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;;; -*- outline-regexp:";;;;;*" indent-tabs-mode:nil coding:latin-1-unix -*-
;;; This code has been placed in the Public Domain. All warranties
;;; are disclaimed.
;;;; swank.lisp
;;; This file defines the "Swank" TCP server for Emacs to talk to. The
;;; code in this file is purely portable Common Lisp. We do require a
;;; smattering of non-portable functions in order to write the server,
;;; so we have defined them in `swank-backend.lisp' and implemented
;;; them separately for each Lisp implementation. These extensions are
;;; available to us here via the `SWANK-BACKEND' package.
(defpackage :swank
(:use :cl :swank-backend :swank-match :swank-rpc)
(:export #:startup-multiprocessing
;; These are user-configurable variables:
;; This is SETFable.
;; These are re-exported directly from the backend:
(in-package :swank)
;;;; Top-level variables, constants, macros
(defconstant cl-package (find-package :cl)
"The COMMON-LISP package.")
(defconstant keyword-package (find-package :keyword)
"The KEYWORD package.")
(defvar *canonical-package-nicknames*
`((:common-lisp-user . :cl-user))
"Canonical package names to use instead of shortest name/nickname.")
(defvar *auto-abbreviate-dotted-packages* t
"Abbreviate dotted package names to their last component if T.")
(defconstant default-server-port 4005
"The default TCP port for the server (when started manually).")
(defvar *swank-debug-p* t
"When true, print extra debugging information.")
;;;;; SLDB customized pprint dispatch table
;;; CLHS, and CLHS do not specify *PRINT-LENGTH* to
;;; affect the printing of strings and bit-vectors.
;;; We use a customized pprint dispatch table to do it for us.
(defvar *sldb-string-length* nil)
(defvar *sldb-bitvector-length* nil)
(defvar *sldb-pprint-dispatch-table*
(let ((initial-table (copy-pprint-dispatch nil))
(result-table (copy-pprint-dispatch nil)))
(flet ((sldb-bitvector-pprint (stream bitvector)
;;; Truncate bit-vectors according to *SLDB-BITVECTOR-LENGTH*.
(if (not *sldb-bitvector-length*)
(write bitvector :stream stream :circle nil
:pprint-dispatch initial-table)
(loop initially (write-string "#*" stream)
for i from 0 and bit across bitvector do
(when (= i *sldb-bitvector-length*)
(write-string "..." stream)
(write-char (if (= bit 0) #\0 #\1) stream))))
(sldb-string-pprint (stream string)
;;; Truncate strings according to *SLDB-STRING-LENGTH*.
(cond ((not *print-escape*)
(write-string string stream))
((not *sldb-string-length*)
(write string :stream stream :circle nil
:pprint-dispatch initial-table))
(escape-string string stream
:length *sldb-string-length*)))))
(set-pprint-dispatch 'bit-vector #'sldb-bitvector-pprint 0 result-table)
(set-pprint-dispatch 'string #'sldb-string-pprint 0 result-table)
(defvar *sldb-printer-bindings*
`((*print-pretty* . t)
(*print-level* . 4)
(*print-length* . 10)
(*print-circle* . t)
(*print-readably* . nil)
(*print-pprint-dispatch* . ,*sldb-pprint-dispatch-table*)
(*print-gensym* . t)
(*print-base* . 10)
(*print-radix* . nil)
(*print-array* . t)
(*print-lines* . nil)
(*print-escape* . t)
(*print-right-margin* . 65)
(*sldb-bitvector-length* . 25)
(*sldb-string-length* . 50))
"A set of printer variables used in the debugger.")
(defvar *backtrace-pprint-dispatch-table*
(let ((table (copy-pprint-dispatch nil)))
(flet ((print-string (stream string)
(cond (*print-escape*
(escape-string string stream
:map '((#\" . "\\\"")
(#\\ . "\\\\")
(#\newline . "\\n")
(#\return . "\\r"))))
(t (write-string string stream)))))
(set-pprint-dispatch 'string #'print-string 0 table)
(defvar *backtrace-printer-bindings*
`((*print-pretty* . t)
(*print-readably* . nil)
(*print-level* . 4)
(*print-length* . 6)
(*print-lines* . 1)
(*print-right-margin* . 200)
(*print-pprint-dispatch* . ,*backtrace-pprint-dispatch-table*))
"Pretter settings for printing backtraces.")
(defvar *default-worker-thread-bindings* '()
"An alist to initialize dynamic variables in worker threads.
The list has the form ((VAR . VALUE) ...). Each variable VAR will be
bound to the corresponding VALUE.")
(defun call-with-bindings (alist fun)
"Call FUN with variables bound according to ALIST.
ALIST is a list of the form ((VAR . VAL) ...)."
(let* ((rlist (reverse alist))
(vars (mapcar #'car rlist))
(vals (mapcar #'cdr rlist)))
(progv vars vals
(funcall fun))))
(defmacro with-bindings (alist &body body)
"See `call-with-bindings'."
`(call-with-bindings ,alist (lambda () ,@body)))
;;; The `DEFSLIMEFUN' macro defines a function that Emacs can call via
;;; RPC.
(defmacro defslimefun (name arglist &body rest)
"A DEFUN for functions that Emacs can call by RPC."
(defun ,name ,arglist ,@rest)
;; see <>
(eval-when (:compile-toplevel :load-toplevel :execute)
(export ',name (symbol-package ',name)))))
(defun missing-arg ()
"A function that the compiler knows will never to return a value.
You can use (MISSING-ARG) as the initform for defstruct slots that
must always be supplied. This way the :TYPE slot option need not
include some arbitrary initial value like NIL."
(error "A required &KEY or &OPTIONAL argument was not supplied."))
;;;; Hooks
;;; We use Emacs-like `add-hook' and `run-hook' utilities to support
;;; simple indirection. The interface is more CLish than the Emacs
;;; Lisp one.
(defmacro add-hook (place function)
"Add FUNCTION to the list of values on PLACE."
`(pushnew ,function ,place))
(defun run-hook (functions &rest arguments)
"Call each of FUNCTIONS with ARGUMENTS."
(dolist (function functions)
(apply function arguments)))
(defvar *new-connection-hook* '()
"This hook is run each time a connection is established.
The connection structure is given as the argument.
Backend code should treat the connection structure as opaque.")
(defvar *connection-closed-hook* '()
"This hook is run when a connection is closed.
The connection as passed as an argument.
Backend code should treat the connection structure as opaque.")
(defvar *pre-reply-hook* '()
"Hook run (without arguments) immediately before replying to an RPC.")
(defvar *after-init-hook* '()
"Hook run after user init files are loaded.")
;;;; Connections
;;; Connection structures represent the network connections between
;;; Emacs and Lisp. Each has a socket stream, a set of user I/O
;;; streams that redirect to Emacs, and optionally a second socket
;;; used solely to pipe user-output to Emacs (an optimization). This
;;; is also the place where we keep everything that needs to be
;;; freed/closed/killed when we disconnect.
(defstruct (connection
(:constructor %make-connection)
(:conc-name connection.)
(:print-function print-connection))
;; The listening socket. (usually closed)
(socket (missing-arg) :type t :read-only t)
;; Character I/O stream of socket connection. Read-only to avoid
;; race conditions during initialization.
(socket-io (missing-arg) :type stream :read-only t)
;; Optional dedicated output socket (backending `user-output' slot).
;; Has a slot so that it can be closed with the connection.
(dedicated-output nil :type (or stream null))
;; Streams that can be used for user interaction, with requests
;; redirected to Emacs.
(user-input nil :type (or stream null))
(user-output nil :type (or stream null))
(user-io nil :type (or stream null))
;; Bindings used for this connection (usually streams)
;; A stream that we use for *trace-output*; if nil, we user user-output.
(trace-output nil :type (or stream null))
;; A stream where we send REPL results.
(repl-results nil :type (or stream null))
;; In multithreaded systems we delegate certain tasks to specific
;; threads. The `reader-thread' is responsible for reading network
;; requests from Emacs and sending them to the `control-thread'; the
;; `control-thread' is responsible for dispatching requests to the
;; threads that should handle them; the `repl-thread' is the one
;; that evaluates REPL expressions. The control thread dispatches
;; all REPL evaluations to the REPL thread and for other requests it
;; spawns new threads.
;; Callback functions:
;; (SERVE-REQUESTS <this-connection>) serves all pending requests
;; from Emacs.
(serve-requests (missing-arg) :type function)
;; (CLEANUP <this-connection>) is called when the connection is
;; closed.
(cleanup nil :type (or null function))
;; Cache of macro-indentation information that has been sent to Emacs.
;; This is used for preparing deltas to update Emacs's knowledge.
;; Maps: symbol -> indentation-specification
(indentation-cache (make-hash-table :test 'eq) :type hash-table)
;; The list of packages represented in the cache:
(indentation-cache-packages '())
;; The communication style used.
(communication-style nil :type (member nil :spawn :sigio :fd-handler))
;; The coding system for network streams.
;; The SIGINT handler we should restore when the connection is
;; closed.
(defun print-connection (conn stream depth)
(declare (ignore depth))
(print-unreadable-object (conn stream :type t :identity t)))
(defvar *connections* '()
"List of all active connections, with the most recent at the front.")
(defvar *emacs-connection* nil
"The connection to Emacs currently in use.")
(defun default-connection ()
"Return the 'default' Emacs connection.
This connection can be used to talk with Emacs when no specific
connection is in use, i.e. *EMACS-CONNECTION* is NIL.
The default connection is defined (quite arbitrarily) as the most
recently established one."
(first *connections*))
(defun make-connection (socket stream style coding-system)
(multiple-value-bind (serve cleanup)
(ecase style
(values #'spawn-threads-for-connection #'cleanup-connection-threads))
(values #'install-sigio-handler #'deinstall-sigio-handler))
(values #'install-fd-handler #'deinstall-fd-handler))
(values #'simple-serve-requests nil)))
(let ((conn (%make-connection :socket socket
:socket-io stream
:communication-style style
:coding-system coding-system
:serve-requests serve
:cleanup cleanup)))
(run-hook *new-connection-hook* conn)
(push conn *connections*)
(defun connection.external-format (connection)
(stream-external-format (connection.socket-io connection))))
(defslimefun ping (tag)
(defun safe-backtrace ()
(lambda () (backtrace 0 nil)))))
(define-condition swank-error (error)
((backtrace :initarg :backtrace :reader swank-error.backtrace)
(condition :initarg :condition :reader swank-error.condition))
(:report (lambda (c s) (princ (swank-error.condition c) s)))
(:documentation "Condition which carries a backtrace."))
(defun make-swank-error (condition &optional (backtrace (safe-backtrace)))
(make-condition 'swank-error :condition condition :backtrace backtrace))
(defvar *debug-on-swank-protocol-error* nil
"When non-nil invoke the system debugger on errors that were
signalled during decoding/encoding the wire protocol. Do not set this
to T unless you want to debug swank internals.")
(defmacro with-swank-error-handler ((connection) &body body)
"Close the connection on internal `swank-error's."
(let ((conn (gensym)))
`(let ((,conn ,connection))
(handler-bind ((swank-error
(lambda (condition)
(when *debug-on-swank-protocol-error*
(invoke-default-debugger condition)))))
(progn . ,body))
(swank-error (condition)
(close-connection ,conn
(swank-error.condition condition)
(swank-error.backtrace condition)))))))
(defmacro with-panic-handler ((connection) &body body)
"Close the connection on unhandled `serious-condition's."
(let ((conn (gensym)))
`(let ((,conn ,connection))
(handler-bind ((serious-condition
(lambda (condition)
(close-connection ,conn condition (safe-backtrace)))))
. ,body))))
(add-hook *new-connection-hook* 'notify-backend-of-connection)
(defun notify-backend-of-connection (connection)
(declare (ignore connection))
;;;; Utilities
;;;;; Logging
(defvar *swank-io-package*
(let ((package (make-package :swank-io-package :use '())))
(import '(nil t quote) package)
(defvar *log-events* nil)
(defvar *log-output* nil) ; should be nil for image dumpers
(defun init-log-output ()
(unless *log-output*
(setq *log-output* (real-output-stream *error-output*))))
(add-hook *after-init-hook* 'init-log-output)
(defun real-input-stream (stream)
(typecase stream
(real-input-stream (symbol-value (synonym-stream-symbol stream))))
(real-input-stream (two-way-stream-input-stream stream)))
(t stream)))
(defun real-output-stream (stream)
(typecase stream
(real-output-stream (symbol-value (synonym-stream-symbol stream))))
(real-output-stream (two-way-stream-output-stream stream)))
(t stream)))
(defvar *event-history* (make-array 40 :initial-element nil)
"A ring buffer to record events for better error messages.")
(defvar *event-history-index* 0)
(defvar *enable-event-history* t)
(defun log-event (format-string &rest args)
"Write a message to *terminal-io* when *log-events* is non-nil.
Useful for low level debugging."
(let ((*print-readably* nil)
(*print-pretty* nil)
(*package* *swank-io-package*))
(when *enable-event-history*
(setf (aref *event-history* *event-history-index*)
(format nil "~?" format-string args))
(setf *event-history-index*
(mod (1+ *event-history-index*) (length *event-history*))))
(when *log-events*
(write-string (escape-non-ascii (format nil "~?" format-string args))
(force-output *log-output*)))))
(defun event-history-to-list ()
"Return the list of events (older events first)."
(let ((arr *event-history*)
(idx *event-history-index*))
(concatenate 'list (subseq arr idx) (subseq arr 0 idx))))
(defun clear-event-history ()
(fill *event-history* nil)
(setq *event-history-index* 0))
(defun dump-event-history (stream)
(dolist (e (event-history-to-list))
(dump-event e stream)))
(defun dump-event (event stream)
(cond ((stringp event)
(write-string (escape-non-ascii event) stream))
((null event))
(escape-non-ascii (format nil "Unexpected event: ~A~%" event))
(defun escape-non-ascii (string)
"Return a string like STRING but with non-ascii chars escaped."
(cond ((ascii-string-p string) string)
(t (with-output-to-string (out)
(loop for c across string do
(cond ((ascii-char-p c) (write-char c out))
(t (format out "\\x~4,'0X" (char-code c)))))))))
(defun ascii-string-p (o)
(and (stringp o)
(every #'ascii-char-p o)))
(defun ascii-char-p (c)
(<= (char-code c) 127))
;;;;; Helper macros
(defmacro destructure-case (value &rest patterns)
"Dispatch VALUE to one of PATTERNS.
A cross between `case' and `destructuring-bind'.
The pattern syntax is:
The list of patterns is searched for a HEAD `eq' to the car of
VALUE. If one is found, the BODY is executed with ARGS bound to the
corresponding values in the CDR of VALUE."
(let ((operator (gensym "op-"))
(operands (gensym "rand-"))
(tmp (gensym "tmp-")))
`(let* ((,tmp ,value)
(,operator (car ,tmp))
(,operands (cdr ,tmp)))
(case ,operator
,@(loop for (pattern . body) in patterns collect
(if (eq pattern t)
`(t ,@body)
(destructuring-bind (op &rest rands) pattern
`(,op (destructuring-bind ,rands ,operands
,@(if (eq (caar (last patterns)) t)
`((t (error "destructure-case failed: ~S" ,tmp))))))))
;; If true execute interrupts, otherwise queue them.
;; Note: `with-connection' binds *pending-slime-interrupts*.
(defvar *slime-interrupts-enabled*)
(defmacro with-interrupts-enabled% (flag body)
,@(if flag '((check-slime-interrupts)))
(let ((*slime-interrupts-enabled* ,flag))
,@(if flag '((check-slime-interrupts))))))
(defmacro with-slime-interrupts (&body body)
`(with-interrupts-enabled% t ,body))
(defmacro without-slime-interrupts (&body body)
`(with-interrupts-enabled% nil ,body))
(defun invoke-or-queue-interrupt (function)
(log-event "invoke-or-queue-interrupt: ~a~%" function)
(cond ((not (boundp '*slime-interrupts-enabled*))
(funcall function)))
(log-event "interrupts-enabled~%")
(funcall function))
(setq *pending-slime-interrupts*
(nconc *pending-slime-interrupts*
(list function)))
(cond ((cdr *pending-slime-interrupts*)
(log-event "too many queued interrupts~%")
(with-simple-restart (continue "Continue from interrupt")
(handler-bind ((serious-condition #'invoke-slime-debugger))
(log-event "queue-interrupt: ~a~%" function)
(when *interrupt-queued-handler*
(funcall *interrupt-queued-handler*)))))))
(defmacro with-io-redirection ((connection) &body body)
"Execute BODY I/O redirection to CONNECTION. "
`(with-bindings (connection.env ,connection)
. ,body))
(defmacro with-connection ((connection) &body body)
"Execute BODY in the context of CONNECTION."
`(let ((connection ,connection)
(function (lambda () . ,body)))
(if (eq *emacs-connection* connection)
(funcall function)
(let ((*emacs-connection* connection)
(*pending-slime-interrupts* '()))
(with-swank-error-handler (connection)
(with-io-redirection (connection)
(call-with-debugger-hook #'swank-debugger-hook function))))))))
(defun call-with-retry-restart (msg thunk)
(loop (with-simple-restart (retry "~a" msg)
(return (funcall thunk)))))
(defmacro with-retry-restart ((&key (msg "Retry.")) &body body)
(check-type msg string)
`(call-with-retry-restart ,msg (lambda () ,@body)))
(defmacro with-struct* ((conc-name get obj) &body body)
(let ((var (gensym)))
`(let ((,var ,obj))
(macrolet ((,get (slot)
(let ((getter (intern (concatenate 'string
',(string conc-name)
(string slot))
(symbol-package ',conc-name))))
`(,getter ,',var))))
(defmacro do-symbols* ((var &optional (package '*package*) result-form) &body body)
"Just like do-symbols, but makes sure a symbol is visited only once."
(let ((seen-ht (gensym "SEEN-HT")))
`(let ((,seen-ht (make-hash-table :test #'eq)))
(do-symbols (,var ,package ,result-form)
(unless (gethash ,var ,seen-ht)
(setf (gethash ,var ,seen-ht) t)
(tagbody ,@body))))))
(defmacro define-special (name doc)
"Define a special variable NAME with doc string DOC.
This is like defvar, but NAME will not be initialized."
(defvar ,name)
(setf (documentation ',name 'variable) ,doc)))
;;;;; Misc
(defun use-threads-p ()
(eq (connection.communication-style *emacs-connection*) :spawn))
(defun current-thread-id ()
(thread-id (current-thread)))
(declaim (inline ensure-list))
(defun ensure-list (thing)
(if (listp thing) thing (list thing)))
;;;;; Symbols
(defun symbol-status (symbol &optional (package (symbol-package symbol)))
"Returns one of
:INTERNAL if the symbol is _present_ in PACKAGE as an _internal_ symbol,
:EXTERNAL if the symbol is _present_ in PACKAGE as an _external_ symbol,
:INHERITED if the symbol is _inherited_ by PACKAGE through USE-PACKAGE,
but is not _present_ in PACKAGE,
or NIL if SYMBOL is not _accessible_ in PACKAGE.
Be aware not to get confused with :INTERNAL and how \"internal
symbols\" are defined in the spec; there is a slight mismatch of
definition with the Spec and what's commonly meant when talking
about internal symbols most times. As the spec says:
In a package P, a symbol S is
_accessible_ if S is either _present_ in P itself or was
inherited from another package Q (which implies
that S is _external_ in Q.)
You can check that with: (AND (SYMBOL-STATUS S P) T)
_present_ if either P is the /home package/ of S or S has been
imported into P or exported from P by IMPORT, or
EXPORT respectively.
Or more simply, if S is not _inherited_.
You can check that with: (LET ((STATUS (SYMBOL-STATUS S P)))
_external_ if S is going to be inherited into any package that
/uses/ P by means of USE-PACKAGE, MAKE-PACKAGE, or
Note that _external_ implies _present_, since to
make a symbol _external_, you'd have to use EXPORT
which will automatically make the symbol _present_.
You can check that with: (EQ (SYMBOL-STATUS S P) :EXTERNAL)
_internal_ if S is _accessible_ but not _external_.
You can check that with: (LET ((STATUS (SYMBOL-STATUS S P)))
Notice that this is *different* to
because what the spec considers _internal_ is split up into two
explicit pieces: :INTERNAL, and :INHERITED; just as, for instance,
The rationale is that most times when you speak about \"internal\"
symbols, you're actually not including the symbols inherited
from other packages, but only about the symbols directly specific
to the package in question.
(when package ; may be NIL when symbol is completely uninterned.
(check-type symbol symbol) (check-type package package)
(multiple-value-bind (present-symbol status)
(find-symbol (symbol-name symbol) package)
(and (eq symbol present-symbol) status))))
(defun symbol-external-p (symbol &optional (package (symbol-package symbol)))
"True if SYMBOL is external in PACKAGE.
If PACKAGE is not specified, the home package of SYMBOL is used."
(eq (symbol-status symbol package) :external))
(defun classify-symbol (symbol)
"Returns a list of classifiers that classify SYMBOL according to its
underneath objects (e.g. :BOUNDP if SYMBOL constitutes a special
variable.) The list may contain the following classification
(check-type symbol symbol)
(flet ((type-specifier-p (s)
(or (documentation s 'type)
(not (eq (type-specifier-arglist s) :not-available)))))
(let (result)
(when (boundp symbol) (push (if (constantp symbol)
:constant :boundp) result))
(when (fboundp symbol) (push :fboundp result))
(when (type-specifier-p symbol) (push :typespec result))
(when (find-class symbol nil) (push :class result))
(when (macro-function symbol) (push :macro result))
(when (special-operator-p symbol) (push :special-operator result))
(when (find-package symbol) (push :package result))
(when (and (fboundp symbol)
(typep (ignore-errors (fdefinition symbol))
(push :generic-function result))
(defun symbol-classification-string (symbol)
"Return a string in the form -f-c---- where each letter stands for
boundp fboundp generic-function class macro special-operator package"
(let ((letters "bfgctmsp")
(result (copy-seq "--------")))
(flet ((type-specifier-p (s)
(or (documentation s 'type)
(not (eq (type-specifier-arglist s) :not-available))))
(flip (letter)
(setf (char result (position letter letters))
(when (boundp symbol) (flip #\b))
(when (fboundp symbol)
(flip #\f)
(when (typep (ignore-errors (fdefinition symbol))
(flip #\g)))
(when (type-specifier-p symbol) (flip #\t))
(when (find-class symbol nil) (flip #\c) )
(when (macro-function symbol) (flip #\m))
(when (special-operator-p symbol) (flip #\s))
(when (find-package symbol) (flip #\p))
;;;; TCP Server
(defvar *use-dedicated-output-stream* nil
"When T swank will attempt to create a second connection to
Emacs which is used just to send output.")
(defvar *dedicated-output-stream-port* 0
"Which port we should use for the dedicated output stream.")
(defvar *communication-style* (preferred-communication-style))
(defvar *dont-close* nil
"Default value of :dont-close argument to start-server and
(defvar *dedicated-output-stream-buffering*
(if (eq *communication-style* :spawn) :full :none)
"The buffering scheme that should be used for the output stream.
Valid values are :none, :line, and :full.")
(defvar *coding-system* "iso-latin-1-unix")
(defvar *listener-sockets* nil
"A property list of lists containing style, socket pairs used
by swank server listeners, keyed on socket port number. They
are used to close sockets on server shutdown or restart.")
(defun start-server (port-file &key (style *communication-style*)
(dont-close *dont-close*)
(coding-system *coding-system*))
"Start the server and write the listen port number to PORT-FILE.
This is the entry point for Emacs."
(setup-server 0
(lambda (port) (announce-server-port port-file port))
style dont-close coding-system))
(defun create-server (&key (port default-server-port)
(style *communication-style*)
(dont-close *dont-close*)
(coding-system *coding-system*))
"Start a SWANK server on PORT running in STYLE.
If DONT-CLOSE is true then the listen socket will accept multiple
connections, otherwise it will be closed after the first."
(setup-server port #'simple-announce-function
style dont-close coding-system))
(defun find-external-format-or-lose (coding-system)
(or (find-external-format coding-system)
(error "Unsupported coding system: ~s" coding-system)))
(defparameter *loopback-interface* "")
(defun setup-server (port announce-fn style dont-close coding-system)
(declare (type function announce-fn))
(find-external-format-or-lose coding-system)
(let* ((socket (create-socket *loopback-interface* port))
(local-port (local-port socket)))
(funcall announce-fn local-port)
(flet ((serve ()
(accept-connections socket style coding-system dont-close)))
(ecase style
(lambda ()
(spawn (lambda ()
(cond ((not dont-close) (serve))
(t (loop (ignore-errors (serve))))))
:name (cat "Swank " (princ-to-string port))))))
((:fd-handler :sigio)
(add-fd-handler socket (lambda () (serve))))
((nil) (loop do (serve) while dont-close)))
(setf (getf *listener-sockets* port) (list style socket))
(defun stop-server (port)
"Stop server running on PORT."
(let* ((socket-description (getf *listener-sockets* port))
(style (first socket-description))
(socket (second socket-description)))
(ecase style
(let ((thread-position
(lambda (x)
(string-equal (second x)
(cat "Swank " (princ-to-string port))))
(when thread-position
(kill-nth-thread (1- thread-position))
(close-socket socket)
(remf *listener-sockets* port))))
((:fd-handler :sigio)
(remove-fd-handlers socket)
(close-socket socket)
(remf *listener-sockets* port)))))
(defun restart-server (&key (port default-server-port)
(style *communication-style*)
(dont-close *dont-close*)
(coding-system *coding-system*))
"Stop the server listening on PORT, then start a new SWANK server
on PORT running in STYLE. If DONT-CLOSE is true then the listen socket
will accept multiple connections, otherwise it will be closed after the
(stop-server port)
(sleep 5)
(create-server :port port :style style :dont-close dont-close
:coding-system coding-system))
(defun accept-connections (socket style coding-system dont-close)
(let* ((ef (find-external-format-or-lose coding-system))
(client (unwind-protect
(accept-connection socket :external-format ef)
(unless dont-close
(close-socket socket)))))
(authenticate-client client)
(serve-requests (make-connection socket client style coding-system))))
(defun authenticate-client (stream)
(let ((secret (slime-secret)))
(when secret
(set-stream-timeout stream 20)
(let ((first-val (decode-message stream)))
(unless (and (stringp first-val) (string= first-val secret))
(error "Incoming connection doesn't know the password.")))
(set-stream-timeout stream nil))))
(defun slime-secret ()
"Finds the magic secret from the user's home directory. Returns nil
if the file doesn't exist; otherwise the first line of the file."
(with-open-file (in
(merge-pathnames (user-homedir-pathname) #p".slime-secret")
:if-does-not-exist nil)
(and in (read-line in nil ""))))
(defun serve-requests (connection)
"Read and process all requests on connections."
(funcall (connection.serve-requests connection) connection))
(defun announce-server-port (file port)
(with-open-file (s file
:direction :output
:if-exists :error
:if-does-not-exist :create)
(format s "~S~%" port))
(simple-announce-function port))
(defun simple-announce-function (port)
(when *swank-debug-p*
(format *log-output* "~&;; Swank started at port: ~D.~%" port)
(force-output *log-output*)))
(defun open-streams (connection)
"Return the 5 streams for IO redirection:
(let* ((input-fn
(lambda ()
(with-connection (connection)
(with-simple-restart (abort-read
"Abort reading input from Emacs.")
(dedicated-output (if *use-dedicated-output-stream*
(connection.socket-io connection))))
(in (make-input-stream input-fn))
(out (or dedicated-output
(make-output-stream (make-output-function connection))))
(io (make-two-way-stream in out))
(repl-results (make-output-stream-for-target connection
(when (eq (connection.communication-style connection) :spawn)
(setf ( connection)
(spawn (lambda () (auto-flush-loop out))
:name "auto-flush-thread")))
(values dedicated-output in out io repl-results)))
;; FIXME: if wait-for-event aborts the event will stay in the queue forever.
(defun make-output-function (connection)
"Create function to send user output to Emacs."
(let ((i 0) (tag 0) (l 0))
(lambda (string)
(with-connection (connection)
(multiple-value-setq (i tag l)
(send-user-output string i tag l))))))
(defvar *maximum-pipelined-output-chunks* 50)
(defvar *maximum-pipelined-output-length* (* 80 20 5))
(defun send-user-output (string pcount tag plength)
;; send output with flow control
(when (or (> pcount *maximum-pipelined-output-chunks*)
(> plength *maximum-pipelined-output-length*))
(setf tag (mod (1+ tag) 1000))
(send-to-emacs `(:ping ,(current-thread-id) ,tag))
(with-simple-restart (abort "Abort sending output to Emacs.")
(wait-for-event `(:emacs-pong ,tag)))
(setf pcount 0)
(setf plength 0))
(send-to-emacs `(:write-string ,string))
(values (1+ pcount) tag (+ plength (length string))))
(defun make-output-function-for-target (connection target)
"Create a function to send user output to a specific TARGET in Emacs."
(lambda (string)
(with-connection (connection)
(abort "Abort sending output to Emacs.")
(send-to-emacs `(:write-string ,string ,target))))))
(defun make-output-stream-for-target (connection target)
"Create a stream that sends output to a specific TARGET in Emacs."
(make-output-stream (make-output-function-for-target connection target)))
(defun open-dedicated-output-stream (socket-io)
"Open a dedicated output connection to the Emacs on SOCKET-IO.
Return an output stream suitable for writing program output.
This is an optimized way for Lisp to deliver output to Emacs."
(let ((socket (create-socket *loopback-interface*
(let ((port (local-port socket)))
(encode-message `(:open-dedicated-output-stream ,port) socket-io)
(let ((dedicated (accept-connection
(or (ignore-errors
(stream-external-format socket-io))
:buffering *dedicated-output-stream-buffering*
:timeout 30)))
(authenticate-client dedicated)
(close-socket socket)
(setf socket nil)
(when socket
(close-socket socket)))))
;;;;; Event Decoding/Encoding
(defun decode-message (stream)
"Read an S-expression from STREAM using the SLIME protocol."
(log-event "decode-message~%")
(handler-bind ((error (lambda (c) (error (make-swank-error c)))))
(handler-case (read-message stream *swank-io-package*)
(swank-reader-error (c)
`(:reader-error ,(swank-reader-error.packet c)
,(swank-reader-error.cause c)))))))
(defun encode-message (message stream)
"Write an S-expression to STREAM using the SLIME protocol."
(log-event "encode-message~%")
(handler-bind ((error (lambda (c) (error (make-swank-error c)))))
(write-message message *swank-io-package* stream))))
;;;;; Event Processing
(defvar *sldb-quit-restart* nil
"The restart that will be invoked when the user calls sldb-quit.")
;; Establish a top-level restart and execute BODY.
;; Execute K if the restart is invoked.
(defmacro with-top-level-restart ((connection k) &body body)
`(with-connection (,connection)
(let ((*sldb-quit-restart* (find-restart 'abort)))
(abort (&optional v)
:report "Return to SLIME's top level."
(declare (ignore v))
(defun handle-requests (connection &optional timeout)
"Read and process :emacs-rex requests.
The processing is done in the extent of the toplevel restart."
(with-connection (connection)
(cond (*sldb-quit-restart*
(process-requests timeout))
(with-top-level-restart (connection (go start))
(process-requests timeout)))))))
(defun process-requests (timeout)
"Read and process requests from Emacs."
(multiple-value-bind (event timeout?)
(wait-for-event `(or (:emacs-rex . _)
(:emacs-channel-send . _))
(when timeout? (return))
(destructure-case event
((:emacs-rex &rest args) (apply #'eval-for-emacs args))
((:emacs-channel-send channel (selector &rest args))
(channel-send channel selector args))))))
(defun current-socket-io ()
(connection.socket-io *emacs-connection*))
(defun close-connection (c condition backtrace)
(let ((*debugger-hook* nil))
(log-event "close-connection: ~a ...~%" condition)
(format *log-output* "~&;; swank:close-connection: ~A~%" condition)
(let ((cleanup (connection.cleanup c)))
(when cleanup
(funcall cleanup c)))
(close (connection.socket-io c))
(when (connection.dedicated-output c)
(close (connection.dedicated-output c)))
(setf *connections* (remove c *connections*))
(run-hook *connection-closed-hook* c)
(when (and condition (not (typep condition 'end-of-file)))
(finish-output *log-output*)
(format *log-output* "~&;; Event history start:~%")
(dump-event-history *log-output*)
(format *log-output* ";; Event history end.~%~
;; Backtrace:~%~{~A~%~}~
;; Connection to Emacs lost. [~%~
;; condition: ~A~%~
;; type: ~S~%~
;; encoding: ~A vs. ~A~%~
;; style: ~S dedicated: ~S]~%"
(escape-non-ascii (safe-condition-message condition) )
(type-of condition)
(connection.coding-system c)
(connection.external-format c)
(connection.communication-style c)
(finish-output *log-output*))
(log-event "close-connection ~a ... done.~%" condition)))
;;;;;; Thread based communication
(defvar *active-threads* '())
(defun read-loop (connection)
(let ((input-stream (connection.socket-io connection))
(control-thread (connection.control-thread connection)))
(with-swank-error-handler (connection)
(loop (send control-thread (decode-message input-stream))))))
(defun dispatch-loop (connection)
(let ((*emacs-connection* connection))
(with-panic-handler (connection)
(loop (dispatch-event (receive))))))
(defvar *auto-flush-interval* 0.2)
(defun auto-flush-loop (stream)
(when (not (and (open-stream-p stream)
(output-stream-p stream)))
(return nil))
(finish-output stream)
(sleep *auto-flush-interval*)))
(defun find-repl-thread (connection)
(cond ((not (use-threads-p))
(let ((thread (connection.repl-thread connection)))
(cond ((not thread) nil)
((thread-alive-p thread) thread)
(setf (connection.repl-thread connection)
(spawn-repl-thread connection "new-repl-thread"))))))))
(defun find-worker-thread (id)
(etypecase id
((member t)
(car *active-threads*))
((member :repl-thread)
(find-repl-thread *emacs-connection*))
(find-thread id))))
(defun interrupt-worker-thread (id)
(let ((thread (or (find-worker-thread id)
(find-repl-thread *emacs-connection*)
;; FIXME: to something better here
(spawn (lambda ()) :name "ephemeral"))))
(log-event "interrupt-worker-thread: ~a ~a~%" id thread)
(assert thread)
(cond ((use-threads-p)
(interrupt-thread thread
(lambda ()
;; safely interrupt THREAD
(invoke-or-queue-interrupt #'simple-break))))
(t (simple-break)))))
(defun thread-for-evaluation (id)
"Find or create a thread to evaluate the next request."
(let ((c *emacs-connection*))
(etypecase id
((member t)
(cond ((use-threads-p) (spawn-worker-thread c))
(t (current-thread))))
((member :repl-thread)
(find-repl-thread c))
(find-thread id)))))
(defun spawn-worker-thread (connection)
(spawn (lambda ()
(with-bindings *default-worker-thread-bindings*
(with-top-level-restart (connection nil)
(apply #'eval-for-emacs
(cdr (wait-for-event `(:emacs-rex . _)))))))
:name "worker"))
(defun spawn-repl-thread (connection name)
(spawn (lambda ()
(with-bindings *default-worker-thread-bindings*
(repl-loop connection)))
:name name))
(defun dispatch-event (event)
"Handle an event triggered either by Emacs or within Lisp."
(log-event "dispatch-event: ~s~%" event)
(destructure-case event
((:emacs-rex form package thread-id id)
(let ((thread (thread-for-evaluation thread-id)))
(cond (thread
(push thread *active-threads*)
(send-event thread `(:emacs-rex ,form ,package ,id)))
(list :invalid-rpc id
(format nil "Thread not found: ~s" thread-id))
((:return thread &rest args)
(let ((tail (member thread *active-threads*)))
(setq *active-threads* (nconc (ldiff *active-threads* tail)
(cdr tail))))
(encode-message `(:return ,@args) (current-socket-io)))
((:emacs-interrupt thread-id)
(interrupt-worker-thread thread-id))
:debug :debug-condition :debug-activate :debug-return :channel-send
:presentation-start :presentation-end
:new-package :new-features :ed :indentation-update
:eval :eval-no-wait :background-message :inspect :ping
:y-or-n-p :read-from-minibuffer :read-string :read-aborted)
&rest _)
(declare (ignore _))
(encode-message event (current-socket-io)))
(((:emacs-pong :emacs-return :emacs-return-string) thread-id &rest args)
(send-event (find-thread thread-id) (cons (car event) args)))
((:emacs-channel-send channel-id msg)
(let ((ch (find-channel channel-id)))
(send-event (channel-thread ch) `(:emacs-channel-send ,ch ,msg))))
((:reader-error packet condition)
(encode-message `(:reader-error ,packet
,(safe-condition-message condition))
(defvar *event-queue* '())
(defvar *events-enqueued* 0)
(defun send-event (thread event)
(log-event "send-event: ~s ~s~%" thread event)
(cond ((use-threads-p) (send thread event))
(t (setf *event-queue* (nconc *event-queue* (list event)))
(setf *events-enqueued* (mod (1+ *events-enqueued*)
(defun send-to-emacs (event)
"Send EVENT to Emacs."
;;(log-event "send-to-emacs: ~a" event)
(cond ((use-threads-p)
(send (connection.control-thread *emacs-connection*) event))
(t (dispatch-event event))))
(defun wait-for-event (pattern &optional timeout)
"Scan the event queue for PATTERN and return the event.
If TIMEOUT is 'nil wait until a matching event is enqued.
If TIMEOUT is 't only scan the queue without waiting.
The second return value is t if the timeout expired before a matching
event was found."
(log-event "wait-for-event: ~s ~s~%" pattern timeout)
(cond ((use-threads-p)
(receive-if (lambda (e) (event-match-p e pattern)) timeout))
(wait-for-event/event-loop pattern timeout)))))
(defun wait-for-event/event-loop (pattern timeout)
(assert (or (not timeout) (eq timeout t)))
(let ((event (poll-for-event pattern)))
(when event (return (car event))))
(let ((events-enqueued *events-enqueued*)
(ready (wait-for-input (list (current-socket-io)) timeout)))
(cond ((and timeout (not ready))
(return (values nil t)))
((or (/= events-enqueued *events-enqueued*)
(eq ready :interrupt))
;; rescan event queue, interrupts may enqueue new events
(assert (equal ready (list (current-socket-io))))
(dispatch-event (decode-message (current-socket-io))))))))
(defun poll-for-event (pattern)
(let ((tail (member-if (lambda (e) (event-match-p e pattern))
(when tail
(setq *event-queue* (nconc (ldiff *event-queue* tail)
(cdr tail)))
;;; FIXME: Make this use SWANK-MATCH.
(defun event-match-p (event pattern)
(cond ((or (keywordp pattern) (numberp pattern) (stringp pattern)
(member pattern '(nil t)))
(equal event pattern))
((symbolp pattern) t)
((consp pattern)
(case (car pattern)
((or) (some (lambda (p) (event-match-p event p)) (cdr pattern)))
(t (and (consp event)
(and (event-match-p (car event) (car pattern))
(event-match-p (cdr event) (cdr pattern)))))))
(t (error "Invalid pattern: ~S" pattern))))
(defun spawn-threads-for-connection (connection)
(setf (connection.control-thread connection)
(spawn (lambda () (control-thread connection))
:name "control-thread"))
(defun control-thread (connection)
(with-struct* (connection. @ connection)
(setf (@ control-thread) (current-thread))
(setf (@ reader-thread) (spawn (lambda () (read-loop connection))
:name "reader-thread"))
(dispatch-loop connection)))
(defun cleanup-connection-threads (connection)
(let ((threads (list (connection.repl-thread connection)
(connection.reader-thread connection)
(connection.control-thread connection)
( connection))))
(dolist (thread threads)
(when (and thread
(thread-alive-p thread)
(not (equal (current-thread) thread)))
(kill-thread thread)))))
(defun repl-loop (connection)
(handle-requests connection))
;;;;;; Signal driven IO
(defun install-sigio-handler (connection)
(add-sigio-handler (connection.socket-io connection)
(lambda () (process-io-interrupt connection)))
(handle-requests connection t))
(defvar *io-interupt-level* 0)
(defun process-io-interrupt (connection)
(log-event "process-io-interrupt ~d ...~%" *io-interupt-level*)
(let ((*io-interupt-level* (1+ *io-interupt-level*)))
(lambda () (handle-requests connection t))))
(log-event "process-io-interrupt ~d ... done ~%" *io-interupt-level*))
(defun deinstall-sigio-handler (connection)
(log-event "deinstall-sigio-handler...~%")
(remove-sigio-handlers (connection.socket-io connection))
(log-event "deinstall-sigio-handler...done~%"))
;;;;;; SERVE-EVENT based IO
(defun install-fd-handler (connection)
(add-fd-handler (connection.socket-io connection)
(lambda () (handle-requests connection t)))
(setf (connection.saved-sigint-handler connection)
(lambda ()
(lambda () (dispatch-interrupt-event connection))))))
(handle-requests connection t))
(defun dispatch-interrupt-event (connection)
;; This boils down to INTERRUPT-WORKER-THREAD which uses
(with-connection (connection)
(dispatch-event `(:emacs-interrupt ,(current-thread-id)))))
(defun deinstall-fd-handler (connection)
(log-event "deinstall-fd-handler~%")
(remove-fd-handlers (connection.socket-io connection))
(install-sigint-handler (connection.saved-sigint-handler connection)))
;;;;;; Simple sequential IO
(defun simple-serve-requests (connection)
(with-connection (connection)
(lambda ()
(lambda () (dispatch-interrupt-event connection))))
(lambda ()
(with-simple-restart (close-connection "Close SLIME connection.")
(let* ((stdin (real-input-stream *standard-input*))
(*standard-input* (make-repl-input-stream connection
(tagbody toplevel
(with-top-level-restart (connection (go toplevel))
(close-connection connection nil (safe-backtrace))))
;; this is signalled when our custom stream thinks the end-of-file is reached.
;; (not when the end-of-file on the socket is reached)
(define-condition end-of-repl-input (end-of-file) ())
(defun simple-repl ()
(format t "~a> " (package-string-for-prompt *package*))
(let ((form (handler-case (read)
(end-of-repl-input () (return)))))
(let ((- form)
(values (multiple-value-list (eval form))))
(setq *** ** ** * * (car values)
/// // // / / values
+++ ++ ++ + + form)
(cond ((null values) (format t "; No values~&"))
(t (mapc (lambda (v) (format t "~s~&" v)) values)))))))
(defun make-repl-input-stream (connection stdin)
(lambda () (repl-input-stream-read connection stdin))))
(defun repl-input-stream-read (connection stdin)
(let* ((socket (connection.socket-io connection))
(inputs (list socket stdin))
(ready (wait-for-input inputs)))
(cond ((eq ready :interrupt)
((member socket ready)
;; A Slime request from Emacs is pending; make sure to
;; redirect IO to the REPL buffer.
(with-simple-restart (process-input "Continue reading input.")
(let ((*sldb-quit-restart* (find-restart 'process-input)))
(with-io-redirection (connection)
(handle-requests connection t)))))
((member stdin ready)
;; User typed something into the *inferior-lisp* buffer,
;; so do not redirect.
(return (read-non-blocking stdin)))
(t (assert (null ready)))))))
(defun read-non-blocking (stream)
(with-output-to-string (str)
(loop (let ((c (read-char-no-hang stream)))
(unless c (return))
(write-char c str)))
(end-of-file () (error 'end-of-repl-input :stream stream)))))
;;;; IO to Emacs
;;; This code handles redirection of the standard I/O streams
;;; (`*standard-output*', etc) into Emacs. The `connection' structure
;;; contains the appropriate streams, so all we have to do is make the
;;; right bindings.
;;;;; Global I/O redirection framework
;;; Optionally, the top-level global bindings of the standard streams
;;; can be assigned to be redirected to Emacs. When Emacs connects we
;;; redirect the streams into the connection, and they keep going into
;;; that connection even if more are established. If the connection
;;; handling the streams closes then another is chosen, or if there
;;; are no connections then we revert to the original (real) streams.
;;; It is slightly tricky to assign the global values of standard
;;; streams because they are often shadowed by dynamic bindings. We
;;; solve this problem by introducing an extra indirection via synonym
;;; streams, so that *STANDARD-INPUT* is a synonym stream to
;;; *CURRENT-STANDARD-INPUT*, etc. We never shadow the "current"
;;; variables, so they can always be assigned to affect a global
;;; change.
(defvar *globally-redirect-io* nil
"When non-nil globally redirect all standard streams to Emacs.")
;;;;; Global redirection setup
(defvar *saved-global-streams* '()
"A plist to save and restore redirected stream objects.
E.g. the value for '*standard-output* holds the stream object
for *standard-output* before we install our redirection.")
(defun setup-stream-indirection (stream-var &optional stream)
"Setup redirection scaffolding for a global stream variable.
Supposing (for example) STREAM-VAR is *STANDARD-INPUT*, this macro:
1. Saves the value of *STANDARD-INPUT* in `*SAVED-GLOBAL-STREAMS*'.
2. Creates *CURRENT-STANDARD-INPUT*, initially with the same value as
3. Assigns *STANDARD-INPUT* to a synonym stream pointing to
This has the effect of making *CURRENT-STANDARD-INPUT* contain the
effective global value for *STANDARD-INPUT*. This way we can assign
the effective global value even when *STANDARD-INPUT* is shadowed by a
dynamic binding."
(let ((current-stream-var (prefixed-var '#:current stream-var))
(stream (or stream (symbol-value stream-var))))
;; Save the real stream value for the future.
(setf (getf *saved-global-streams* stream-var) stream)
;; Define a new variable for the effective stream.
;; This can be reassigned.
(proclaim `(special ,current-stream-var))
(set current-stream-var stream)
;; Assign the real binding as a synonym for the current one.
(let ((stream (make-synonym-stream current-stream-var)))
(set stream-var stream)
(set-default-initial-binding stream-var `(quote ,stream)))))
(defun prefixed-var (prefix variable-symbol)
(let ((basename (subseq (symbol-name variable-symbol) 1)))
(intern (format nil "*~A-~A" (string prefix) basename) :swank)))
(defvar *standard-output-streams*
'(*standard-output* *error-output* *trace-output*)
"The symbols naming standard output streams.")
(defvar *standard-input-streams*
"The symbols naming standard input streams.")
(defvar *standard-io-streams*
'(*debug-io* *query-io* *terminal-io*)
"The symbols naming standard io streams.")
(defun init-global-stream-redirection ()
(when *globally-redirect-io*
(cond (*saved-global-streams*
(warn "Streams already redirected."))
(mapc #'setup-stream-indirection
(append *standard-output-streams*
(add-hook *after-init-hook* 'init-global-stream-redirection)
(defun globally-redirect-io-to-connection (connection)
"Set the standard I/O streams to redirect to CONNECTION.
Assigns *CURRENT-<STREAM>* for all standard streams."
(dolist (o *standard-output-streams*)
(set (prefixed-var '#:current o)
(connection.user-output connection)))
;; FIXME: If we redirect standard input to Emacs then we get the
;; regular Lisp top-level trying to read from our REPL.
;; Perhaps the ideal would be for the real top-level to run in a
;; thread with local bindings for all the standard streams. Failing
;; that we probably would like to inhibit it from reading while
;; Emacs is connected.
;; Meanwhile we just leave *standard-input* alone.
(dolist (i *standard-input-streams*)
(set (prefixed-var '#:current i)
(connection.user-input connection)))
(dolist (io *standard-io-streams*)
(set (prefixed-var '#:current io)
(connection.user-io connection))))
(defun revert-global-io-redirection ()
"Set *CURRENT-<STREAM>* to *REAL-<STREAM>* for all standard streams."
(dolist (stream-var (append *standard-output-streams*
(set (prefixed-var '#:current stream-var)
(getf *saved-global-streams* stream-var))))
;;;;; Global redirection hooks
(defvar *global-stdio-connection* nil
"The connection to which standard I/O streams are globally redirected.
NIL if streams are not globally redirected.")
(defun maybe-redirect-global-io (connection)
"Consider globally redirecting to CONNECTION."
(when (and *globally-redirect-io* (null *global-stdio-connection*)
(connection.user-io connection))
(setq *global-stdio-connection* connection)
(globally-redirect-io-to-connection connection)))
(defun update-redirection-after-close (closed-connection)
"Update redirection after a connection closes."
(check-type closed-connection connection)
(when (eq *global-stdio-connection* closed-connection)
(if (and (default-connection) *globally-redirect-io*)
;; Redirect to another connection.
(globally-redirect-io-to-connection (default-connection))
;; No more connections, revert to the real streams.
(progn (revert-global-io-redirection)
(setq *global-stdio-connection* nil)))))
(add-hook *connection-closed-hook* 'update-redirection-after-close)
;;;;; Redirection during requests
;;; We always redirect the standard streams to Emacs while evaluating
;;; an RPC. This is done with simple dynamic bindings.
(defslimefun create-repl (target)
(assert (eq target nil))
(let ((conn *emacs-connection*))
(initialize-streams-for-connection conn)
(with-struct* (connection. @ conn)
(setf (@ env)
`((*standard-output* . ,(@ user-output))
(*standard-input* . ,(@ user-input))
(*trace-output* . ,(or (@ trace-output) (@ user-output)))
(*error-output* . ,(@ user-output))
(*debug-io* . ,(@ user-io))
(*query-io* . ,(@ user-io))
(*terminal-io* . ,(@ user-io))))
(maybe-redirect-global-io conn)
(when (use-threads-p)
(setf (@ repl-thread) (spawn-repl-thread conn "repl-thread")))
(list (package-name *package*)
(package-string-for-prompt *package*)))))
(defun initialize-streams-for-connection (connection)
(multiple-value-bind (dedicated in out io repl-results)
(open-streams connection)
(setf (connection.dedicated-output connection) dedicated
(connection.user-io connection) io
(connection.user-output connection) out
(connection.user-input connection) in
(connection.repl-results connection) repl-results)
;;; Channels
(defvar *channels* '())
(defvar *channel-counter* 0)
(defclass channel ()
((id :reader channel-id)
(thread :initarg :thread :initform (current-thread) :reader channel-thread)
(name :initarg :name :initform nil)))
(defmethod initialize-instance ((ch channel) &rest initargs)
(declare (ignore initargs))
(with-slots (id) ch
(setf id (incf *channel-counter*))
(push (cons id ch) *channels*)))
(defmethod print-object ((c channel) stream)
(print-unreadable-object (c stream :type t)
(with-slots (id name) c
(format stream "~d ~a" id name))))
(defun find-channel (id)
(cdr (assoc id *channels*)))
(defgeneric channel-send (channel selector args))
(defmacro define-channel-method (selector (channel &rest args) &body body)
`(defmethod channel-send (,channel (selector (eql ',selector)) args)
(destructuring-bind ,args args
. ,body)))
(defun send-to-remote-channel (channel-id msg)
(send-to-emacs `(:channel-send ,channel-id ,msg)))
(defclass listener-channel (channel)
((remote :initarg :remote)
(env :initarg :env)))
(defslimefun create-listener (remote)
(let* ((pkg *package*)
(conn *emacs-connection*)
(ch (make-instance 'listener-channel
:remote remote
:env (initial-listener-bindings remote))))
(with-slots (thread id) ch
(when (use-threads-p)
(setf thread (spawn-listener-thread ch conn)))
(list id
(thread-id thread)
(package-name pkg)
(package-string-for-prompt pkg)))))
(defun initial-listener-bindings (remote)
`((*package* . ,*package*)
. ,(make-listener-output-stream remote))
. ,(make-listener-input-stream remote))))
(defun spawn-listener-thread (channel connection)
(spawn (lambda ()
(with-connection (connection)
(destructure-case (wait-for-event `(:emacs-channel-send . _))
((:emacs-channel-send c (selector &rest args))
(assert (eq c channel))
(channel-send channel selector args))))))
:name "swank-listener-thread"))
(define-channel-method :eval ((c listener-channel) string)
(with-slots (remote env) c
(let ((aborted t))
(with-bindings env
(let* ((form (read-from-string string))
(value (eval form)))
(send-to-remote-channel remote
,(prin1-to-string value)))
(setq aborted nil))
(setf env (loop for (sym) in env
collect (cons sym (symbol-value sym))))
(let ((pkg (package-name *package*))
(prompt (package-string-for-prompt *package*)))
(send-to-remote-channel remote
(if aborted
`(:evaluation-aborted ,pkg ,prompt)
`(:prompt ,pkg ,prompt)))))))))
(defun make-listener-output-stream (remote)
(make-output-stream (lambda (string)
(send-to-remote-channel remote
`(:write-string ,string)))))
(defun make-listener-input-stream (remote)
(lambda ()
(let ((tag (make-tag)))
(send-to-remote-channel remote
`(:read-string ,(current-thread-id) ,tag))
(let ((ok nil))
(prog1 (caddr (wait-for-event
`(:emacs-return-string ,tag value)))
(setq ok t))
(unless ok
(send-to-remote-channel remote `(:read-aborted ,tag)))))))))
(defun input-available-p (stream)
;; return true iff we can read from STREAM without waiting or if we
;; hit EOF
(let ((c (read-char-no-hang stream nil :eof)))
(cond ((not c) nil)
((eq c :eof) t)
(unread-char c stream)
(defvar *slime-features* nil
"The feature list that has been sent to Emacs.")
(defun send-oob-to-emacs (object)
(send-to-emacs object))
(defun force-user-output ()
(force-output (connection.user-io *emacs-connection*)))
(add-hook *pre-reply-hook* 'force-user-output)
(defun clear-user-input ()
(clear-input (connection.user-input *emacs-connection*)))
(defvar *tag-counter* 0)
(defun make-tag ()
(setq *tag-counter* (mod (1+ *tag-counter*) (expt 2 22))))
(defun read-user-input-from-emacs ()
(let ((tag (make-tag)))
(send-to-emacs `(:read-string ,(current-thread-id) ,tag))
(let ((ok nil))
(prog1 (caddr (wait-for-event `(:emacs-return-string ,tag value)))
(setq ok t))
(unless ok
(send-to-emacs `(:read-aborted ,(current-thread-id) ,tag)))))))
(defun y-or-n-p-in-emacs (format-string &rest arguments)
"Like y-or-n-p, but ask in the Emacs minibuffer."
(let ((tag (make-tag))
(question (apply #'format nil format-string arguments)))
(send-to-emacs `(:y-or-n-p ,(current-thread-id) ,tag ,question))
(third (wait-for-event `(:emacs-return ,tag result)))))
(defun read-from-minibuffer-in-emacs (prompt &optional initial-value)
"Ask user a question in Emacs' minibuffer. Returns \"\" when user
entered nothing, returns NIL when user pressed C-g."
(check-type prompt string) (check-type initial-value (or null string))
(let ((tag (make-tag)))
(send-to-emacs `(:read-from-minibuffer ,(current-thread-id) ,tag
,prompt ,initial-value))
(third (wait-for-event `(:emacs-return ,tag result)))))
(defun process-form-for-emacs (form)
"Returns a string which emacs will read as equivalent to
FORM. FORM can contain lists, strings, characters, symbols and
Characters are converted emacs' ?<char> notaion, strings are left
as they are (except for espacing any nested \" chars, numbers are
printed in base 10 and symbols are printed as their symbol-name
converted to lower case."
(etypecase form
(string (format nil "~S" form))
(cons (format nil "(~A . ~A)"
(process-form-for-emacs (car form))
(process-form-for-emacs (cdr form))))
(character (format nil "?~C" form))
(symbol (concatenate 'string (when (eq (symbol-package form)
#.(find-package "KEYWORD"))
(string-downcase (symbol-name form))))
(number (let ((*print-base* 10))
(princ-to-string form)))))
(defun eval-in-emacs (form &optional nowait)
"Eval FORM in Emacs."
(cond (nowait
(send-to-emacs `(:eval-no-wait ,(process-form-for-emacs form))))
(let ((tag (make-tag)))
(send-to-emacs `(:eval ,(current-thread-id) ,tag
,(process-form-for-emacs form)))
(let ((value (caddr (wait-for-event `(:emacs-return ,tag result)))))
(destructure-case value
((:ok value) value)
((:abort) (abort))))))))
(defvar *swank-wire-protocol-version* nil
"The version of the swank/slime communication protocol.")
(defslimefun connection-info ()
"Return a key-value list of the form:
PID: is the process-id of Lisp process (or nil, depending on the STYLE)
STYLE: the communication style
FEATURES: a list of keywords
PACKAGE: a list (&key NAME PROMPT)
VERSION: the protocol version"
(let ((c *emacs-connection*))
(setq *slime-features* *features*)
`(:pid ,(getpid) :style ,(connection.communication-style c)
:encoding (:coding-system ,(connection.coding-system c)
;; external-formats are totally implementation-dependent,
;; so better play safe.
:external-format ,(princ-to-string
(connection.external-format c)))
:lisp-implementation (:type ,(lisp-implementation-type)
:name ,(lisp-implementation-type-name)
:version ,(lisp-implementation-version)
:program ,(lisp-implementation-program))
:machine (:instance ,(machine-instance)
:type ,(machine-type)
:version ,(machine-version))
:features ,(features-for-emacs)
:modules ,*modules*
:package (:name ,(package-name *package*)
:prompt ,(package-string-for-prompt *package*))
:version ,*swank-wire-protocol-version*)))
(defslimefun io-speed-test (&optional (n 1000) (m 1))
(let* ((s *standard-output*)
(*trace-output* (make-broadcast-stream s *log-output*)))
(time (progn
(dotimes (i n)
(format s "~D abcdefghijklm~%" i)
(when (zerop (mod n m))
(finish-output s)))
(finish-output s)
(when *emacs-connection*
(eval-in-emacs '(message "done.")))))
(terpri *trace-output*)
(finish-output *trace-output*)
(defun debug-on-swank-error ()
(assert (eq *debug-on-swank-protocol-error* *debug-swank-backend*))
(defun (setf debug-on-swank-error) (new-value)
(setf *debug-on-swank-protocol-error* new-value)
(setf *debug-swank-backend* new-value))
(defslimefun toggle-debug-on-swank-error ()
(setf (debug-on-swank-error) (not (debug-on-swank-error))))
;;;; Reading and printing
(define-special *buffer-package*
"Package corresponding to slime-buffer-package.
EVAL-FOR-EMACS binds *buffer-package*. Strings originating from a slime
buffer are best read in this package. See also FROM-STRING and TO-STRING.")
(define-special *buffer-readtable*
"Readtable associated with the current buffer")
(defmacro with-buffer-syntax ((&optional package) &body body)
"Execute BODY with appropriate *package* and *readtable* bindings.
This should be used for code that is conceptionally executed in an
Emacs buffer."
`(call-with-buffer-syntax ,package (lambda () ,@body)))
(defun call-with-buffer-syntax (package fun)
(let ((*package* (if package
(guess-buffer-package package)
;; Don't shadow *readtable* unnecessarily because that prevents
;; the user from assigning to it.
(if (eq *readtable* *buffer-readtable*)
(call-with-syntax-hooks fun)
(let ((*readtable* *buffer-readtable*))
(call-with-syntax-hooks fun)))))
(defmacro without-printing-errors ((&key object stream
(msg "<<error printing object>>"))
&body body)
"Catches errors during evaluation of BODY and prints MSG instead."
`(handler-case (progn ,@body)
(serious-condition ()
,(cond ((and stream object)
(let ((gstream (gensym "STREAM+")))
`(let ((,gstream ,stream))
(print-unreadable-object (,object ,gstream :type t :identity t)
(write-string ,msg ,gstream)))))
`(write-string ,msg ,stream))
`(with-output-to-string (s)
(print-unreadable-object (,object s :type t :identity t)
(write-string ,msg s))))
(t msg)))))
(defun to-string (object)
The result may not be readable. Handles problems with PRINT-OBJECT methods
(with-buffer-syntax ()
(let ((*print-readably* nil))
(without-printing-errors (:object object :stream nil)
(prin1-to-string object)))))
(defun from-string (string)
"Read string in the *BUFFER-PACKAGE*"
(with-buffer-syntax ()
(let ((*read-suppress* nil))
(values (read-from-string string)))))
(defun parse-string (string package)
(with-buffer-syntax (package)
(let ((*read-suppress* nil))
(read-from-string string))))
;; FIXME: deal with #\| etc. hard to do portably.
(defun tokenize-symbol (string)
"STRING is interpreted as the string representation of a symbol
and is tokenized accordingly. The result is returned in three
values: The package identifier part, the actual symbol identifier
part, and a flag if the STRING represents a symbol that is
internal to the package identifier part. (Notice that the flag is
also true with an empty package identifier part, as the STRING is
considered to represent a symbol internal to some current package.)"
(let ((package (let ((pos (position #\: string)))
(if pos (subseq string 0 pos) nil)))
(symbol (let ((pos (position #\: string :from-end t)))
(if pos (subseq string (1+ pos)) string)))
(internp (not (= (count #\: string) 1))))
(values symbol package internp)))
(defun tokenize-symbol-thoroughly (string)
"This version of TOKENIZE-SYMBOL handles escape characters."
(let ((package nil)
(token (make-array (length string) :element-type 'character
:fill-pointer 0))
(backslash nil)
(vertical nil)
(internp nil))
(loop for char across string do
(vector-push-extend char token)
(setq backslash nil))
((char= char #\\) ; Quotes next character, even within |...|
(setq backslash t))
((char= char #\|)
(setq vertical (not vertical)))
(vector-push-extend char token))
((char= char #\:)
(cond ((and package internp)
(return-from tokenize-symbol-thoroughly))
(setq internp t))
(setq package token
token (make-array (length string)
:element-type 'character
:fill-pointer 0)))))
(vector-push-extend (casify-char char) token))))
(unless vertical
(values token package (or (not package) internp)))))
(defun untokenize-symbol (package-name internal-p symbol-name)
"The inverse of TOKENIZE-SYMBOL.
(untokenize-symbol \"quux\" nil \"foo\") ==> \"quux:foo\"
(untokenize-symbol \"quux\" t \"foo\") ==> \"quux::foo\"
(untokenize-symbol nil nil \"foo\") ==> \"foo\"
(cond ((not package-name) symbol-name)
(internal-p (cat package-name "::" symbol-name))
(t (cat package-name ":" symbol-name))))
(defun casify-char (char)
"Convert CHAR accoring to readtable-case."
(ecase (readtable-case *readtable*)
(:preserve char)
(:upcase (char-upcase char))
(:downcase (char-downcase char))
(:invert (if (upper-case-p char)
(char-downcase char)
(char-upcase char)))))
(defun find-symbol-with-status (symbol-name status &optional (package *package*))
(multiple-value-bind (symbol flag) (find-symbol symbol-name package)
(if (and flag (eq flag status))
(values symbol flag)
(values nil nil))))
(defun parse-symbol (string &optional (package *package*))
"Find the symbol named STRING.
Return the symbol and a flag indicating whether the symbols was found."
(multiple-value-bind (sname pname internalp)
(tokenize-symbol-thoroughly string)
(when sname
(let ((package (cond ((string= pname "") keyword-package)
(pname (find-package pname))
(t package))))
(if package
(multiple-value-bind (symbol flag)
(if internalp
(find-symbol sname package)
(find-symbol-with-status sname ':external package))
(values symbol flag sname package))
(values nil nil nil nil))))))
(defun parse-symbol-or-lose (string &optional (package *package*))
(multiple-value-bind (symbol status) (parse-symbol string package)
(if status
(values symbol status)
(error "Unknown symbol: ~A [in ~A]" string package))))
(defun parse-package (string)
"Find the package named STRING.
Return the package or nil."
;; STRING comes usually from a (in-package STRING) form.
(find-package (let ((*package* *swank-io-package*))
(read-from-string string)))))
(defun unparse-name (string)
"Print the name STRING according to the current printer settings."
;; this is intended for package or symbol names
(subseq (prin1-to-string (make-symbol string)) 2))
(defun guess-package (string)
"Guess which package corresponds to STRING.
Return nil if no package matches."
(when string
(or (find-package string)
(parse-package string)
(if (find #\! string) ; for SBCL
(guess-package (substitute #\- #\! string))))))
(defvar *readtable-alist* (default-readtable-alist)
"An alist mapping package names to readtables.")
(defun guess-buffer-readtable (package-name)
(let ((package (guess-package package-name)))
(or (and package
(cdr (assoc (package-name package) *readtable-alist*
:test #'string=)))
;;;; Evaluation
(defvar *pending-continuations* '()
"List of continuations for Emacs. (thread local)")
(defun guess-buffer-package (string)
"Return a package for STRING.
Fall back to the the current if no such package exists."
(or (and string (guess-package string))
(defun eval-for-emacs (form buffer-package id)
Return the result to the continuation ID.
Errors are trapped and invoke our debugger."
(let (ok result condition)
(let ((*buffer-package* (guess-buffer-package buffer-package))
(*buffer-readtable* (guess-buffer-readtable buffer-package))
(*pending-continuations* (cons id *pending-continuations*)))
(check-type *buffer-package* package)
(check-type *buffer-readtable* readtable)
;; APPLY would be cleaner than EVAL.
;; (setq result (apply (car form) (cdr form)))
(handler-bind ((t (lambda (c) (setf condition c))))
(setq result (with-slime-interrupts (eval form))))
(run-hook *pre-reply-hook*)
(setq ok t))
(send-to-emacs `(:return ,(current-thread)
,(if ok
`(:ok ,result)
`(:abort ,(prin1-to-string condition)))
(defvar *echo-area-prefix* "=> "
"A prefix that `format-values-for-echo-area' should use.")
(defun format-values-for-echo-area (values)
(with-buffer-syntax ()
(let ((*print-readably* nil))
(cond ((null values) "; No value")
((and (integerp (car values)) (null (cdr values)))
(let ((i (car values)))
(format nil "~A~D (~a bit~:p, #x~X, #o~O, #b~B)"
i (integer-length i) i i i)))
(t (format nil "~a~{~S~^, ~}" *echo-area-prefix* values))))))
(defmacro values-to-string (values)
`(format-values-for-echo-area (multiple-value-list ,values)))
(defslimefun interactive-eval (string)
(with-buffer-syntax ()
(with-retry-restart (:msg "Retry SLIME interactive evaluation request.")
(let ((values (multiple-value-list (eval (from-string string)))))
(format-values-for-echo-area values)))))
(defslimefun eval-and-grab-output (string)
(with-buffer-syntax ()
(with-retry-restart (:msg "Retry SLIME evaluation request.")
(let* ((s (make-string-output-stream))
(*standard-output* s)
(values (multiple-value-list (eval (from-string string)))))
(list (get-output-stream-string s)
(format nil "~{~S~^~%~}" values))))))
(defun eval-region (string)
"Evaluate STRING.
Return the results of the last form as a list and as secondary value the
last form."
(with-input-from-string (stream string)
(let (- values)
(let ((form (read stream nil stream)))
(when (eq form stream)
(return (values values -)))
(setq - form)
(setq values (multiple-value-list (eval form)))
(defslimefun interactive-eval-region (string)
(with-buffer-syntax ()
(with-retry-restart (:msg "Retry SLIME interactive evaluation request.")
(format-values-for-echo-area (eval-region string)))))
(defslimefun re-evaluate-defvar (form)
(with-buffer-syntax ()
(with-retry-restart (:msg "Retry SLIME evaluation request.")
(let ((form (read-from-string form)))
(destructuring-bind (dv name &optional value doc) form
(declare (ignore value doc))
(assert (eq dv 'defvar))
(makunbound name)
(prin1-to-string (eval form)))))))
(defvar *swank-pprint-bindings*
`((*print-pretty* . t)
(*print-level* . nil)
(*print-length* . nil)
(*print-circle* . t)
(*print-gensym* . t)
(*print-readably* . nil))
"A list of variables bindings during pretty printing.
Used by pprint-eval.")
(defun swank-pprint (values)
"Bind some printer variables and pretty print each object in VALUES."
(with-buffer-syntax ()
(with-bindings *swank-pprint-bindings*
(cond ((null values) "; No value")
(t (with-output-to-string (*standard-output*)
(dolist (o values)
(pprint o)
(defslimefun pprint-eval (string)
(with-buffer-syntax ()
(let* ((s (make-string-output-stream))
(let ((*standard-output* s)
(*trace-output* s))
(multiple-value-list (eval (read-from-string string))))))
(cat (get-output-stream-string s)
(swank-pprint values)))))
(defslimefun set-package (name)
"Set *package* to the package named NAME.
Return the full package-name and the string to use in the prompt."
(let ((p (guess-package name)))
(assert (packagep p) nil "Package ~a doesn't exist." name)
(setq *package* p)
(list (package-name p) (package-string-for-prompt p))))
;;;;; Listener eval
(defvar *listener-eval-function* 'repl-eval)
(defslimefun listener-eval (string)
(funcall *listener-eval-function* string))
(defvar *send-repl-results-function* 'send-repl-results-to-emacs)
(defun repl-eval (string)
(with-buffer-syntax ()
(with-retry-restart (:msg "Retry SLIME REPL evaluation request.")
(lambda ()
(multiple-value-bind (values last-form) (eval-region string)
(setq *** ** ** * * (car values)
/// // // / / values
+++ ++ ++ + + last-form)
(funcall *send-repl-results-function* values))))))
(defun track-package (fun)
(let ((p *package*))
(unwind-protect (funcall fun)
(unless (eq *package* p)
(send-to-emacs (list :new-package (package-name *package*)
(package-string-for-prompt *package*)))))))
(defun send-repl-results-to-emacs (values)
(if (null values)
(send-to-emacs `(:write-string "; No value" :repl-result))
(dolist (v values)
(send-to-emacs `(:write-string ,(cat (prin1-to-string v) #\newline)
(defun cat (&rest strings)
"Concatenate all arguments and make the result a string."
(with-output-to-string (out)
(dolist (s strings)
(etypecase s
(string (write-string s out))
(character (write-char s out))))))
(defun truncate-string (string width &optional ellipsis)
(let ((len (length string)))
(cond ((< len width) string)
(ellipsis (cat (subseq string 0 width) ellipsis))
(t (subseq string 0 width)))))
(defun call/truncated-output-to-string (length function
&optional (ellipsis ".."))
"Call FUNCTION with a new stream, return the output written to the stream.
If FUNCTION tries to write more than LENGTH characters, it will be
aborted and return immediately with the output written so far."
(let ((buffer (make-string (+ length (length ellipsis))))
(fill-pointer 0))
(block buffer-full
(flet ((write-output (string)
(let* ((free (- length fill-pointer))
(count (min free (length string))))
(replace buffer string :start1 fill-pointer :end2 count)
(incf fill-pointer count)
(when (> (length string) free)
(replace buffer ellipsis :start1 fill-pointer)
(return-from buffer-full buffer)))))
(let ((stream (make-output-stream #'write-output)))
(funcall function stream)
(finish-output stream)
(subseq buffer 0 fill-pointer))))))
(defmacro with-string-stream ((var &key length bindings)
&body body)
(cond ((and (not bindings) (not length))
`(with-output-to-string (,var) . ,body))
((not bindings)
,length (lambda (,var) . ,body)))
`(with-bindings ,bindings
(with-string-stream (,var :length ,length)
. ,body)))))
(defun to-line (object &optional (width 75))
"Print OBJECT to a single line. Return the string."
(without-printing-errors (:object object :stream nil)
(with-string-stream (stream :length width)
(write object :stream stream :right-margin width :lines 1))))
(defun escape-string (string stream &key length (map '((#\" . "\\\"")
(#\\ . "\\\\"))))
"Write STRING to STREAM surronded by double-quotes.
LENGTH -- if non-nil truncate output after LENGTH chars.
MAP -- rewrite the chars in STRING according to this alist."
(let ((limit (or length array-dimension-limit)))
(write-char #\" stream)
(loop for c across string
for i from 0 do
(when (= i limit)
(write-string "..." stream)
(let ((probe (assoc c map)))
(cond (probe (write-string (cdr probe) stream))
(t (write-char c stream)))))
(write-char #\" stream)))
(defun package-string-for-prompt (package)
"Return the shortest nickname (or canonical name) of PACKAGE."
(or (canonical-package-nickname package)
(auto-abbreviated-package-name package)
(shortest-package-nickname package))))
(defun canonical-package-nickname (package)
"Return the canonical package nickname, if any, of PACKAGE."
(let ((name (cdr (assoc (package-name package) *canonical-package-nicknames*
:test #'string=))))
(and name (string name))))
(defun auto-abbreviated-package-name (package)
"Return an abbreviated 'name' for PACKAGE.
N.B. this is not an actual package name or nickname."
(when *auto-abbreviate-dotted-packages*
(loop with package-name = (package-name package)
with offset = nil
do (let ((last-dot-pos (position #\. package-name :end offset :from-end t)))
(unless last-dot-pos
(return nil))
;; If a dot chunk contains only numbers, that chunk most
;; likely represents a version number; so we collect the
;; next chunks, too, until we find one with meat.
(let ((name (subseq package-name (1+ last-dot-pos) offset)))
(if (notevery #'digit-char-p name)
(return (subseq package-name (1+ last-dot-pos)))
(setq offset last-dot-pos)))))))
(defun shortest-package-nickname (package)
"Return the shortest nickname of PACKAGE."
(loop for name in (cons (package-name package) (package-nicknames package))
for shortest = name then (if (< (length name) (length shortest))
finally (return shortest)))
(defslimefun ed-in-emacs (&optional what)
"Edit WHAT in Emacs.
WHAT can be:
A pathname or a string,
A function name (symbol or cons),
NIL. "
(flet ((canonicalize-filename (filename)
(pathname-to-filename (or (probe-file filename) filename))))
(let ((target
(etypecase what
(null nil)
((or string pathname)
`(:filename ,(canonicalize-filename what)))
((cons (or string pathname) *)
`(:filename ,(canonicalize-filename (car what)) ,@(cdr what)))
((or symbol cons)
`(:function-name ,(prin1-to-string what))))))
(cond (*emacs-connection* (send-oob-to-emacs `(:ed ,target)))
(with-connection ((default-connection))
(send-oob-to-emacs `(:ed ,target))))
(t (error "No connection"))))))
(defslimefun inspect-in-emacs (what &key wait)
"Inspect WHAT in Emacs. If WAIT is true (default NIL) blocks until the
inspector has been closed in Emacs."
(flet ((send-it ()
(let ((tag (when wait (make-tag)))
(thread (when wait (current-thread-id))))
(with-buffer-syntax ()
(send-oob-to-emacs `(:inspect ,(inspect-object what)
(when wait
(wait-for-event `(:emacs-return ,tag result))))))
(with-connection ((default-connection))
(defslimefun value-for-editing (form)
"Return a readable value of FORM for editing in Emacs.
FORM is expected, but not required, to be SETF'able."
;; FIXME: Can we check FORM for setfability? -luke (12/Mar/2005)
(with-buffer-syntax ()
(let* ((value (eval (read-from-string form)))
(*print-length* nil))
(prin1-to-string value))))
(defslimefun commit-edited-value (form value)
"Set the value of a setf'able FORM to VALUE.
FORM and VALUE are both strings from Emacs."
(with-buffer-syntax ()
(eval `(setf ,(read-from-string form)
,(read-from-string (concatenate 'string "`" value))))
(defun background-message (format-string &rest args)
"Display a message in Emacs' echo area.
Use this function for informative messages only. The message may even
be dropped, if we are too busy with other things."
(when *emacs-connection*
(send-to-emacs `(:background-message
,(apply #'format nil format-string args)))))
;; This is only used by the test suite.
(defun sleep-for (seconds)
"Sleep for at least SECONDS seconds.
This is just like cl:sleep but guarantees to sleep
at least SECONDS."
(let* ((start (get-internal-real-time))
(end (+ start
(* seconds internal-time-units-per-second))))
(let ((now (get-internal-real-time)))
(cond ((< end now) (return))
(t (sleep (/ (- end now)
;;;; Debugger
(defun invoke-slime-debugger (condition)
"Sends a message to Emacs declaring that the debugger has been entered,
then waits to handle further requests from Emacs. Eventually returns
after Emacs causes a restart to be invoked."
(cond (*emacs-connection*
(debug-in-emacs condition))
(with-connection ((default-connection))
(debug-in-emacs condition))))))
(define-condition invoke-default-debugger () ())
(defun swank-debugger-hook (condition hook)
"Debugger function for binding *DEBUGGER-HOOK*."
(declare (ignore hook))
(call-with-debugger-hook #'swank-debugger-hook
(lambda () (invoke-slime-debugger condition)))
(invoke-default-debugger ()
(invoke-default-debugger condition))))
(defun invoke-default-debugger (condition)
(call-with-debugger-hook nil (lambda () (invoke-debugger condition))))
(defvar *global-debugger* t
"Non-nil means the Swank debugger hook will be installed globally.")
(add-hook *new-connection-hook* 'install-debugger)
(defun install-debugger (connection)
(declare (ignore connection))
(when *global-debugger*
(install-debugger-globally #'swank-debugger-hook)))
;;;;; Debugger loop
;;; These variables are dynamically bound during debugging.
(defvar *swank-debugger-condition* nil
"The condition being debugged.")
(defvar *sldb-level* 0
"The current level of recursive debugging.")
(defvar *sldb-initial-frames* 20
"The initial number of backtrace frames to send to Emacs.")
(defvar *sldb-restarts* nil
"The list of currenlty active restarts.")
(defvar *sldb-stepping-p* nil
"True during execution of a step command.")
(defun debug-in-emacs (condition)
(let ((*swank-debugger-condition* condition)
(*sldb-restarts* (compute-restarts condition))
(*sldb-quit-restart* (and *sldb-quit-restart*
(find-restart *sldb-quit-restart*)))
(*package* (or (and (boundp '*buffer-package*)
(symbol-value '*buffer-package*))
(*sldb-level* (1+ *sldb-level*))
(*sldb-stepping-p* nil))
(lambda ()
;; here, but that truncated the result of an eval-in-frame.
(sldb-loop *sldb-level*)))))
(defun sldb-loop (level)
(with-simple-restart (abort "Return to sldb level ~D." level)
(list* :debug (current-thread-id) level
(with-bindings *sldb-printer-bindings*
(debugger-info-for-emacs 0 *sldb-initial-frames*))))
(list :debug-activate (current-thread-id) level nil))
(destructure-case (wait-for-event
`(or (:emacs-rex . _)
(:sldb-return ,(1+ level))))
((:emacs-rex &rest args) (apply #'eval-for-emacs args))
((:sldb-return _) (declare (ignore _)) (return nil)))
(sldb-condition (c)
(handle-sldb-condition c))))))
(send-to-emacs `(:debug-return
,(current-thread-id) ,level ,*sldb-stepping-p*))
(wait-for-event `(:sldb-return ,(1+ level)) t) ; clean event-queue
(when (> level 1)
(send-event (current-thread) `(:sldb-return ,level)))))
(defun handle-sldb-condition (condition)
"Handle an internal debugger condition.
Rather than recursively debug the debugger (a dangerous idea!), these
conditions are simply reported."
(let ((real-condition (original-condition condition)))
(send-to-emacs `(:debug-condition ,(current-thread-id)
,(princ-to-string real-condition)))))
(defvar *sldb-condition-printer* #'format-sldb-condition
"Function called to print a condition to an SLDB buffer.")
(defun safe-condition-message (condition)
"Safely print condition to a string, handling any errors during
(let ((*print-pretty* t) (*print-right-margin* 65))
(funcall *sldb-condition-printer* condition)
(error (cond)
;; Beware of recursive errors in printing, so only use the condition
;; if it is printable itself:
(format nil "Unable to display error condition~@[: ~A~]"
(ignore-errors (princ-to-string cond)))))))
(defun debugger-condition-for-emacs ()
(list (safe-condition-message *swank-debugger-condition*)
(format nil " [Condition of type ~S]"
(type-of *swank-debugger-condition*))
(condition-extras *swank-debugger-condition*)))
(defun format-restarts-for-emacs ()
"Return a list of restarts for *swank-debugger-condition* in a
format suitable for Emacs."
(let ((*print-right-margin* most-positive-fixnum))
(loop for restart in *sldb-restarts* collect
(list (format nil "~:[~;*~]~a"
(eq restart *sldb-quit-restart*)
(restart-name restart) )
(princ-to-string restart)))))
;;;;; SLDB entry points
(defslimefun sldb-break-with-default-debugger (dont-unwind)
"Invoke the default debugger."
(cond (dont-unwind
(invoke-default-debugger *swank-debugger-condition*))
(signal 'invoke-default-debugger))))
(defslimefun backtrace (start end)
"Return a list ((I FRAME PLIST) ...) of frames from START to END.
I is an integer, and can be used to reference the corresponding frame
from Emacs; FRAME is a string representation of an implementation's
(loop for frame in (compute-backtrace start end)
for i from start collect
(list* i (frame-to-string frame)
(ecase (frame-restartable-p frame)
((nil) nil)
((t) `((:restartable t)))))))
(defun frame-to-string (frame)
(with-string-stream (stream :length (* (or *print-lines* 1)
(or *print-right-margin* 100))
:bindings *backtrace-printer-bindings*)
(handler-case (print-frame frame stream)
(serious-condition ()
(format stream "[error printing frame]")))))
(defslimefun debugger-info-for-emacs (start end)
"Return debugger state, with stack frames from START to END.
The result is a list:
(condition ({restart}*) ({stack-frame}*) (cont*))
condition ::= (description type [extra])
restart ::= (name description)
stack-frame ::= (number description [plist])
extra ::= (:references and other random things)
cont ::= continutation
plist ::= (:restartable {nil | t | :unknown})
condition---a pair of strings: message, and type. If show-source is
not nil it is a frame number for which the source should be displayed.
restart---a pair of strings: restart name, and description.
stack-frame---a number from zero (the top), and a printed
representation of the frame's call.
continutation---the id of a pending Emacs continuation.
Below is an example return value. In this case the condition was a
division by zero (multi-line description), and only one frame is being
fetched (start=0, end=1).
((\"Arithmetic error DIVISION-BY-ZERO signalled.
Operation was KERNEL::DIVISION, operands (1 0).\"
\"[Condition of type DIVISION-BY-ZERO]\")
((\"ABORT\" \"Return to Slime toplevel.\")
(\"ABORT\" \"Return to Top-Level.\"))
((0 \"(KERNEL::INTEGER-/-INTEGER 1 0)\" (:restartable nil)))
(list (debugger-condition-for-emacs)
(backtrace start end)
(defun nth-restart (index)
(nth index *sldb-restarts*))
(defslimefun invoke-nth-restart (index)
(let ((restart (nth-restart index)))
(when restart
(invoke-restart-interactively restart))))
(defslimefun sldb-abort ()
(invoke-restart (find 'abort *sldb-restarts* :key #'restart-name)))
(defslimefun sldb-continue ()
(defun coerce-to-condition (datum args)
(etypecase datum
(string (make-condition 'simple-error :format-control datum
:format-arguments args))
(symbol (apply #'make-condition datum args))))
(defslimefun simple-break (&optional (datum "Interrupt from Emacs") &rest args)
(with-simple-restart (continue "Continue from break.")
(invoke-slime-debugger (coerce-to-condition datum args))))
(defslimefun throw-to-toplevel ()
"Invoke the ABORT-REQUEST restart abort an RPC from Emacs.
If we are not evaluating an RPC then ABORT instead."
(let ((restart (and *sldb-quit-restart* (find-restart *sldb-quit-restart*))))
(cond (restart (invoke-restart restart))
(t (format nil "Restart not active [~s]" *sldb-quit-restart*)))))
(defslimefun invoke-nth-restart-for-emacs (sldb-level n)
"Invoke the Nth available restart.
SLDB-LEVEL is the debug level when the request was made. If this
has changed, ignore the request."
(when (= sldb-level *sldb-level*)
(invoke-nth-restart n)))
(defun wrap-sldb-vars (form)
`(let ((*sldb-level* ,*sldb-level*))
(defslimefun eval-string-in-frame (string index)
(eval-in-frame (wrap-sldb-vars (from-string string))
(defslimefun pprint-eval-string-in-frame (string index)
(eval-in-frame (wrap-sldb-vars (from-string string)) index))))
(defslimefun frame-locals-and-catch-tags (index)
"Return a list (LOCALS TAGS) for vars and catch tags in the frame INDEX.
LOCALS is a list of the form ((&key NAME ID VALUE) ...).
TAGS has is a list of strings."
(list (frame-locals-for-emacs index)
(mapcar #'to-string (frame-catch-tags index))))
(defun frame-locals-for-emacs (index)
(with-bindings *backtrace-printer-bindings*
(loop for var in (frame-locals index)
collect (destructuring-bind (&key name id value) var
(list :name (prin1-to-string name)
:id id
:value (to-line value))))))
(defslimefun sldb-disassemble (index)
(with-output-to-string (*standard-output*)
(disassemble-frame index)))
(defslimefun sldb-return-from-frame (index string)
(let ((form (from-string string)))
(to-string (multiple-value-list (return-from-frame index form)))))
(defslimefun sldb-break (name)
(with-buffer-syntax ()
(sldb-break-at-start (read-from-string name))))
(defmacro define-stepper-function (name backend-function-name)
`(defslimefun ,name (frame)
(cond ((sldb-stepper-condition-p *swank-debugger-condition*)
(setq *sldb-stepping-p* t)
((find-restart 'continue)
(activate-stepping frame)
(setq *sldb-stepping-p* t)
(error "Not currently single-stepping, and no continue restart available.")))))
(define-stepper-function sldb-step sldb-step-into)
(define-stepper-function sldb-next sldb-step-next)
(define-stepper-function sldb-out sldb-step-out)
;;;; Compilation Commands.
(defstruct (:compilation-result
(:type list) :named)
(successp nil :type boolean)
(duration 0.0 :type float)
(loadp nil :type boolean)
(faslfile nil :type (or null string)))
(defun measure-time-interval (fun)
"Call FUN and return the first return value and the elapsed time.
The time is measured in seconds."
(declare (type function fun))
(let ((before (get-internal-real-time)))
(funcall fun)
(/ (- (get-internal-real-time) before)
(coerce internal-time-units-per-second 'float)))))
(defun make-compiler-note (condition)
"Make a compiler note data structure from a compiler-condition."
(declare (type compiler-condition condition))
(list* :message (message condition)
:severity (severity condition)
:location (location condition)
:references (references condition)
(let ((s (source-context condition)))
(if s (list :source-context s)))))
(defun collect-notes (function)
(let ((notes '()))
(multiple-value-bind (result seconds)
(handler-bind ((compiler-condition
(lambda (c) (push (make-compiler-note c) notes))))
(lambda ()
;; To report location of error-signaling toplevel forms
;; for errors in EVAL-WHEN or during macroexpansion.
(restart-case (multiple-value-list (funcall function))
(abort () :report "Abort compilation." (list nil))))))
(destructuring-bind (successp &optional loadp faslfile) result
(let ((faslfile (etypecase faslfile
(null nil)
(pathname (pathname-to-filename faslfile)))))
(make-compilation-result :notes (reverse notes)
:duration seconds
:successp (if successp t)
:loadp (if loadp t)
:faslfile faslfile))))))
(defslimefun compile-file-for-emacs (filename load-p &rest options &key policy
"Compile FILENAME and, when LOAD-P, load the result.
Record compiler notes signalled as `compiler-condition's."
(with-buffer-syntax ()
(lambda ()
(let ((pathname (filename-to-pathname filename))
(*compile-print* nil) (*compile-verbose* t))
(multiple-value-bind (output-pathname warnings? failure?)
(swank-compile-file pathname
(fasl-pathname pathname options)
(or (guess-external-format pathname)
:policy policy)
(declare (ignore warnings?))
(values (not failure?) load-p output-pathname)))))))
(defvar *fasl-pathname-function* nil
"In non-nil, use this function to compute the name for fasl-files.")
(defun pathname-as-directory (pathname)
(append (pathname-directory pathname)
(when (pathname-name pathname)
(list (file-namestring pathname)))))
(defun compile-file-output (file directory)
(make-pathname :directory (pathname-as-directory directory)
:defaults (compile-file-pathname file)))
(defun fasl-pathname (input-file options)
(cond (*fasl-pathname-function*
(funcall *fasl-pathname-function* input-file options))
((getf options :fasl-directory)
(let ((dir (getf options :fasl-directory)))
(assert (char= (aref dir (1- (length dir))) #\/))
(compile-file-output input-file dir)))
(compile-file-pathname input-file))))
(defslimefun compile-string-for-emacs (string buffer position filename policy)
"Compile STRING (exerpted from BUFFER at POSITION).
Record compiler notes signalled as `compiler-condition's."
(let ((offset (cadr (assoc :position position))))
(with-buffer-syntax ()
(lambda ()
(let ((*compile-print* t) (*compile-verbose* nil))
(swank-compile-string string
:buffer buffer
:position offset
:filename filename
:policy policy)))))))
(defslimefun compile-multiple-strings-for-emacs (strings policy)
"Compile STRINGS (exerpted from BUFFER at POSITION).
Record compiler notes signalled as `compiler-condition's."
(loop for (string buffer package position filename) in strings collect
(lambda ()
(with-buffer-syntax (package)
(let ((*compile-print* t) (*compile-verbose* nil))
(swank-compile-string string
:buffer buffer
:position position
:filename filename
:policy policy)))))))
(defun file-newer-p (new-file old-file)
"Returns true if NEW-FILE is newer than OLD-FILE."
(> (file-write-date new-file) (file-write-date old-file)))
(defun requires-compile-p (source-file)
(let ((fasl-file (probe-file (compile-file-pathname source-file))))
(or (not fasl-file)
(file-newer-p source-file fasl-file))))
(defslimefun compile-file-if-needed (filename loadp)
(let ((pathname (filename-to-pathname filename)))
(cond ((requires-compile-p pathname)
(compile-file-for-emacs pathname loadp))
(lambda ()
(or (not loadp)
(load (compile-file-pathname pathname)))))))))
;;;; Loading
(defslimefun load-file (filename)
(to-string (load (filename-to-pathname filename))))
;;;;; swank-require
(defslimefun swank-require (modules &optional filename)
"Load the module MODULE."
(dolist (module (ensure-list modules))
(unless (member (string module) *modules* :test #'string=)
(require module (if filename
(filename-to-pathname filename)
(module-filename module)))))
(defvar *find-module* 'find-module
"Pluggable function to locate modules.
The function receives a module name as argument and should return
the filename of the module (or nil if the file doesn't exist).")
(defun module-filename (module)
"Return the filename for the module MODULE."
(or (funcall *find-module* module)
(error "Can't locate module: ~s" module)))
;;;;;; Simple *find-module* function.
(defun merged-directory (dirname defaults)
(make-pathname :directory `(:relative ,dirname) :defaults defaults)
(defvar *load-path* '()
"A list of directories to search for modules.")
(defun module-canditates (name dir)
(list (compile-file-pathname (make-pathname :name name :defaults dir))
(make-pathname :name name :type "lisp" :defaults dir)))
(defun find-module (module)
(let ((name (string-downcase module)))
(some (lambda (dir) (some #'probe-file (module-canditates name dir)))
;;;; Macroexpansion
(defvar *macroexpand-printer-bindings*
'((*print-circle* . nil)
(*print-pretty* . t)
(*print-escape* . t)
(*print-lines* . nil)
(*print-level* . nil)
(*print-length* . nil)))
(defun apply-macro-expander (expander string)
(with-buffer-syntax ()
(with-bindings *macroexpand-printer-bindings*
(prin1-to-string (funcall expander (from-string string))))))
(defslimefun swank-macroexpand-1 (string)
(apply-macro-expander #'macroexpand-1 string))
(defslimefun swank-macroexpand (string)
(apply-macro-expander #'macroexpand string))
(defslimefun swank-macroexpand-all (string)
(apply-macro-expander #'macroexpand-all string))
(defslimefun swank-compiler-macroexpand-1 (string)
(apply-macro-expander #'compiler-macroexpand-1 string))
(defslimefun swank-compiler-macroexpand (string)
(apply-macro-expander #'compiler-macroexpand string))
(defslimefun swank-expand-1 (string)
(apply-macro-expander #'expand-1 string))
(defslimefun swank-expand (string)
(apply-macro-expander #'expand string))
(defun expand-1 (form)
(multiple-value-bind (expansion expanded?) (macroexpand-1 form)
(if expanded?
(values expansion t)
(compiler-macroexpand-1 form))))
(defun expand (form)
(expand-repeatedly #'expand-1 form))
(defun expand-repeatedly (expander form)
(multiple-value-bind (expansion expanded?) (funcall expander form)
(unless expanded? (return expansion))
(setq form expansion))))
(defslimefun swank-format-string-expand (string)
(apply-macro-expander #'format-string-expand string))
(defslimefun disassemble-form (form)
(with-buffer-syntax ()
(with-output-to-string (*standard-output*)
(let ((*print-readably* nil))
(disassemble (eval (read-from-string form)))))))
;;;; Simple completion
(defslimefun simple-completions (prefix package)
"Return a list of completions for the string PREFIX."
(let ((strings (all-completions prefix package)))
(list strings (longest-common-prefix strings))))
(defun all-completions (prefix package)
(multiple-value-bind (name pname intern) (tokenize-symbol prefix)
(let* ((extern (and pname (not intern)))
(pkg (cond ((equal pname "") keyword-package)
((not pname) (guess-buffer-package package))
(t (guess-package pname))))
(test (lambda (sym) (prefix-match-p name (symbol-name sym))))
(syms (and pkg (matching-symbols pkg extern test))))
(format-completion-set (mapcar #'unparse-symbol syms) intern pname))))
(defun matching-symbols (package external test)
(let ((test (if external
(lambda (s)
(and (symbol-external-p s package)
(funcall test s)))
(result '()))
(do-symbols (s package)
(when (funcall test s)
(push s result)))
(remove-duplicates result)))
(defun unparse-symbol (symbol)
(let ((*print-case* (case (readtable-case *readtable*)
(:downcase :upcase)
(t :downcase))))
(unparse-name (symbol-name symbol))))
(defun prefix-match-p (prefix string)
"Return true if PREFIX is a prefix of STRING."
(not (mismatch prefix string :end2 (min (length string) (length prefix))
:test #'char-equal)))
(defun longest-common-prefix (strings)
"Return the longest string that is a common prefix of STRINGS."
(if (null strings)
(flet ((common-prefix (s1 s2)
(let ((diff-pos (mismatch s1 s2)))
(if diff-pos (subseq s1 0 diff-pos) s1))))
(reduce #'common-prefix strings))))
(defun format-completion-set (strings internal-p package-name)
"Format a set of completion strings.
Returns a list of completions with package qualifiers if needed."
(mapcar (lambda (string) (untokenize-symbol package-name internal-p string))
(sort strings #'string<)))
;;;; Simple arglist display
(defslimefun operator-arglist (name package)
(let ((args (arglist (parse-symbol name (guess-buffer-package package)))))
(cond ((eq args :not-available) nil)
(t (princ-to-string (cons name args)))))))
;;;; Documentation
(defslimefun apropos-list-for-emacs (name &optional external-only
case-sensitive package)
"Make an apropos search for Emacs.
The result is a list of property lists."
(let ((package (if package
(or (parse-package package)
(error "No such package: ~S" package)))))
;; The MAPCAN will filter all uninteresting symbols, i.e. those
;; who cannot be meaningfully described.
(mapcan (listify #'briefly-describe-symbol-for-emacs)
(sort (remove-duplicates
(apropos-symbols name external-only case-sensitive package))
(defun briefly-describe-symbol-for-emacs (symbol)
"Return a property list describing SYMBOL.
Like `describe-symbol-for-emacs' but with at most one line per item."
(flet ((first-line (string)
(let ((pos (position #\newline string)))
(if (null pos) string (subseq string 0 pos)))))
(let ((desc (map-if #'stringp #'first-line
(describe-symbol-for-emacs symbol))))
(if desc
(list* :designator (to-string symbol) desc)))))
(defun map-if (test fn &rest lists)
"Like (mapcar FN . LISTS) but only call FN on objects satisfying TEST.
\(map-if #'oddp #'- '(1 2 3 4 5)) => (-1 2 -3 4 -5)"
(apply #'mapcar
(lambda (x) (if (funcall test x) (funcall fn x) x))
(defun listify (f)
"Return a function like F, but which returns any non-null value
wrapped in a list."
(lambda (x)
(let ((y (funcall f x)))
(and y (list y)))))
(defun present-symbol-before-p (x y)
"Return true if X belongs before Y in a printed summary of symbols.
Sorted alphabetically by package name and then symbol name, except
that symbols accessible in the current package go first."
(declare (type symbol x y))
(flet ((accessible (s)
;; Test breaks on NIL for package that does not inherit it
(eq (find-symbol (symbol-name s) *buffer-package*) s)))
(let ((ax (accessible x)) (ay (accessible y)))
(cond ((and ax ay) (string< (symbol-name x) (symbol-name y)))
(ax t)
(ay nil)
(t (let ((px (symbol-package x)) (py (symbol-package y)))
(if (eq px py)
(string< (symbol-name x) (symbol-name y))
(string< (package-name px) (package-name py)))))))))
(defun make-apropos-matcher (pattern case-sensitive)
(let ((chr= (if case-sensitive #'char= #'char-equal)))
(lambda (symbol)
(search pattern (string symbol) :test chr=))))
(defun apropos-symbols (string external-only case-sensitive package)
(let ((packages (or package (remove (find-package :keyword)
(matcher (make-apropos-matcher string case-sensitive))
(with-package-iterator (next packages :external :internal)
(loop (multiple-value-bind (morep symbol) (next)
(cond ((not morep) (return))
((and (if external-only (symbol-external-p symbol) t)
(funcall matcher symbol))
(push symbol result))))))
(defun call-with-describe-settings (fn)
(let ((*print-readably* nil))
(funcall fn)))
(defmacro with-describe-settings ((&rest _) &body body)
(declare (ignore _))
`(call-with-describe-settings (lambda () ,@body)))
(defun describe-to-string (object)
(with-describe-settings ()
(with-output-to-string (*standard-output*)
(describe object))))
(defslimefun describe-symbol (symbol-name)
(with-buffer-syntax ()
(describe-to-string (parse-symbol-or-lose symbol-name))))
(defslimefun describe-function (name)
(with-buffer-syntax ()
(let ((symbol (parse-symbol-or-lose name)))
(describe-to-string (or (macro-function symbol)
(symbol-function symbol))))))
(defslimefun describe-definition-for-emacs (name kind)
(with-buffer-syntax ()
(with-describe-settings ()
(with-output-to-string (*standard-output*)
(describe-definition (parse-symbol-or-lose name) kind)))))
(defslimefun documentation-symbol (symbol-name)
(with-buffer-syntax ()
(multiple-value-bind (sym foundp) (parse-symbol symbol-name)
(if foundp
(let ((vdoc (documentation sym 'variable))
(fdoc (documentation sym 'function)))
(with-output-to-string (string)
(format string "Documentation for the symbol ~a:~2%" sym)
(unless (or vdoc fdoc)
(format string "Not documented." ))
(when vdoc
(format string "Variable:~% ~a~2%" vdoc))
(when fdoc
(format string "Function:~% Arglist: ~a~2% ~a"
(swank-backend:arglist sym)
(format nil "No such symbol, ~a." symbol-name)))))
;;;; Package Commands
(defslimefun list-all-package-names (&optional nicknames)
"Return a list of all package names.
Include the nicknames if NICKNAMES is true."
(mapcar #'unparse-name
(if nicknames
(mapcan #'package-names (list-all-packages))
(mapcar #'package-name (list-all-packages)))))
;;;; Tracing
;; Use eval for the sake of portability...
(defun tracedp (fspec)
(member fspec (eval '(trace))))
(defslimefun swank-toggle-trace (spec-string)
(let ((spec (from-string spec-string)))
(cond ((consp spec) ; handle complicated cases in the backend
(toggle-trace spec))
((tracedp spec)
(eval `(untrace ,spec))
(format nil "~S is now untraced." spec))
(eval `(trace ,spec))
(format nil "~S is now traced." spec)))))
(defslimefun untrace-all ()
(defslimefun redirect-trace-output (target)
(setf (connection.trace-output *emacs-connection*)
(make-output-stream-for-target *emacs-connection* target))
;;;; Undefing
(defslimefun undefine-function (fname-string)
(let ((fname (from-string fname-string)))
(format nil "~S" (fmakunbound fname))))
;;;; Profiling
(defun profiledp (fspec)
(member fspec (profiled-functions)))
(defslimefun toggle-profile-fdefinition (fname-string)
(let ((fname (from-string fname-string)))
(cond ((profiledp fname)
(unprofile fname)
(format nil "~S is now unprofiled." fname))
(profile fname)
(format nil "~S is now profiled." fname)))))
(defslimefun profile-by-substring (substring package)
(let ((count 0))
(flet ((maybe-profile (symbol)
(when (and (fboundp symbol)
(not (profiledp symbol))
(search substring (symbol-name symbol) :test #'equalp))
(handler-case (progn
(profile symbol)
(incf count))
(error (condition)
(warn "~a" condition))))))
(if package
(do-symbols (symbol (parse-package package))
(maybe-profile symbol))
(do-all-symbols (symbol)
(maybe-profile symbol))))
(format nil "~a function~:p ~:*~[are~;is~:;are~] now profiled" count)))
;;;; Source Locations
(defslimefun find-definition-for-thing (thing)
(find-source-location thing))
(defslimefun find-source-location-for-emacs (spec)
(find-source-location (value-spec-ref spec)))
(defun value-spec-ref (spec)
(destructure-case spec
((:string string package)
(with-buffer-syntax (package)
(eval (read-from-string string))))
((:inspector part)
(inspector-nth-part part))
((:sldb frame var)
(frame-var-value frame var))))
(defslimefun find-definitions-for-emacs (name)
"Return a list ((DSPEC LOCATION) ...) of definitions for NAME.
DSPEC is a string and LOCATION a source location. NAME is a string."
(multiple-value-bind (sexp error) (ignore-errors (from-string name))
(unless error
(mapcar #'xref>elisp (find-definitions sexp)))))
;;; Generic function so contribs can extend it.
(defgeneric xref-doit (type thing)
(:method (type thing)
(declare (ignore type thing))
(macrolet ((define-xref-action (xref-type handler)
`(defmethod xref-doit ((type (eql ,xref-type)) thing)
(declare (ignorable type))
(funcall ,handler thing))))
(define-xref-action :calls #'who-calls)
(define-xref-action :calls-who #'calls-who)
(define-xref-action :references #'who-references)
(define-xref-action :binds #'who-binds)
(define-xref-action :macroexpands #'who-macroexpands)
(define-xref-action :specializes #'who-specializes)
(define-xref-action :callers #'list-callers)
(define-xref-action :callees #'list-callees))
(defslimefun xref (type name)
(multiple-value-bind (sexp error) (ignore-errors (from-string name))
(unless error
(let ((xrefs (xref-doit type sexp)))
(if (eq xrefs :not-implemented)
(mapcar #'xref>elisp xrefs))))))
(defslimefun xrefs (types name)
(loop for type in types
for xrefs = (xref type name)
when (and (not (eq :not-implemented xrefs))
(not (null xrefs)))
collect (cons type xrefs)))
(defun xref>elisp (xref)
(destructuring-bind (name loc) xref
(list (to-string name) loc)))
;;;;; Lazy lists
(defstruct (lcons (:constructor %lcons (car %cdr))
(:predicate lcons?))
(%cdr nil :type (or null lcons function))
(forced? nil))
(defmacro lcons (car cdr)
`(%lcons ,car (lambda () ,cdr)))
(defmacro lcons* (car cdr &rest more)
(cond ((null more) `(lcons ,car ,cdr))
(t `(lcons ,car (lcons* ,cdr ,@more)))))
(defun lcons-cdr (lcons)
(with-struct* (lcons- @ lcons)
(cond ((@ forced?)
(@ %cdr))
(let ((value (funcall (@ %cdr))))
(setf (@ forced?) t
(@ %cdr) value))))))
(defun llist-range (llist start end)
(llist-take (llist-skip llist start) (- end start)))
(defun llist-skip (lcons index)
(do ((i 0 (1+ i))
(l lcons (lcons-cdr l)))
((or (= i index) (null l))
(defun llist-take (lcons count)
(let ((result '()))
(do ((i 0 (1+ i))
(l lcons (lcons-cdr l)))
((or (= i count)
(null l)))
(push (lcons-car l) result))
(nreverse result)))
(defun iline (label value)
`(:line ,label ,value))
;;;; Inspecting
(defvar *inspector-verbose* nil)
(defvar *inspector-printer-bindings*
'((*print-lines* . 1)
(*print-right-margin* . 75)
(*print-pretty* . t)
(*print-readably* . nil)))
(defvar *inspector-verbose-printer-bindings*
'((*print-escape* . t)
(*print-circle* . t)
(*print-array* . nil)))
(defstruct inspector-state)
(defstruct (istate (:conc-name istate.) (:include inspector-state))
(verbose *inspector-verbose*)
(parts (make-array 10 :adjustable t :fill-pointer 0))
(actions (make-array 10 :adjustable t :fill-pointer 0))
next previous)
(defvar *istate* nil)
(defvar *inspector-history*)
(defun reset-inspector ()
(setq *istate* nil
*inspector-history* (make-array 10 :adjustable t :fill-pointer 0)))
(defslimefun init-inspector (string)
(with-buffer-syntax ()
(with-retry-restart (:msg "Retry SLIME inspection request.")
(inspect-object (eval (read-from-string string))))))
(defun ensure-istate-metadata (o indicator default)
(with-struct (istate. object metadata-plist) *istate*
(assert (eq object o))
(let ((data (getf metadata-plist indicator default)))
(setf (getf metadata-plist indicator) data)
(defun inspect-object (o)
(let* ((prev *istate*)
(istate (make-istate :object o :previous prev
:verbose (cond (prev (istate.verbose prev))
(t *inspector-verbose*)))))
(setq *istate* istate)
(setf (istate.content istate) (emacs-inspect/istate istate))
(unless (find o *inspector-history*)
(vector-push-extend o *inspector-history*))
(let ((previous (istate.previous istate)))
(if previous (setf ( previous) istate)))
(istate>elisp istate)))
(defun emacs-inspect/istate (istate)
(with-bindings (if (istate.verbose istate)
(emacs-inspect (istate.object istate))))
(defun istate>elisp (istate)
(list :title (prepare-title istate)
:id (assign-index (istate.object istate) ( istate))
:content (prepare-range istate 0 500)))
(defun prepare-title (istate)
(if (istate.verbose istate)
(with-bindings *inspector-verbose-printer-bindings*
(to-string (istate.object istate)))
(with-string-stream (stream :length 200
:bindings *inspector-printer-bindings*)
((istate.object istate) stream :type t :identity t)))))
(defun prepare-range (istate start end)
(let* ((range (content-range (istate.content istate) start end))
(ps (loop for part in range append (prepare-part part istate))))
(list ps
(if (< (length ps) (- end start))
(+ start (length ps))
(+ end 1000))
start end)))
(defun prepare-part (part istate)
(let ((newline '#.(string #\newline)))
(etypecase part
(string (list part))
(cons (destructure-case part
((:newline) (list newline))
((:value obj &optional str)
(list (value-part obj str ( istate))))
((:label &rest strs)
(list (list :label (apply #'concatenate 'string (mapcar #'string strs)))))
((:action label lambda &key (refreshp t))
(list (action-part label lambda refreshp
(istate.actions istate))))
((:line label value)
(list (princ-to-string label) ": "
(value-part value nil ( istate))
(defun value-part (object string parts)
(list :value
(or string (print-part-to-string object))
(assign-index object parts)))
(defun action-part (label lambda refreshp actions)
(list :action label (assign-index (list lambda refreshp) actions)))
(defun assign-index (object vector)
(let ((index (fill-pointer vector)))
(vector-push-extend object vector)
(defun print-part-to-string (value)
(let* ((*print-readably* nil)
(string (to-line value))
(pos (position value *inspector-history*)))
(if pos
(format nil "@~D=~A" pos string)
(defun content-range (list start end)
(typecase list
(list (let ((len (length list)))
(subseq list start (min len end))))
(lcons (llist-range list start end))))
(defslimefun inspector-nth-part (index)
(aref ( *istate*) index))
(defslimefun inspect-nth-part (index)
(with-buffer-syntax ()
(inspect-object (inspector-nth-part index))))
(defslimefun inspector-range (from to)
(prepare-range *istate* from to))
(defslimefun inspector-call-nth-action (index &rest args)
(destructuring-bind (fun refreshp) (aref (istate.actions *istate*) index)
(apply fun args)
(if refreshp
;; tell emacs that we don't want to refresh the inspector buffer
(defslimefun inspector-pop ()
"Inspect the previous object.
Return nil if there's no previous object."
(with-buffer-syntax ()
(cond ((istate.previous *istate*)
(setq *istate* (istate.previous *istate*))
(istate>elisp *istate*))
(t nil))))
(defslimefun inspector-next ()
"Inspect the next element in the history of inspected objects.."
(with-buffer-syntax ()
(cond (( *istate*)
(setq *istate* ( *istate*))
(istate>elisp *istate*))
(t nil))))
(defslimefun inspector-reinspect ()
(let ((istate *istate*))
(setf (istate.content istate) (emacs-inspect/istate istate))
(istate>elisp istate)))
(defslimefun inspector-toggle-verbose ()
"Toggle verbosity of inspected object."
(setf (istate.verbose *istate*) (not (istate.verbose *istate*)))
(istate>elisp *istate*))
(defslimefun inspector-eval (string)
(let* ((obj (istate.object *istate*))
(context (eval-context obj))
(form (with-buffer-syntax ((cdr (assoc '*package* context)))
(read-from-string string)))
(ignorable (remove-if #'boundp (mapcar #'car context))))
(to-string (eval `(let ((* ',obj) (- ',form)
. ,(loop for (var . val) in context
unless (constantp var) collect
`(,var ',val)))
(declare (ignorable . ,ignorable))
(defslimefun inspector-history ()
(with-output-to-string (out)
(let ((newest (loop for s = *istate* then next
for next = ( s)
if (not next) return s)))
(format out "--- next/prev chain ---")
(loop for s = newest then (istate.previous s) while s do
(let ((val (istate.object s)))
(format out "~%~:[ ~; *~]@~d "
(eq s *istate*)
(position val *inspector-history*))
(print-unreadable-object (val out :type t :identity t)))))
(format out "~%~%--- all visited objects ---")
(loop for val across *inspector-history* for i from 0 do
(format out "~%~2,' d " i)
(print-unreadable-object (val out :type t :identity t)))))
(defslimefun quit-inspector ()
(defslimefun describe-inspectee ()
"Describe the currently inspected object."
(with-buffer-syntax ()
(describe-to-string (istate.object *istate*))))
(defslimefun pprint-inspector-part (index)
"Pretty-print the currently inspected object."
(with-buffer-syntax ()
(swank-pprint (list (inspector-nth-part index)))))
(defslimefun inspect-in-frame (string index)
(with-buffer-syntax ()
(with-retry-restart (:msg "Retry SLIME inspection request.")
(inspect-object (eval-in-frame (from-string string) index)))))
(defslimefun inspect-current-condition ()
(with-buffer-syntax ()
(inspect-object *swank-debugger-condition*)))
(defslimefun inspect-frame-var (frame var)
(with-buffer-syntax ()
(inspect-object (frame-var-value frame var))))
;;;;; Lists
(defmethod emacs-inspect ((o cons))
(if (listp (cdr o))
(inspect-list o)
(inspect-cons o)))
(defun inspect-cons (cons)
('car (car cons))
('cdr (cdr cons))))
(defun inspect-list (list)
(multiple-value-bind (length tail) (safe-length list)
(flet ((frob (title list)
(list* title '(:newline) (inspect-list-aux list))))
(cond ((not length)
(frob "A circular list:"
(cons (car list)
(ldiff (cdr list) list))))
((not tail)
(frob "A proper list:" list))
(frob "An improper list:" list))))))
(defun inspect-list-aux (list)
(loop for i from 0 for rest on list while (consp rest) append
(if (listp (cdr rest))
(label-value-line i (car rest))
(label-value-line* (i (car rest)) (:tail (cdr rest))))))
(defun safe-length (list)
"Similar to `list-length', but avoid errors on improper lists.
Return two values: the length of the list and the last cdr.
Return NIL if LIST is circular."
(do ((n 0 (+ n 2)) ;Counter.
(fast list (cddr fast)) ;Fast pointer: leaps by 2.
(slow list (cdr slow))) ;Slow pointer: leaps by 1.
(cond ((null fast) (return (values n nil)))
((not (consp fast)) (return (values n fast)))
((null (cdr fast)) (return (values (1+ n) (cdr fast))))
((and (eq fast slow) (> n 0)) (return nil))
((not (consp (cdr fast))) (return (values (1+ n) (cdr fast)))))))
;;;;; Hashtables
(defun hash-table-to-alist (ht)
(let ((result '()))
(maphash (lambda (key value)
(setq result (acons key value result)))
(defmethod emacs-inspect ((ht hash-table))
("Count" (hash-table-count ht))
("Size" (hash-table-size ht))
("Test" (hash-table-test ht))
("Rehash size" (hash-table-rehash-size ht))
("Rehash threshold" (hash-table-rehash-threshold ht)))
(let ((weakness (hash-table-weakness ht)))
(when weakness
(label-value-line "Weakness:" weakness)))
(unless (zerop (hash-table-count ht))
`((:action "[clear hashtable]"
,(lambda () (clrhash ht))) (:newline)
"Contents: " (:newline)))
(let ((content (hash-table-to-alist ht)))
(cond ((every (lambda (x) (typep (first x) '(or string symbol))) content)
(setf content (sort content 'string< :key #'first)))
((every (lambda (x) (typep (first x) 'number)) content)
(setf content (sort content '< :key #'first))))
(loop for (key . value) in content appending
`((:value ,key) " = " (:value ,value)
" " (:action "[remove entry]"
,(let ((key key))
(lambda () (remhash key ht))))
;;;;; Arrays
(defmethod emacs-inspect ((array array))
(iline "Dimensions" (array-dimensions array))
(iline "Element type" (array-element-type array))
(iline "Total size" (array-total-size array))
(iline "Adjustable" (adjustable-array-p array))
(iline "Fill pointer" (if (array-has-fill-pointer-p array)
(fill-pointer array)))
"Contents:" '(:newline)
(labels ((k (i max)
(cond ((= i max) '())
(t (lcons (iline i (row-major-aref array i))
(k (1+ i) max))))))
(k 0 (array-total-size array)))))
;;;;; Chars
(defmethod emacs-inspect ((char character))
("Char code" (char-code char))
("Lower cased" (char-downcase char))
("Upper cased" (char-upcase char)))
(if (get-macro-character char)
`("In the current readtable ("
(:value ,*readtable*) ") it is a macro character: "
(:value ,(get-macro-character char))))))
;;;; Thread listing
(defvar *thread-list* ()
"List of threads displayed in Emacs. We don't care a about
synchronization issues (yet). There can only be one thread listing at
a time.")
(defslimefun list-threads ()
"Return a list (LABELS (ID NAME STATUS ATTRS ...) ...).
LABELS is a list of attribute names and the remaining lists are the
corresponding attribute values per thread."
(setq *thread-list* (all-threads))
(when (and (use-threads-p)
(equalp (thread-name (current-thread)) "worker"))
(setf *thread-list* (delete (current-thread) *thread-list*)))
(let* ((plist (thread-attributes (car *thread-list*)))
(labels (loop for (key) on plist by #'cddr
collect key)))
`((:id :name :status ,@labels)
,@(loop for thread in *thread-list*
for name = (thread-name thread)
for attributes = (thread-attributes thread)
collect (list* (thread-id thread)
(string name)
(thread-status thread)
(loop for label in labels
collect (getf attributes label)))))))
(defslimefun quit-thread-browser ()
(setq *thread-list* nil))
(defun nth-thread (index)
(nth index *thread-list*))
(defslimefun debug-nth-thread (index)
(let ((connection *emacs-connection*))
(interrupt-thread (nth-thread index)
(lambda ()
(lambda ()
(with-connection (connection)
(defslimefun kill-nth-thread (index)
(kill-thread (nth-thread index)))
(defslimefun start-swank-server-in-thread (index port-file-name)
"Interrupt the INDEXth thread and make it start a swank server.
The server port is written to PORT-FILE-NAME."
(interrupt-thread (nth-thread index)
(lambda ()
(start-server port-file-name :style nil))))
;;;; Class browser
(defun mop-helper (class-name fn)
(let ((class (find-class class-name nil)))
(if class
(mapcar (lambda (x) (to-string (class-name x)))
(funcall fn class)))))
(defslimefun mop (type symbol-name)
"Return info about classes using mop.
When type is:
:subclasses - return the list of subclasses of class.
:superclasses - return the list of superclasses of class."
(let ((symbol (parse-symbol symbol-name *buffer-package*)))
(ecase type
(mop-helper symbol #'swank-mop:class-direct-subclasses))
(mop-helper symbol #'swank-mop:class-direct-superclasses)))))
;;;; Automatically synchronized state
;;; Here we add hooks to push updates of relevant information to
;;; Emacs.
;;;;; *FEATURES*
(defun sync-features-to-emacs ()
"Update Emacs if any relevant Lisp state has changed."
;; FIXME: *slime-features* should be connection-local
(unless (eq *slime-features* *features*)
(setq *slime-features* *features*)
(send-to-emacs (list :new-features (features-for-emacs)))))
(defun features-for-emacs ()
"Return `*slime-features*' in a format suitable to send it to Emacs."
(add-hook *pre-reply-hook* 'sync-features-to-emacs)
;;;;; Indentation of macros
;;; This code decides how macros should be indented (based on their
;;; arglists) and tells Emacs. A per-connection cache is used to avoid
;;; sending redundant information to Emacs -- we just say what's
;;; changed since last time.
;;; The strategy is to scan all symbols, pick out the macros, and look
;;; for &body-arguments.
(defvar *configure-emacs-indentation* t
"When true, automatically send indentation information to Emacs
after each command.")
(defslimefun update-indentation-information ()
(perform-indentation-update *emacs-connection* t)
;; This function is for *PRE-REPLY-HOOK*.
(defun sync-indentation-to-emacs ()
"Send any indentation updates to Emacs via CONNECTION."
(when *configure-emacs-indentation*
(let ((fullp (need-full-indentation-update-p *emacs-connection*)))
(perform-indentation-update *emacs-connection* fullp))))
(defun need-full-indentation-update-p (connection)
"Return true if the whole indentation cache should be updated.
This is a heuristic to avoid scanning all symbols all the time:
instead, we only do a full scan if the set of packages has changed."
(set-difference (list-all-packages)
(connection.indentation-cache-packages connection)))
(defun perform-indentation-update (connection force)
"Update the indentation cache in CONNECTION and update Emacs.
If FORCE is true then start again without considering the old cache."
(let ((cache (connection.indentation-cache connection)))
(when force (clrhash cache))
(let ((delta (update-indentation/delta-for-emacs cache force)))
(setf (connection.indentation-cache-packages connection)
(unless (null delta)
(send-to-emacs (list :indentation-update delta))))))
(defun update-indentation/delta-for-emacs (cache &optional force)
"Update the cache and return the changes in a (SYMBOL . INDENT) list.
If FORCE is true then check all symbols, otherwise only check symbols
belonging to the buffer package."
(let ((alist '()))
(flet ((consider (symbol)
(let ((indent (symbol-indentation symbol)))
(when indent
(unless (equal (gethash symbol cache) indent)
(setf (gethash symbol cache) indent)
(push (cons (string-downcase symbol) indent) alist))))))
(if force
(do-all-symbols (symbol)
(consider symbol))
(do-symbols (symbol *buffer-package*)
;; We're really just interested in the symbols of *BUFFER-PACKAGE*,
;; and *not* all symbols that are _present_ (cf. SYMBOL-STATUS.)
(when (eq (symbol-package symbol) *buffer-package*)
(consider symbol)))))
(defun package-names (package)
"Return the name and all nicknames of PACKAGE in a fresh list."
(cons (package-name package) (copy-list (package-nicknames package))))
(defun cl-symbol-p (symbol)
"Is SYMBOL a symbol in the COMMON-LISP package?"
(eq (symbol-package symbol) cl-package))
(defun known-to-emacs-p (symbol)
"Return true if Emacs has special rules for indenting SYMBOL."
(cl-symbol-p symbol))
(defun symbol-indentation (symbol)
"Return a form describing the indentation of SYMBOL.
The form is to be used as the `common-lisp-indent-function' property
in Emacs."
(if (and (macro-function symbol)
(not (known-to-emacs-p symbol)))
(let ((arglist (arglist symbol)))
(etypecase arglist
((member :not-available)
(macro-indentation arglist))))
(defun macro-indentation (arglist)
(if (well-formed-list-p arglist)
(position '&body (remove '&optional (clean-arglist arglist)))
(defun clean-arglist (arglist)
"Remove &whole, &enviroment, and &aux elements from ARGLIST."
(cond ((null arglist) '())
((member (car arglist) '(&whole &environment))
(clean-arglist (cddr arglist)))
((eq (car arglist) '&aux)
(t (cons (car arglist) (clean-arglist (cdr arglist))))))
(defun well-formed-list-p (list)
"Is LIST a proper list terminated by NIL?"
(typecase list
(null t)
(cons (well-formed-list-p (cdr list)))
(t nil)))
(defun print-indentation-lossage (&optional (stream *standard-output*))
"Return the list of symbols whose indentation styles collide incompatibly.
Collisions are caused because package information is ignored."
(let ((table (make-hash-table :test 'equal)))
(flet ((name (s) (string-downcase (symbol-name s))))
(do-all-symbols (s)
(setf (gethash (name s) table)
(cons s (symbol-indentation s))))
(let ((collisions '()))
(do-all-symbols (s)
(let* ((entry (gethash (name s) table))
(owner (car entry))
(indent (cdr entry)))
(unless (or (eq s owner)
(equal (symbol-indentation s) indent)
(and (not (fboundp s))
(null (macro-function s))))
(pushnew owner collisions)
(pushnew s collisions))))
(if (null collisions)
(format stream "~&No worries!~%")
(format stream "~&Symbols with collisions:~%~{ ~S~%~}"
(add-hook *pre-reply-hook* 'sync-indentation-to-emacs)
(defun before-init (version load-path)
(pushnew :swank *features*)
(setq *swank-wire-protocol-version* version)
(setq *load-path* load-path)
(defun init ()
(run-hook *after-init-hook*))
;;; swank.lisp ends here
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