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ultimate-vim/sources_non_forked/slimv/slime/swank/mezzano.lisp

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;;;;; -*- 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))))
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