;;;;; -*- indent-tabs-mode: nil -*- ;;; ;;; swank-mezzano.lisp --- SLIME backend for Mezzano ;;; ;;; This code has been placed in the Public Domain. All warranties are ;;; disclaimed. ;;; ;;; Administrivia (defpackage swank/mezzano (:use cl swank/backend)) (in-package swank/mezzano) ;;; swank-mop (import-swank-mop-symbols :mezzano.clos '(:class-default-initargs :class-direct-default-initargs :specializer-direct-methods :generic-function-declarations)) (defun swank-mop:specializer-direct-methods (obj) (declare (ignore obj)) '()) (defun swank-mop:generic-function-declarations (gf) (declare (ignore gf)) '()) (defimplementation gray-package-name () "MEZZANO.GRAY") ;;;; TCP server (defclass listen-socket () ((%listener :initarg :listener))) (defimplementation create-socket (host port &key backlog) (make-instance 'listen-socket :listener (mezzano.network.tcp:tcp-listen host port :backlog (or backlog 10)))) (defimplementation local-port (socket) (mezzano.network.tcp:tcp-listener-local-port (slot-value socket '%listener))) (defimplementation close-socket (socket) (mezzano.network.tcp:close-tcp-listener (slot-value socket '%listener))) (defimplementation accept-connection (socket &key external-format buffering timeout) (declare (ignore external-format buffering timeout)) (loop (let ((value (mezzano.network.tcp:tcp-accept (slot-value socket '%listener) :wait-p nil))) (if value (return value) ;; Poke standard-input every now and then to keep the console alive. (progn (listen) (sleep 0.05)))))) (defimplementation preferred-communication-style () :spawn) ;;;; Unix signals ;;;; ???? (defimplementation getpid () 0) ;;;; Compilation (defun signal-compiler-condition (condition severity) (signal 'compiler-condition :original-condition condition :severity severity :message (format nil "~A" condition) :location nil)) (defimplementation call-with-compilation-hooks (func) (handler-bind ((error (lambda (c) (signal-compiler-condition c :error))) (warning (lambda (c) (signal-compiler-condition c :warning))) (style-warning (lambda (c) (signal-compiler-condition c :style-warning)))) (funcall func))) (defimplementation swank-compile-string (string &key buffer position filename line column policy) (declare (ignore buffer line column policy)) (let* ((*load-pathname* (ignore-errors (pathname filename))) (*load-truename* (when *load-pathname* (ignore-errors (truename *load-pathname*)))) (sys.int::*top-level-form-number* `(:position ,position))) (with-compilation-hooks () (eval (read-from-string (concatenate 'string "(progn " string " )"))))) t) (defimplementation swank-compile-file (input-file output-file load-p external-format &key policy) (with-compilation-hooks () (multiple-value-prog1 (compile-file input-file :output-file output-file :external-format external-format) (when load-p (load output-file))))) (defimplementation find-external-format (coding-system) (if (or (equal coding-system "utf-8") (equal coding-system "utf-8-unix")) :default nil)) ;;;; Debugging ;; Definitely don't allow this. (defimplementation install-debugger-globally (function) (declare (ignore function)) nil) (defvar *current-backtrace*) (defimplementation call-with-debugging-environment (debugger-loop-fn) (let ((*current-backtrace* '())) (let ((prev-fp nil)) (sys.int::map-backtrace (lambda (i fp) (push (list (1- i) fp prev-fp) *current-backtrace*) (setf prev-fp fp)))) (setf *current-backtrace* (reverse *current-backtrace*)) ;; Drop the topmost frame, which is finished call to MAP-BACKTRACE. (pop *current-backtrace*) ;; And the next one for good measure. (pop *current-backtrace*) (funcall debugger-loop-fn))) (defimplementation compute-backtrace (start end) (subseq *current-backtrace* start end)) (defimplementation print-frame (frame stream) (format stream "~S" (sys.int::function-from-frame frame))) (defimplementation frame-source-location (frame-number) (let* ((frame (nth frame-number *current-backtrace*)) (fn (sys.int::function-from-frame frame))) (function-location fn))) (defimplementation frame-locals (frame-number) (loop with frame = (nth frame-number *current-backtrace*) for (name id location repr) in (sys.int::frame-locals frame) collect (list :name name :id id :value (sys.int::read-frame-slot frame location repr)))) (defimplementation frame-var-value (frame-number var-id) (let* ((frame (nth frame-number *current-backtrace*)) (locals (sys.int::frame-locals frame)) (info (nth var-id locals))) (if info (destructuring-bind (name id location repr) info (declare (ignore id)) (values (sys.int::read-frame-slot frame location repr) name)) (error "Invalid variable id ~D for frame number ~D." var-id frame-number)))) ;;;; Definition finding (defun top-level-form-position (pathname tlf) (ignore-errors (with-open-file (s pathname) (loop repeat tlf do (with-standard-io-syntax (let ((*read-suppress* t) (*read-eval* nil)) (read s nil)))) (let ((default (make-pathname :host (pathname-host s)))) (make-location `(:file ,(enough-namestring s default)) `(:position ,(1+ (file-position s)))))))) (defun function-location (function) "Return a location object for FUNCTION." (let* ((info (sys.int::function-debug-info function)) (pathname (sys.int::debug-info-source-pathname info)) (tlf (sys.int::debug-info-source-top-level-form-number info))) (cond ((and (consp tlf) (eql (first tlf) :position)) (let ((default (make-pathname :host (pathname-host pathname)))) (make-location `(:file ,(enough-namestring pathname default)) `(:position ,(second tlf))))) (t (top-level-form-position pathname tlf))))) (defun method-definition-name (name method) `(defmethod ,name ,@(mezzano.clos:method-qualifiers method) ,(mapcar (lambda (x) (typecase x (mezzano.clos:class (mezzano.clos:class-name x)) (mezzano.clos:eql-specializer `(eql ,(mezzano.clos:eql-specializer-object x))) (t x))) (mezzano.clos:method-specializers method)))) (defimplementation find-definitions (name) (let ((result '())) (labels ((frob-fn (dspec fn) (let ((loc (function-location fn))) (when loc (push (list dspec loc) result)))) (try-fn (name) (when (valid-function-name-p name) (when (and (fboundp name) (not (and (symbolp name) (or (special-operator-p name) (macro-function name))))) (let ((fn (fdefinition name))) (cond ((typep fn 'mezzano.clos:standard-generic-function) (dolist (m (mezzano.clos:generic-function-methods fn)) (frob-fn (method-definition-name name m) (mezzano.clos:method-function m)))) (t (frob-fn `(defun ,name) fn))))) (when (compiler-macro-function name) (frob-fn `(define-compiler-macro ,name) (compiler-macro-function name)))))) (try-fn name) (try-fn `(setf name)) (try-fn `(sys.int::cas name)) (when (and (symbolp name) (get name 'sys.int::setf-expander)) (frob-fn `(define-setf-expander ,name) (get name 'sys.int::setf-expander))) (when (and (symbolp name) (macro-function name)) (frob-fn `(defmacro ,name) (macro-function name)))) result)) ;;;; XREF ;;; Simpler variants. (defun find-all-frefs () (let ((frefs (make-array 500 :adjustable t :fill-pointer 0)) (keep-going t)) (loop (when (not keep-going) (return)) (adjust-array frefs (* (array-dimension frefs 0) 2)) (setf keep-going nil (fill-pointer frefs) 0) ;; Walk the wired area looking for FREFs. (sys.int::walk-area :wired (lambda (object address size) (when (sys.int::function-reference-p object) (when (not (vector-push object frefs)) (setf keep-going t)))))) (remove-duplicates (coerce frefs 'list)))) (defimplementation list-callers (function-name) (let ((fref-for-fn (sys.int::function-reference function-name)) (callers '())) (loop for fref in (find-all-frefs) for fn = (sys.int::function-reference-function fref) for name = (sys.int::function-reference-name fref) when fn do (cond ((typep fn 'standard-generic-function) (dolist (m (mezzano.clos:generic-function-methods fn)) (let* ((mf (mezzano.clos:method-function m)) (mf-frefs (get-all-frefs-in-function mf))) (when (member fref-for-fn mf-frefs) (push `((defmethod ,name ,@(mezzano.clos:method-qualifiers m) ,(mapcar #'specializer-name (mezzano.clos:method-specializers m))) ,(function-location mf)) callers))))) ((member fref-for-fn (get-all-frefs-in-function fn)) (push `((defun ,name) ,(function-location fn)) callers)))) callers)) (defun specializer-name (specializer) (if (typep specializer 'standard-class) (mezzano.clos:class-name specializer) specializer)) (defun get-all-frefs-in-function (function) (when (sys.int::funcallable-std-instance-p function) (setf function (sys.int::funcallable-std-instance-function function))) (when (sys.int::closure-p function) (setf function (sys.int::%closure-function function))) (loop for i below (sys.int::function-pool-size function) for entry = (sys.int::function-pool-object function i) when (sys.int::function-reference-p entry) collect entry when (compiled-function-p entry) ; closures append (get-all-frefs-in-function entry))) (defimplementation list-callees (function-name) (let* ((fn (fdefinition function-name)) ;; Grovel around in the function's constant pool looking for ;; function-references. These may be for #', but they're ;; probably going to be for normal calls. ;; TODO: This doesn't work well on interpreted functions or ;; funcallable instances. (callees (remove-duplicates (get-all-frefs-in-function fn)))) (loop for fref in callees for name = (sys.int::function-reference-name fref) for fn = (sys.int::function-reference-function fref) when fn collect `((defun ,name) ,(function-location fn))))) ;;;; Documentation (defimplementation arglist (name) (let ((macro (when (symbolp name) (macro-function name))) (fn (if (functionp name) name (ignore-errors (fdefinition name))))) (cond (macro (get name 'sys.int::macro-lambda-list)) (fn (cond ((typep fn 'mezzano.clos:standard-generic-function) (mezzano.clos:generic-function-lambda-list fn)) (t (function-lambda-list fn)))) (t :not-available)))) (defun function-lambda-list (function) (sys.int::debug-info-lambda-list (sys.int::function-debug-info function))) (defimplementation type-specifier-p (symbol) (cond ((or (get symbol 'sys.int::type-expander) (get symbol 'sys.int::compound-type) (get symbol 'sys.int::type-symbol)) t) (t :not-available))) (defimplementation function-name (function) (sys.int::function-name function)) (defimplementation valid-function-name-p (form) "Is FORM syntactically valid to name a function? If true, FBOUNDP should not signal a type-error for FORM." (flet ((length=2 (list) (and (not (null (cdr list))) (null (cddr list))))) (or (symbolp form) (and (consp form) (length=2 form) (or (eq (first form) 'setf) (eq (first form) 'sys.int::cas)) (symbolp (second form)))))) (defimplementation describe-symbol-for-emacs (symbol) (let ((result '())) (when (boundp symbol) (setf (getf result :variable) nil)) (when (and (fboundp symbol) (not (macro-function symbol))) (setf (getf result :function) (function-docstring symbol))) (when (fboundp `(setf ,symbol)) (setf (getf result :setf) (function-docstring `(setf ,symbol)))) (when (get symbol 'sys.int::setf-expander) (setf (getf result :setf) nil)) (when (special-operator-p symbol) (setf (getf result :special-operator) nil)) (when (macro-function symbol) (setf (getf result :macro) nil)) (when (compiler-macro-function symbol) (setf (getf result :compiler-macro) nil)) (when (type-specifier-p symbol) (setf (getf result :type) nil)) (when (find-class symbol nil) (setf (getf result :class) nil)) result)) (defun function-docstring (function-name) (let* ((definition (fdefinition function-name)) (debug-info (sys.int::function-debug-info definition))) (sys.int::debug-info-docstring debug-info))) ;;;; Multithreading ;; FIXME: This should be a weak table. (defvar *thread-ids-for-emacs* (make-hash-table)) (defvar *next-thread-id-for-emacs* 0) (defvar *thread-id-for-emacs-lock* (mezzano.supervisor:make-mutex "SWANK thread ID table")) (defimplementation spawn (fn &key name) (mezzano.supervisor:make-thread fn :name name)) (defimplementation thread-id (thread) (mezzano.supervisor:with-mutex (*thread-id-for-emacs-lock*) (let ((id (gethash thread *thread-ids-for-emacs*))) (when (null id) (setf id (incf *next-thread-id-for-emacs*) (gethash thread *thread-ids-for-emacs*) id (gethash id *thread-ids-for-emacs*) thread)) id))) (defimplementation find-thread (id) (mezzano.supervisor:with-mutex (*thread-id-for-emacs-lock*) (gethash id *thread-ids-for-emacs*))) (defimplementation thread-name (thread) (mezzano.supervisor:thread-name thread)) (defimplementation thread-status (thread) (format nil "~:(~A~)" (mezzano.supervisor:thread-state thread))) (defimplementation current-thread () (mezzano.supervisor:current-thread)) (defimplementation all-threads () (mezzano.supervisor:all-threads)) (defimplementation thread-alive-p (thread) (not (eql (mezzano.supervisor:thread-state thread) :dead))) (defimplementation interrupt-thread (thread fn) (mezzano.supervisor:establish-thread-foothold thread fn)) (defimplementation kill-thread (thread) ;; Documentation says not to execute unwind-protected sections, but there's ;; no way to do that. ;; And killing threads at arbitrary points without unwinding them is a good ;; way to hose the system. (mezzano.supervisor:terminate-thread thread)) (defvar *mailbox-lock* (mezzano.supervisor:make-mutex "mailbox lock")) (defvar *mailboxes* (list)) (defstruct (mailbox (:conc-name mailbox.)) thread (mutex (mezzano.supervisor:make-mutex)) (queue '() :type list)) (defun mailbox (thread) "Return THREAD's mailbox." ;; Use weak pointers to avoid holding on to dead threads forever. (mezzano.supervisor:with-mutex (*mailbox-lock*) ;; Flush forgotten threads. (setf *mailboxes* (remove-if-not #'sys.int::weak-pointer-value *mailboxes*)) (loop for entry in *mailboxes* do (multiple-value-bind (key value livep) (sys.int::weak-pointer-pair entry) (when (eql key thread) (return value))) finally (let ((mb (make-mailbox :thread thread))) (push (sys.int::make-weak-pointer thread mb) *mailboxes*) (return mb))))) (defimplementation send (thread message) (let* ((mbox (mailbox thread)) (mutex (mailbox.mutex mbox))) (mezzano.supervisor:with-mutex (mutex) (setf (mailbox.queue mbox) (nconc (mailbox.queue mbox) (list message)))))) (defvar *receive-if-sleep-time* 0.02) (defimplementation receive-if (test &optional timeout) (let* ((mbox (mailbox (current-thread))) (mutex (mailbox.mutex mbox))) (assert (or (not timeout) (eq timeout t))) (loop (check-slime-interrupts) (mezzano.supervisor: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)))) (sleep *receive-if-sleep-time*)))) (defvar *registered-threads* (make-hash-table)) (defvar *registered-threads-lock* (mezzano.supervisor:make-mutex "registered threads lock")) (defimplementation register-thread (name thread) (declare (type symbol name)) (mezzano.supervisor:with-mutex (*registered-threads-lock*) (etypecase thread (null (remhash name *registered-threads*)) (mezzano.supervisor:thread (setf (gethash name *registered-threads*) thread)))) nil) (defimplementation find-registered (name) (mezzano.supervisor:with-mutex (*registered-threads-lock*) (values (gethash name *registered-threads*)))) (defimplementation wait-for-input (streams &optional timeout) (loop (let ((ready '())) (dolist (s streams) (when (or (listen s) (and (typep s 'mezzano.network.tcp::tcp-stream) (mezzano.network.tcp::tcp-connection-closed-p s))) (push s ready))) (when ready (return ready)) (when (check-slime-interrupts) (return :interrupt)) (when timeout (return '())) (sleep 1) (when (numberp timeout) (decf timeout 1) (when (not (plusp timeout)) (return '())))))) ;;;; Locks (defstruct recursive-lock mutex (depth 0)) (defimplementation make-lock (&key name) (make-recursive-lock :mutex (mezzano.supervisor:make-mutex name))) (defimplementation call-with-lock-held (lock function) (cond ((mezzano.supervisor:mutex-held-p (recursive-lock-mutex lock)) (unwind-protect (progn (incf (recursive-lock-depth lock)) (funcall function)) (decf (recursive-lock-depth lock)))) (t (mezzano.supervisor:with-mutex ((recursive-lock-mutex lock)) (multiple-value-prog1 (funcall function) (assert (eql (recursive-lock-depth lock) 0))))))) ;;;; Character names (defimplementation character-completion-set (prefix matchp) ;; TODO: Unicode characters too. (loop for names in sys.int::*char-name-alist* append (loop for name in (rest names) when (funcall matchp prefix name) collect name))) ;;;; Inspector (defmethod emacs-inspect ((o function)) (case (sys.int::%object-tag o) (#.sys.int::+object-tag-function+ (label-value-line* (:name (sys.int::function-name o)) (:arglist (arglist o)) (:debug-info (sys.int::function-debug-info o)))) (#.sys.int::+object-tag-closure+ (append (label-value-line :function (sys.int::%closure-function o)) `("Closed over values:" (:newline)) (loop for i below (sys.int::%closure-length o) append (label-value-line i (sys.int::%closure-value o i))))) (t (call-next-method)))) (defmethod emacs-inspect ((o sys.int::weak-pointer)) (label-value-line* (:key (sys.int::weak-pointer-key o)) (:value (sys.int::weak-pointer-value o)))) (defmethod emacs-inspect ((o sys.int::function-reference)) (label-value-line* (:name (sys.int::function-reference-name o)) (:function (sys.int::function-reference-function o)))) (defmethod emacs-inspect ((object structure-object)) (let ((class (class-of object))) `("Class: " (:value ,class) (:newline) ,@(swank::all-slots-for-inspector object)))) (in-package :swank) (defmethod all-slots-for-inspector ((object structure-object)) (let* ((class (class-of object)) (direct-slots (swank-mop:class-direct-slots class)) (effective-slots (swank-mop:class-slots class)) (longest-slot-name-length (loop for slot :in effective-slots maximize (length (symbol-name (swank-mop:slot-definition-name slot))))) (checklist (reinitialize-checklist (ensure-istate-metadata object :checklist (make-checklist (length effective-slots))))) (grouping-kind ;; We box the value so we can re-set it. (ensure-istate-metadata object :grouping-kind (box *inspector-slots-default-grouping*))) (sort-order (ensure-istate-metadata object :sort-order (box *inspector-slots-default-order*))) (sort-predicate (ecase (ref sort-order) (:alphabetically #'string<) (:unsorted (constantly nil)))) (sorted-slots (sort (copy-seq effective-slots) sort-predicate :key #'swank-mop:slot-definition-name)) (effective-slots (ecase (ref grouping-kind) (:all sorted-slots) (:inheritance (stable-sort-by-inheritance sorted-slots class sort-predicate))))) `("--------------------" (:newline) " Group slots by inheritance " (:action ,(ecase (ref grouping-kind) (:all "[ ]") (:inheritance "[X]")) ,(lambda () ;; We have to do this as the order of slots will ;; be sorted differently. (fill (checklist.buttons checklist) nil) (setf (ref grouping-kind) (ecase (ref grouping-kind) (:all :inheritance) (:inheritance :all)))) :refreshp t) (:newline) " Sort slots alphabetically " (:action ,(ecase (ref sort-order) (:unsorted "[ ]") (:alphabetically "[X]")) ,(lambda () (fill (checklist.buttons checklist) nil) (setf (ref sort-order) (ecase (ref sort-order) (:unsorted :alphabetically) (:alphabetically :unsorted)))) :refreshp t) (:newline) ,@ (case (ref grouping-kind) (:all `((:newline) "All Slots:" (:newline) ,@(make-slot-listing checklist object class effective-slots direct-slots longest-slot-name-length))) (:inheritance (list-all-slots-by-inheritance checklist object class effective-slots direct-slots longest-slot-name-length))) (:newline) (:action "[set value]" ,(lambda () (do-checklist (idx checklist) (query-and-set-slot class object (nth idx effective-slots)))) :refreshp t) " " (:action "[make unbound]" ,(lambda () (do-checklist (idx checklist) (swank-mop:slot-makunbound-using-class class object (nth idx effective-slots)))) :refreshp t) (:newline))))