progn (defimplementation return-from-frame (index form) (let* ((frame (nth-frame index))) (cond ((sb-debug:frame-has-debug-tag-p frame) (let ((values (multiple-value-list (eval-in-frame form index)))) (sb-debug:unwind-to-frame-and-call frame (lambda () (values-list values))))) (t (format nil "Cannot return from frame: ~S" frame))))) (defimplementation restart-frame (index) (let ((frame (nth-frame index))) (when (sb-debug:frame-has-debug-tag-p frame) (multiple-value-bind (fname args) (sb-debug::frame-call frame) (multiple-value-bind (fun arglist) (if (and (sb-int:legal-fun-name-p fname) (fboundp fname)) (values (fdefinition fname) args) (values (sb-di:debug-fun-fun (sb-di:frame-debug-fun frame)) (sb-debug::frame-args-as-list frame))) (when (functionp fun) (sb-debug:unwind-to-frame-and-call frame (lambda () ;; Ensure TCO. (declare (optimize (debug 0))) (apply fun arglist))))))) (format nil "Cannot restart frame: ~S" frame)))) ;; FIXME: this implementation doesn't unwind the stack before ;; re-invoking the function, but it's better than no implementation at ;; all. #-#.(swank/sbcl::sbcl-with-restart-frame) (progn (defun sb-debug-catch-tag-p (tag) (and (symbolp tag) (not (symbol-package tag)) (string= tag :sb-debug-catch-tag))) (defimplementation return-from-frame (index form) (let* ((frame (nth-frame index)) (probe (assoc-if #'sb-debug-catch-tag-p (sb-di::frame-catches frame)))) (cond (probe (throw (car probe) (eval-in-frame form index))) (t (format nil "Cannot return from frame: ~S" frame))))) (defimplementation restart-frame (index) (let ((frame (nth-frame index))) (return-from-frame index (sb-debug::frame-call-as-list frame))))) ;;;;; reference-conditions (defimplementation print-condition (condition stream) (let ((sb-int:*print-condition-references* nil)) (princ condition stream))) ;;;; Profiling (defimplementation profile (fname) (when fname (eval `(sb-profile:profile ,fname)))) (defimplementation unprofile (fname) (when fname (eval `(sb-profile:unprofile ,fname)))) (defimplementation unprofile-all () (sb-profile:unprofile) "All functions unprofiled.") (defimplementation profile-report () (sb-profile:report)) (defimplementation profile-reset () (sb-profile:reset) "Reset profiling counters.") (defimplementation profiled-functions () (sb-profile:profile)) (defimplementation profile-package (package callers methods) (declare (ignore callers methods)) (eval `(sb-profile:profile ,(package-name (find-package package))))) ;;;; Inspector (defmethod emacs-inspect ((o t)) (cond ((sb-di::indirect-value-cell-p o) (label-value-line* (:value (sb-kernel:value-cell-ref o)))) (t (multiple-value-bind (text label parts) (sb-impl::inspected-parts o) (list* (string-right-trim '(#\Newline) text) '(:newline) (if label (loop for (l . v) in parts append (label-value-line l v)) (loop for value in parts for i from 0 append (label-value-line i value)))))))) (defmethod emacs-inspect ((o function)) (let ((header (sb-kernel:widetag-of o))) (cond ((= header sb-vm:simple-fun-header-widetag) (label-value-line* (:name (sb-kernel:%simple-fun-name o)) (:arglist (sb-kernel:%simple-fun-arglist o)) (:self (sb-kernel:%simple-fun-self o)) (:next (sb-kernel:%simple-fun-next o)) (:type (sb-kernel:%simple-fun-type o)) (:code (sb-kernel:fun-code-header o)))) ((= header sb-vm:closure-header-widetag) (append (label-value-line :function (sb-kernel:%closure-fun o)) `("Closed over values:" (:newline)) (loop for i below (1- (sb-kernel:get-closure-length o)) append (label-value-line i (sb-kernel:%closure-index-ref o i))))) (t (call-next-method o))))) (defmethod emacs-inspect ((o sb-kernel:code-component)) (append (label-value-line* (:code-size (sb-kernel:%code-code-size o)) (:entry-points (sb-kernel:%code-entry-points o)) (:debug-info (sb-kernel:%code-debug-info o))) `("Constants:" (:newline)) (loop for i from sb-vm:code-constants-offset below (#.(swank/backend:choose-symbol 'sb-kernel 'code-header-words 'sb-kernel 'get-header-data) o) append (label-value-line i (sb-kernel:code-header-ref o i))) `("Code:" (:newline) , (with-output-to-string (s) (cond ((sb-kernel:%code-debug-info o) (sb-disassem:disassemble-code-component o :stream s)) (t (sb-disassem:disassemble-memory (sb-disassem::align (+ (logandc2 (sb-kernel:get-lisp-obj-address o) sb-vm:lowtag-mask) (* sb-vm:code-constants-offset sb-vm:n-word-bytes)) (ash 1 sb-vm:n-lowtag-bits)) (ash (sb-kernel:%code-code-size o) sb-vm:word-shift) :stream s))))))) (defmethod emacs-inspect ((o sb-ext:weak-pointer)) (label-value-line* (:value (sb-ext:weak-pointer-value o)))) (defmethod emacs-inspect ((o sb-kernel:fdefn)) (label-value-line* (:name (sb-kernel:fdefn-name o)) (:function (sb-kernel:fdefn-fun o)))) (defmethod emacs-inspect :around ((o generic-function)) (append (call-next-method) (label-value-line* (:pretty-arglist (sb-pcl::generic-function-pretty-arglist o)) (:initial-methods (sb-pcl::generic-function-initial-methods o)) ))) ;;;; Multiprocessing #+(and sb-thread #.(swank/backend:with-symbol "THREAD-NAME" "SB-THREAD")) (progn (defvar *thread-id-counter* 0) (defvar *thread-id-counter-lock* (sb-thread:make-mutex :name "thread id counter lock")) (defun next-thread-id () (sb-thread:with-mutex (*thread-id-counter-lock*) (incf *thread-id-counter*))) (defparameter *thread-id-map* (make-hash-table)) ;; This should be a thread -> id map but as weak keys are not ;; supported it is id -> map instead. (defvar *thread-id-map-lock* (sb-thread:make-mutex :name "thread id map lock")) (defimplementation spawn (fn &key name) (sb-thread:make-thread fn :name name)) (defimplementation thread-id (thread) (block thread-id (sb-thread:with-mutex (*thread-id-map-lock*) (loop for id being the hash-key in *thread-id-map* using (hash-value thread-pointer) do (let ((maybe-thread (sb-ext:weak-pointer-value thread-pointer))) (cond ((null maybe-thread) ;; the value is gc'd, remove it manually (remhash id *thread-id-map*)) ((eq thread maybe-thread) (return-from thread-id id))))) ;; lazy numbering (let ((id (next-thread-id))) (setf (gethash id *thread-id-map*) (sb-ext:make-weak-pointer thread)) id)))) (defimplementation find-thread (id) (sb-thread:with-mutex (*thread-id-map-lock*) (let ((thread-pointer (gethash id *thread-id-map*))) (if thread-pointer (let ((maybe-thread (sb-ext:weak-pointer-value thread-pointer))) (if maybe-thread maybe-thread ;; the value is gc'd, remove it manually (progn (remhash id *thread-id-map*) nil))) nil)))) (defimplementation thread-name (thread) ;; sometimes the name is not a string (e.g. NIL) (princ-to-string (sb-thread:thread-name thread))) (defimplementation thread-status (thread) (if (sb-thread:thread-alive-p thread) "Running" "Stopped")) (defimplementation make-lock (&key name) (sb-thread:make-mutex :name name)) (defimplementation call-with-lock-held (lock function) (declare (type function function)) (sb-thread:with-recursive-lock (lock) (funcall function))) (defimplementation current-thread () sb-thread:*current-thread*) (defimplementation all-threads () (sb-thread:list-all-threads)) (defimplementation interrupt-thread (thread fn) (sb-thread:interrupt-thread thread fn)) (defimplementation kill-thread (thread) (sb-thread:terminate-thread thread)) (defimplementation thread-alive-p (thread) (sb-thread:thread-alive-p thread)) (defvar *mailbox-lock* (sb-thread:make-mutex :name "mailbox lock")) (defvar *mailboxes* (list)) (declaim (type list *mailboxes*)) (defstruct (mailbox (:conc-name mailbox.)) thread (mutex (sb-thread:make-mutex)) (waitqueue (sb-thread:make-waitqueue)) (queue '() :type list)) (defun mailbox (thread) "Return THREAD's mailbox." (sb-thread:with-mutex (*mailbox-lock*) (or (find thread *mailboxes* :key #'mailbox.thread) (let ((mb (make-mailbox :thread thread))) (push mb *mailboxes*) mb)))) (defimplementation send (thread message) (let* ((mbox (mailbox thread)) (mutex (mailbox.mutex mbox))) (sb-thread:with-mutex (mutex) (setf (mailbox.queue mbox) (nconc (mailbox.queue mbox) (list message))) (sb-thread:condition-broadcast (mailbox.waitqueue mbox))))) (defun condition-timed-wait (waitqueue mutex timeout) (macrolet ((foo () (cond ((member :sb-lutex *features*) ; Darwin '(sb-thread:condition-wait waitqueue mutex)) (t '(handler-case (let ((*break-on-signals* nil)) (sb-sys:with-deadline (:seconds timeout :override t) (sb-thread:condition-wait waitqueue mutex) t)) (sb-ext:timeout () nil)))))) (foo))) (defimplementation receive-if (test &optional timeout) (let* ((mbox (mailbox (current-thread))) (mutex (mailbox.mutex mbox)) (waitq (mailbox.waitqueue mbox))) (assert (or (not timeout) (eq timeout t))) (loop (check-slime-interrupts) (sb-thread:with-mutex (mutex) (let* ((q (mailbox.queue mbox)) (tail (member-if test q))) (when tail (setf (mailbox.queue mbox) (nconc (ldiff q tail) (cdr tail))) (return (car tail)))) (when (eq timeout t) (return (values nil t))) (condition-timed-wait waitq mutex 0.2))))) (let ((alist '()) (mutex (sb-thread:make-mutex :name "register-thread"))) (defimplementation register-thread (name thread) (declare (type symbol name)) (sb-thread:with-mutex (mutex) (etypecase thread (null (setf alist (delete name alist :key #'car))) (sb-thread:thread (let ((probe (assoc name alist))) (cond (probe (setf (cdr probe) thread)) (t (setf alist (acons name thread alist)))))))) nil) (defimplementation find-registered (name) (sb-thread:with-mutex (mutex) (cdr (assoc name alist))))) ;; Workaround for deadlocks between the world-lock and auto-flush-thread ;; buffer write lock. ;; ;; Another alternative would be to grab the world-lock here, but that's less ;; future-proof, and could introduce other lock-ordering issues in the ;; future. ;; ;; In an ideal world we would just have an :AROUND method on ;; SLIME-OUTPUT-STREAM, and be done, but that class doesn't exist when this ;; file is loaded -- so first we need a dummy definition that will be ;; overridden by swank-gray.lisp. #.(unless (find-package 'swank/gray) (make-package 'swank/gray) nil) (eval-when (:load-toplevel :execute) (unless (find-package 'swank/gray) (make-package 'swank/gray) nil)) (defclass swank/gray::slime-output-stream (sb-gray:fundamental-character-output-stream) ()) (defmethod sb-gray:stream-force-output :around ((stream swank/gray::slime-output-stream)) (handler-case (sb-sys:with-deadline (:seconds 0.1) (call-next-method)) (sb-sys:deadline-timeout () nil))) ) (defimplementation quit-lisp () #+#.(swank/backend:with-symbol 'exit 'sb-ext) (sb-ext:exit) #-#.(swank/backend:with-symbol 'exit 'sb-ext) (progn #+sb-thread (dolist (thread (remove (current-thread) (all-threads))) (ignore-errors (sb-thread:terminate-thread thread))) (sb-ext:quit))) ;;Trace implementations ;;In SBCL, we have: ;; (trace ) ;; (trace :methods ') ;to trace all methods of the gf ;; (trace (method ? (+))) ;; can be a normal name or a (setf name) (defun toggle-trace-aux (fspec &rest args) (cond ((member fspec (eval '(trace)) :test #'equal) (eval `(untrace ,fspec)) (format nil "~S is now untraced." fspec)) (t (eval `(trace ,@(if args `(:encapsulate nil) (list)) ,fspec ,@args)) (format nil "~S is now traced." fspec)))) (defun process-fspec (fspec) (cond ((consp fspec) (ecase (first fspec) ((:defun :defgeneric) (second fspec)) ((:defmethod) `(method ,@(rest fspec))) ((:labels) `(labels ,(process-fspec (second fspec)) ,(third fspec))) ((:flet) `(flet ,(process-fspec (second fspec)) ,(third fspec))))) (t fspec))) (defimplementation toggle-trace (spec) (ecase (car spec) ((setf) (toggle-trace-aux spec)) ((:defmethod) (toggle-trace-aux `(sb-pcl::fast-method ,@(rest (process-fspec spec))))) ((:defgeneric) (toggle-trace-aux (second spec) :methods t)) ((:call) (destructuring-bind (caller callee) (cdr spec) (toggle-trace-aux callee :wherein (list (process-fspec caller))))))) ;;; Weak datastructures (defimplementation make-weak-key-hash-table (&rest args) #+#.(swank/sbcl::sbcl-with-weak-hash-tables) (apply #'make-hash-table :weakness :key args) #-#.(swank/sbcl::sbcl-with-weak-hash-tables) (apply #'make-hash-table args)) (defimplementation make-weak-value-hash-table (&rest args) #+#.(swank/sbcl::sbcl-with-weak-hash-tables) (apply #'make-hash-table :weakness :value args) #-#.(swank/sbcl::sbcl-with-weak-hash-tables) (apply #'make-hash-table args)) (defimplementation hash-table-weakness (hashtable) #+#.(swank/sbcl::sbcl-with-weak-hash-tables) (sb-ext:hash-table-weakness hashtable)) #-win32 (defimplementation save-image (filename &optional restart-function) (flet ((restart-sbcl () (sb-debug::enable-debugger) (setf sb-impl::*descriptor-handlers* nil) (funcall restart-function))) (let ((pid (sb-posix:fork))) (cond ((= pid 0) (sb-debug::disable-debugger) (apply #'sb-ext:save-lisp-and-die filename (when restart-function (list :toplevel #'restart-sbcl)))) (t (multiple-value-bind (rpid status) (sb-posix:waitpid pid 0) (assert (= pid rpid)) (assert (and (sb-posix:wifexited status) (zerop (sb-posix:wexitstatus status)))))))))) #+unix (progn (sb-alien:define-alien-routine ("execv" sys-execv) sb-alien:int (program sb-alien:c-string) (argv (* sb-alien:c-string))) (defun execv (program args) "Replace current executable with another one." (let ((a-args (sb-alien:make-alien sb-alien:c-string (+ 1 (length args))))) (unwind-protect (progn (loop for index from 0 by 1 and item in (append args '(nil)) do (setf (sb-alien:deref a-args index) item)) (when (minusp (sys-execv program a-args)) (error "execv(3) returned."))) (sb-alien:free-alien a-args)))) (defun runtime-pathname () #+#.(swank/backend:with-symbol '*runtime-pathname* 'sb-ext) sb-ext:*runtime-pathname* #-#.(swank/backend:with-symbol '*runtime-pathname* 'sb-ext) (car sb-ext:*posix-argv*)) (defimplementation exec-image (image-file args) (loop with fd-arg = (loop for arg in args and key = "" then arg when (string-equal key "--swank-fd") return (parse-integer arg)) for my-fd from 3 to 1024 when (/= my-fd fd-arg) do (ignore-errors (sb-posix:fcntl my-fd sb-posix:f-setfd 1))) (let* ((self-string (pathname-to-filename (runtime-pathname)))) (execv self-string (apply 'list self-string "--core" image-file args))))) (defimplementation make-fd-stream (fd external-format) (sb-sys:make-fd-stream fd :input t :output t :element-type 'character :buffering :full :dual-channel-p t :external-format external-format)) #-win32 (defimplementation background-save-image (filename &key restart-function completion-function) (flet ((restart-sbcl () (sb-debug::enable-debugger) (setf sb-impl::*descriptor-handlers* nil) (funcall restart-function))) (multiple-value-bind (pipe-in pipe-out) (sb-posix:pipe) (let ((pid (sb-posix:fork))) (cond ((= pid 0) (sb-posix:close pipe-in) (sb-debug::disable-debugger) (apply #'sb-ext:save-lisp-and-die filename (when restart-function (list :toplevel #'restart-sbcl)))) (t (sb-posix:close pipe-out) (sb-sys:add-fd-handler pipe-in :input (lambda (fd) (sb-sys:invalidate-descriptor fd) (sb-posix:close fd) (multiple-value-bind (rpid status) (sb-posix:waitpid pid 0) (assert (= pid rpid)) (assert (sb-posix:wifexited status)) (funcall completion-function (zerop (sb-posix:wexitstatus status)))))))))))) (pushnew 'deinit-log-output sb-ext:*save-hooks*) ;;;; wrap interface implementation (defun sbcl-version>= (&rest subversions) #+#.(swank/backend:with-symbol 'assert-version->= 'sb-ext) (values (ignore-errors (apply #'sb-ext:assert-version->= subversions) t)) #-#.(swank/backend:with-symbol 'assert-version->= 'sb-ext) nil) (defimplementation wrap (spec indicator &key before after replace) (when (wrapped-p spec indicator) (warn "~a already wrapped with indicator ~a, unwrapping first" spec indicator) (sb-int:unencapsulate spec indicator)) (sb-int:encapsulate spec indicator #-#.(swank/backend:with-symbol 'arg-list 'sb-int) (lambda (function &rest args) (sbcl-wrap spec before after replace function args)) #+#.(swank/backend:with-symbol 'arg-list 'sb-int) (if (sbcl-version>= 1 1 16) (lambda () (sbcl-wrap spec before after replace (symbol-value 'sb-int:basic-definition) (symbol-value 'sb-int:arg-list))) `(sbcl-wrap ',spec ,before ,after ,replace (symbol-value 'sb-int:basic-definition) (symbol-value 'sb-int:arg-list))))) (defimplementation unwrap (spec indicator) (sb-int:unencapsulate spec indicator)) (defimplementation wrapped-p (spec indicator) (sb-int:encapsulated-p spec indicator)) (defun sbcl-wrap (spec before after replace function args) (declare (ignore spec)) (let (retlist completed) (unwind-protect (progn (when before (funcall before args)) (setq retlist (multiple-value-list (if replace (funcall replace args) (apply function args)))) (setq completed t) (values-list retlist)) (when after (funcall after (if completed retlist :exited-non-locally)))))) #+#.(swank/backend:with-symbol 'comma-expr 'sb-impl) (progn (defmethod sexp-in-bounds-p ((s sb-impl::comma) i) (= i 1)) (defmethod sexp-ref ((s sb-impl::comma) i) (sb-impl::comma-expr s)))