;;; -*- indent-tabs-mode: nil; outline-regexp: ";;;;+" -*-
;;;
;;; License: Public Domain
;;;
;;;; Introduction
;;;
;;; This is the CMUCL implementation of the `swank/backend' package.
(defpackage swank/cmucl
(:use cl swank/backend swank/source-path-parser swank/source-file-cache
fwrappers))(in-package swank/cmucl)(eval-when(:compile-toplevel :load-toplevel :execute)(let((min-version #x20c))(assert(>= c:byte-fasl-file-version min-version)()"This file requires CMUCL version ~x or newer"min-version))(require 'gray-streams))(import-swank-mop-symbols :pcl '(:slot-definition-documentation))(defunswank-mop:slot-definition-documentation(slot)(documentation slot t));;; UTF8
(locally(declare (optimize (ext:inhibit-warnings 3)));; Compile and load the utf8 format, if not already loaded.
(stream::find-external-format :utf-8))(defimplementation string-to-utf8 (string)(let((ef (load-time-value (stream::find-external-format :utf-8)t)))(stream:string-to-octets string :external-format ef)))(defimplementation utf8-to-string(octets)(let((ef (load-time-value (stream::find-external-format :utf-8)t)))(stream:octets-to-string octets :external-format ef)));;;; TCP server
;;;
;;; In CMUCL we support all communication styles. By default we use
;;; `:SIGIO' because it is the most responsive, but it's somewhat
;;; dangerous: CMUCL is not in general "signal safe", and you don't
;;; know for sure what you'll be interrupting. Both `:FD-HANDLER' and
;;; `:SPAWN' are reasonable alternatives.
(defimplementation preferred-communication-style ()
:sigio)
#-(or darwin mips)(defimplementation create-socket (host port &key backlog)(let*((addr (resolve-hostname host))(addr (if(not(find-symbol"SOCKET-ERROR" :ext))(ext:htonl addr)
addr)))(ext:create-inet-listener port :stream :reuse-address t :host addr
:backlog (or backlog 5))));; There seems to be a bug in create-inet-listener on Mac/OSX and Irix.
#+(or darwin mips)(defimplementation create-socket (host port &key backlog)(declare (ignore host))(ext:create-inet-listener port :stream :reuse-address t))(defimplementation local-port (socket)(nth-value1(ext::get-socket-host-and-port (socket-fd socket))))(defimplementation close-socket (socket)(let((fd (socket-fd socket)))(sys:invalidate-descriptor fd)(ext:close-socket fd)))(defimplementation accept-connection (socket &key
external-format buffering timeout)(declare (ignore timeout))(make-socket-io-stream (ext:accept-tcp-connection socket)(ecase buffering
((t) :full)(:line :line)((nil) :none))
external-format));;;;; Sockets
(defimplementation socket-fd (socket)"Return the filedescriptor for the socket represented by SOCKET."(etypecase socket
(fixnum socket)(sys:fd-stream (sys:fd-stream-fd socket))))(defunresolve-hostname(hostname)"Return the IP address of HOSTNAME as an integer (in host byte-order)."(let((hostent (ext:lookup-host-entry hostname)))(car(ext:host-entry-addr-list hostent))))(defvar*external-format-to-coding-system*
'((:iso-8859-1"iso-latin-1-unix")#+unicode(:utf-8"utf-8-unix")))(defimplementation find-external-format(coding-system)(car(rassoc-if(lambda(x)(member coding-system x :test #'equal))*external-format-to-coding-system*)))(defunmake-socket-io-stream(fd buffering external-format)"Create a new input/output fd-stream for FD."(cond(external-format(sys:make-fd-stream fd :input t :output t
:element-type 'character
:buffering buffering
:external-format external-format))(t(sys:make-fd-stream fd :input t :output t
:element-type '(unsigned-byte8)
:buffering buffering))))(defimplementation make-fd-stream (fd external-format)(make-socket-io-stream fd :full external-format))(defimplementation dup (fd)(multiple-value-bind(clone error)(unix:unix-dup fd)(unless clone (error"dup failed: ~a"(unix:get-unix-error-msg error)))
clone))(defimplementation command-line-args ()
ext:*command-line-strings*)(defimplementation exec-image (image-file args)(multiple-value-bind(ok error)(unix:unix-execve (car(command-line-args))(list*(car(command-line-args))"-core" image-file
"-noinit"
args))(error"~a"(unix:get-unix-error-msg error))
ok));;;;; Signal-driven I/O
(defimplementation install-sigint-handler (function)(sys:enable-interrupt :sigint (lambda(signal code scp)(declare (ignore signal code scp))(funcall function))))(defvar*sigio-handlers* '()"List of (key . function) pairs.
All functions are called on SIGIO, and the key is used for removing
specific functions.")(defunreset-sigio-handlers()(setq*sigio-handlers* '()));; All file handlers are invalid afer reload.
(pushnew 'reset-sigio-handlers ext:*after-save-initializations*)(defunset-sigio-handler()(sys:enable-interrupt :sigio (lambda(signal code scp)(sigio-handler signal code scp))))(defunsigio-handler(signal code scp)(declare (ignore signal code scp))(mapc#'funcall(mapcar#'cdr*sigio-handlers*)))(defunfcntl(fd command arg)"fcntl(2) - manipulate a file descriptor."(multiple-value-bind(ok error)(unix:unix-fcntl fd command arg)(cond(ok)(t(error"fcntl: ~A"(unix:get-unix-error-msg error))))))(defimplementation add-sigio-handler (socket fn)(set-sigio-handler)(let((fd (socket-fd socket)))(fcntl fd unix:f-setown (unix:unix-getpid))(let((old-flags (fcntl fd unix:f-getfl 0)))(fcntl fd unix:f-setfl (logior old-flags unix:fasync)))(assert(not(assoc fd *sigio-handlers*)))(push(cons fd fn)*sigio-handlers*)))(defimplementation remove-sigio-handlers (socket)(let((fd (socket-fd socket)))(when(assoc fd *sigio-handlers*)(setf*sigio-handlers*(remove fd *sigio-handlers* :key #'car))(let((old-flags (fcntl fd unix:f-getfl 0)))(fcntl fd unix:f-setfl (logandc2 old-flags unix:fasync)))(sys:invalidate-descriptor fd))(assert(not(assoc fd *sigio-handlers*)))(when(null*sigio-handlers*)(sys:default-interrupt :sigio))));;;;; SERVE-EVENT
(defimplementation add-fd-handler (socket fn)(let((fd (socket-fd socket)))(sys:add-fd-handler fd :input (lambda(_) _ (funcall fn)))))(defimplementation remove-fd-handlers (socket)(sys:invalidate-descriptor (socket-fd socket)))(defimplementation wait-for-input (streams &optional timeout)(assert(member timeout '(nilt)))(loop(let((ready (remove-if-not#'listen streams)))(when ready (return ready)))(when timeout (returnnil))(multiple-value-bind(in out)(make-pipe)(let*((f(constantly t))(handlers (loopfor s in (cons in (mapcar#'to-fd-stream streams))collect(add-one-shot-handler s f))))(unwind-protect
(let((*interrupt-queued-handler*(lambda()(write-char#\! out))))(when(check-slime-interrupts)(return :interrupt))(sys:serve-event))(mapc#'sys:remove-fd-handler handlers)(close in)(close out))))))(defunto-fd-stream(stream)(etypecase stream
(sys:fd-stream stream)(synonym-stream
(to-fd-stream
(symbol-value(synonym-stream-symbol stream))))(two-way-stream
(to-fd-stream (two-way-stream-input-stream stream)))))(defunadd-one-shot-handler(stream function)(let(handler)(setq handler (sys:add-fd-handler (sys:fd-stream-fd stream) :input
(lambda(fd)(declare (ignore fd))(sys:remove-fd-handler handler)(funcall function stream))))))(defunmake-pipe()(multiple-value-bind(in out)(unix:unix-pipe)(values(sys:make-fd-stream in :input t :buffering :none)(sys:make-fd-stream out :output t :buffering :none))));;;; Stream handling
(defimplementation gray-package-name()"EXT");;;; Compilation Commands
(defvar*previous-compiler-condition*nil"Used to detect duplicates.")(defvar*previous-context*nil"Previous compiler error context.")(defvar*buffer-name*nil"The name of the Emacs buffer we are compiling from.
NIL if we aren't compiling from a buffer.")(defvar*buffer-start-position*nil)(defvar*buffer-substring*nil)(defimplementation call-with-compilation-hooks (function)(let((*previous-compiler-condition*nil)(*previous-context*nil)(*print-readably*nil))(handler-bind((c::compiler-error#'handle-notification-condition)(c::style-warning #'handle-notification-condition)(c::warning #'handle-notification-condition))(funcall function))))(defimplementation swank-compile-file(input-file output-file
load-p external-format
&key policy)(declare (ignore policy))(clear-xref-info input-file)(with-compilation-hooks ()(let((*buffer-name*nil)(ext:*ignore-extra-close-parentheses*nil))(multiple-value-bind(output-file warnings-p failure-p)(compile-file input-file :output-file output-file
:external-format external-format)(values output-file warnings-p
(or failure-p
(whenload-p
;; Cache the latest source file for definition-finding.
(source-cache-get input-file
(file-write-date input-file))(not(load output-file)))))))))(defimplementation swank-compile-string(string &key buffer position filename
line column policy)(declare (ignore filename line column policy))(with-compilation-hooks ()(let((*buffer-name* buffer)(*buffer-start-position*position)(*buffer-substring*string)(source-info (list :emacs-buffer buffer
:emacs-buffer-offset position
:emacs-buffer-stringstring)))(with-input-from-string(stream string)(let((failurep (ext:compile-from-stream stream :source-info
source-info)))(not failurep))))));;;;; Trapping notes
;;;
;;; We intercept conditions from the compiler and resignal them as
;;; `SWANK:COMPILER-CONDITION's.
(defunhandle-notification-condition(condition)"Handle a condition caused by a compiler warning."(unless(eq condition *previous-compiler-condition*)(let((context (c::find-error-context nil)))(setq*previous-compiler-condition* condition)(setq*previous-context* context)(signal-compiler-condition condition context))))(defunsignal-compiler-condition(condition context)(signal 'compiler-condition
:original-condition condition
:severity (severity-for-emacs condition)
:message (compiler-condition-message condition)
:source-context (compiler-error-context context)
:location (if(read-error-p condition)(read-error-location condition)(compiler-note-location context))))(defunseverity-for-emacs(condition)"Return the severity of CONDITION."(etypecase condition
((satisfies read-error-p) :read-error)(c::compiler-error :error)(c::style-warning :note)(c::warning :warning)))(defunread-error-p(condition)(eq(type-of condition) 'c::compiler-read-error))(defuncompiler-condition-message(condition)"Briefly describe a compiler error for Emacs.
When Emacs presents the message it already has the source popped up
and the source form highlighted. This makes much of the information in
the error-context redundant."(princ-to-string condition))(defuncompiler-error-context(error-context)"Describe context information for Emacs."(declare (type (or c::compiler-error-context null)error-context))(multiple-value-bind(enclosing source)(iferror-context
(values(c::compiler-error-context-enclosing-source error-context)(c::compiler-error-context-source error-context)))(if(or enclosing source)(formatnil"~@[--> ~{~<~%--> ~1:;~A ~>~}~%~]~
~@[==>~{~&~A~}~]"
enclosing source))))(defunread-error-location(condition)(let*((finfo (car(c::source-info-current-file c::*source-info*)))(file (c::file-info-name finfo))(pos (c::compiler-read-error-position condition)))(cond((and(eq file :stream)*buffer-name*)(make-location (list :buffer *buffer-name*)(list :offset *buffer-start-position* pos)))((and(pathnamep file)(not*buffer-name*))(make-location (list :file (unix-truename file))(list :position(1+ pos))))(t(break)))))(defuncompiler-note-location(context)"Derive the location of a complier message from its context.
Return a `location' record, or (:error REASON) on failure."(if(null context)(note-error-location)(with-struct (c::compiler-error-context- file-name
original-source
original-source-path) context
(or(locate-compiler-note file-name original-source
(reverse original-source-path))(note-error-location)))))(defunnote-error-location()"Pseudo-location for notes that can't be located."(cond(*compile-file-truename*(make-location (list :file (unix-truename*compile-file-truename*))(list :eof)))(*buffer-name*(make-location (list :buffer *buffer-name*)(list :position*buffer-start-position*)))(t(list :error"No error location available."))))(defunlocate-compiler-note(file source source-path)(cond((and(eq file :stream)*buffer-name*);; Compiling from a buffer
(make-location (list :buffer *buffer-name*)(list :offset *buffer-start-position*(source-path-string-position
source-path *buffer-substring*))))((and(pathnamep file)(null*buffer-name*));; Compiling from a file
(make-location (list :file (unix-truename file))(list :position(1+(source-path-file-position
source-path file)))))((and(eq file :lisp)(stringp source));; No location known, but we have the source form.
;; XXX How is this case triggered? -luke (16/May/2004)
;; This can happen if the compiler needs to expand a macro
;; but the macro-expander is not yet compiled. Calling the
;; (interpreted) macro-expander triggers IR1 conversion of
;; the lambda expression for the expander and invokes the
;; compiler recursively.
(make-location (list :source-form source)(list :position1)))))(defununix-truename(pathname)(ext:unix-namestring(truenamepathname)));;;; XREF
;;;
;;; Cross-reference support is based on the standard CMUCL `XREF'
;;; package. This package has some caveats: XREF information is
;;; recorded during compilation and not preserved in fasl files, and
;;; XREF recording is disabled by default. Redefining functions can
;;; also cause duplicate references to accumulate, but
;;; `swank-compile-file' will automatically clear out any old records
;;; from the same filename.
;;;
;;; To enable XREF recording, set `c:*record-xref-info*' to true. To
;;; clear out the XREF database call `xref:init-xref-database'.
(defmacrodefxref(name function)
`(defimplementation ,name (name)(xref-results (,function name))))(defxref who-calls xref:who-calls)(defxref who-references xref:who-references)(defxref who-binds xref:who-binds)(defxref who-sets xref:who-sets);;; More types of XREF information were added since 18e:
;;;
(defxref who-macroexpands xref:who-macroexpands);; XXX
(defimplementation who-specializes (symbol)(let*((methods (xref::who-specializes (find-class symbol)))(locations (mapcar#'method-location methods)))(mapcar#'list methods locations)))(defunxref-results(contexts)(mapcar(lambda(xref)(list(xref:xref-context-name xref)(resolve-xref-location xref)))
contexts))(defunresolve-xref-location(xref)(let((name (xref:xref-context-name xref))(file (xref:xref-context-file xref))(source-path (xref:xref-context-source-path xref)))(cond((and file source-path)(let((position(source-path-file-position source-path file)))(make-location (list :file (unix-truename file))(list :position(1+position)))))(file
(make-location (list :file (unix-truename file))(list :function-name (string name))))(t
`(:error ,(formatnil"Unknown source location: ~S ~S ~S "
name file source-path))))))(defunclear-xref-info(namestring)"Clear XREF notes pertaining to NAMESTRING.
This is a workaround for a CMUCL bug: XREF records are cumulative."(when c:*record-xref-info*(let((filename (truenamenamestring)))(dolist(db (list xref::*who-calls*
xref::*who-is-called*
xref::*who-macroexpands*
xref::*who-references*
xref::*who-binds*
xref::*who-sets*))(maphash(lambda(target contexts);; XXX update during traversal?
(setf(gethash target db)(delete filename contexts
:key #'xref:xref-context-file
:test #'equalp)))
db)))));;;; Find callers and callees
;;;
;;; Find callers and callees by looking at the constant pool of
;;; compiled code objects. We assume every fdefn object in the
;;; constant pool corresponds to a call to that function. A better
;;; strategy would be to use the disassembler to find actual
;;; call-sites.
(labels ((make-stack ()(make-array100 :fill-pointer0 :adjustable t))(map-cpool (code fun)(declare (type kernel:code-component code)(type function fun))(loopfor i from vm:code-constants-offset
below (kernel:get-header-data code)do(funcall fun (kernel:code-header-ref code i))))(callees (fun)(let((callees (make-stack)))(map-cpool (vm::find-code-object fun)(lambda(o)(when(kernel:fdefn-p o)(vector-push-extend(kernel:fdefn-function o)
callees))))(coerce callees 'list)))(callers (fun)(declare (function fun))(let((callers (make-stack)))(ext:gc :full t);; scan :dynamic first to avoid the need for even more gcing
(dolist(space '(:dynamic :read-only :static))(vm::map-allocated-objects
(lambda(obj header size)(declare (type fixnum header)(ignore size))(when(= vm:code-header-type header)(map-cpool obj
(lambda(c)(when(and(kernel:fdefn-p c)(eq(kernel:fdefn-function c) fun))(vector-push-extend obj callers))))))
space)(ext:gc))(coerce callers 'list)))(entry-points (code)(loopfor entry =(kernel:%code-entry-points code)then(kernel::%function-next entry)while entry
collect entry))(guess-main-entry-point (entry-points)(or(find-if(lambda(fun)(ext:valid-function-name-p
(kernel:%function-name fun)))
entry-points)(car entry-points)))(fun-dspec (fun)(list(kernel:%function-name fun)(function-location fun)))(code-dspec (code)(let((eps (entry-points code))(di (kernel:%code-debug-info code)))(cond(eps (fun-dspec (guess-main-entry-point eps)))(di (list(c::debug-info-name di)(debug-info-function-name-location di)))(t(list(princ-to-string code)
`(:error"No src-loc available")))))))(declare (inline map-cpool))(defimplementation list-callers (symbol)(mapcar#'code-dspec(callers (coerce symbol 'function))))(defimplementation list-callees (symbol)(mapcar#'fun-dspec(callees symbol))))(defuntest-list-callers(count)(let((funsyms '()))(do-all-symbols (s)(when(and(fboundp s)(functionp(symbol-function s))(not(macro-function s))(not(special-operator-p s)))(push s funsyms)))(let((len (length funsyms)))(dotimes(i count)(let((sym (nth(random len) funsyms)))(formatt"~s -> ~a~%" sym (mapcar#'car(list-callers sym))))))));; (test-list-callers 100)
;;;; Resolving source locations
;;;
;;; Our mission here is to "resolve" references to code locations into
;;; actual file/buffer names and character positions. The references
;;; we work from come out of the compiler's statically-generated debug
;;; information, such as `code-location''s and `debug-source''s. For
;;; more details, see the "Debugger Programmer's Interface" section of
;;; the CMUCL manual.
;;;
;;; The first step is usually to find the corresponding "source-path"
;;; for the location. Once we have the source-path we can pull up the
;;; source file and `READ' our way through to the right position. The
;;; main source-code groveling work is done in
;;; `source-path-parser.lisp'.
(defvar*debug-definition-finding*nil"When true don't handle errors while looking for definitions.
This is useful when debugging the definition-finding code.")(defmacrosafe-definition-finding(&body body)"Execute BODY and return the source-location it returns.
If an error occurs and `*debug-definition-finding*' is false, then
return an error pseudo-location.
The second return value is NIL if no error occurs, otherwise it is the
condition object."
`(flet ((body () ,@body))(if*debug-definition-finding*(body)(handler-case(values(progn ,@body)nil)(error(c)(values `(:error ,(trim-whitespace (princ-to-string c)))
c))))))(defuntrim-whitespace(string)(string-trim #(#\newline#\space#\tab)string))(defuncode-location-source-location(code-location)"Safe wrapper around `code-location-from-source-location'."(safe-definition-finding
(source-location-from-code-location code-location)))(defunsource-location-from-code-location(code-location)"Return the source location for CODE-LOCATION."(let((debug-fun (di:code-location-debug-function code-location)))(when(di::bogus-debug-function-p debug-fun);; Those lousy cheapskates! They've put in a bogus debug source
;; because the code was compiled at a low debug setting.
(error"Bogus debug function: ~A" debug-fun)))(let*((debug-source (di:code-location-debug-source code-location))(from(di:debug-source-from debug-source))(name (di:debug-source-name debug-source)))(ecasefrom(:file
(location-in-file name code-location debug-source))(:stream
(location-in-stream code-location debug-source))(:lisp
;; The location comes from a form passed to `compile'.
;; The best we can do is return the form itself for printing.
(make-location
(list :source-form (with-output-to-string(*standard-output*)(debug::print-code-location-source-form
code-location 100t)))(list :position1))))))(defunlocation-in-file(filename code-location debug-source)"Resolve the source location for CODE-LOCATION in FILENAME."(let*((code-date (di:debug-source-created debug-source))(root-number (di:debug-source-root-number debug-source))(source-code (get-source-code filename code-date)))(with-input-from-string(s source-code)(make-location (list :file (unix-truename filename))(list :position(1+(code-location-stream-position
code-location s root-number)))
`(:snippet ,(read-snippet s))))))(defunlocation-in-stream(code-location debug-source)"Resolve the source location for a CODE-LOCATION from a stream.
This only succeeds if the code was compiled from an Emacs buffer."(unless(debug-source-info-from-emacs-buffer-p debug-source)(error"The code is compiled from a non-SLIME stream."))(let*((info (c::debug-source-info debug-source))(string(getf info :emacs-buffer-string))(position(code-location-string-offset
code-location
string)))(make-location
(list :buffer (getf info :emacs-buffer))(list :offset (getf info :emacs-buffer-offset)position)(list :snippet (with-input-from-string(s string)(file-position s position)(read-snippet s))))));;;;; Function-name locations
;;;
(defundebug-info-function-name-location(debug-info)"Return a function-name source-location for DEBUG-INFO.
Function-name source-locations are a fallback for when precise
positions aren't available."(with-struct (c::debug-info-(fname name) source) debug-info
(with-struct (c::debug-source- info from name)(car source)(ecasefrom(:file
(make-location (list :file (namestring(truename name)))(list :function-name (string fname))))(:stream
(assert(debug-source-info-from-emacs-buffer-p (car source)))(make-location (list :buffer (getf info :emacs-buffer))(list :function-name (string fname))))(:lisp
(make-location (list :source-form (princ-to-string(aref name 0)))(list :position1)))))))(defundebug-source-info-from-emacs-buffer-p(debug-source)"Does the `info' slot of DEBUG-SOURCE contain an Emacs buffer location?
This is true for functions that were compiled directly from buffers."(info-from-emacs-buffer-p (c::debug-source-info debug-source)))(defuninfo-from-emacs-buffer-p(info)(and info
(consp info)(eq :emacs-buffer (car info))));;;;; Groveling source-code for positions
(defuncode-location-stream-position(code-location stream root)"Return the byte offset of CODE-LOCATION in STREAM. Extract the
toplevel-form-number and form-number from CODE-LOCATION and use that
to find the position of the corresponding form.
Finish with STREAM positioned at the start of the code location."(let*((location (debug::maybe-block-start-location code-location))(tlf-offset (-(di:code-location-top-level-form-offset location)
root))(form-number (di:code-location-form-number location)))(let((pos (form-number-stream-position tlf-offset form-number stream)))(file-position stream pos)
pos)))(defunform-number-stream-position(tlf-number form-number stream)"Return the starting character position of a form in STREAM.
TLF-NUMBER is the top-level-form number.
FORM-NUMBER is an index into a source-path table for the TLF."(multiple-value-bind(tlf position-map)(read-source-form tlf-number stream)(let*((path-table (di:form-number-translations tlf 0))(source-path
(if(<=(length path-table) form-number); source out of sync?
(list0); should probably signal a condition
(reverse(cdr(aref path-table form-number))))))(source-path-source-position source-path tlf position-map))))(defuncode-location-string-offset(code-location string)"Return the byte offset of CODE-LOCATION in STRING.
See CODE-LOCATION-STREAM-POSITION."(with-input-from-string(s string)(code-location-stream-position code-location s 0)));;;; Finding definitions
;;; There are a great many different types of definition for us to
;;; find. We search for definitions of every kind and return them in a
;;; list.
(defimplementation find-definitions (name)(append(function-definitions name)(setf-definitions name)(variable-definitions name)(class-definitions name)(type-definitions name)(compiler-macro-definitions name)(source-transform-definitions name)(function-info-definitions name)(ir1-translator-definitions name)(template-definitions name)(primitive-definitions name)(vm-support-routine-definitions name)));;;;; Functions, macros, generic functions, methods
;;;
;;; We make extensive use of the compile-time debug information that
;;; CMUCL records, in particular "debug functions" and "code
;;; locations." Refer to the "Debugger Programmer's Interface" section
;;; of the CMUCL manual for more details.
(defunfunction-definitions(name)"Return definitions for NAME in the \"function namespace\", i.e.,
regular functions, generic functions, methods and macros.
NAME can any valid function name (e.g, (setf car))."(let((macro? (and(symbolp name)(macro-function name)))(function? (and(ext:valid-function-name-p name)(ext:info :function :definition name)(if(symbolp name)(fboundp name)t))))(cond(macro?
(list `((defmacro,name)
,(function-location (macro-function name)))))(function?
(let((function (fdefinition name)))(if(genericp function)(gf-definitions name function)(list(list `(function ,name)(function-location function)))))))));;;;;; Ordinary (non-generic/macro/special) functions
;;;
;;; First we test if FUNCTION is a closure created by defstruct, and
;;; if so extract the defstruct-description (`dd') from the closure
;;; and find the constructor for the struct. Defstruct creates a
;;; defun for the default constructor and we use that as an
;;; approximation to the source location of the defstruct.
;;;
;;; For an ordinary function we return the source location of the
;;; first code-location we find.
;;;
(defunfunction-location(function)"Return the source location for FUNCTION."(cond((struct-closure-p function)(struct-closure-location function))((c::byte-function-or-closure-p function)(byte-function-location function))(t(compiled-function-location function))))(defuncompiled-function-location(function)"Return the location of a regular compiled function."(multiple-value-bind(code-location error)(safe-definition-finding (function-first-code-location function))(cond(error(list :error(princ-to-stringerror)))(t(code-location-source-location code-location)))))(defunfunction-first-code-location(function)"Return the first code-location we can find for FUNCTION."(and(function-has-debug-function-p function)(di:debug-function-start-location
(di:function-debug-function function))))(defunfunction-has-debug-function-p(function)(di:function-debug-function function))(defunfunction-code-object=(closure function)(and(eq(vm::find-code-object closure)(vm::find-code-object function))(not(eq closure function))))(defunbyte-function-location(fun)"Return the location of the byte-compiled function FUN."(etypecase fun
((or c::hairy-byte-function c::simple-byte-function)(let*((di (kernel:%code-debug-info (c::byte-function-component fun))))(if di
(debug-info-function-name-location di)
`(:error
,(formatnil"Byte-function without debug-info: ~a" fun)))))(c::byte-closure
(byte-function-location (c::byte-closure-function fun)))));;; Here we deal with structure accessors. Note that `dd' is a
;;; "defstruct descriptor" structure in CMUCL. A `dd' describes a
;;; `defstruct''d structure.
(defunstruct-closure-p(function)"Is FUNCTION a closure created by defstruct?"(or(function-code-object= function #'kernel::structure-slot-accessor)(function-code-object= function #'kernel::structure-slot-setter)(function-code-object= function #'kernel::%defstruct)))(defunstruct-closure-location(function)"Return the location of the structure that FUNCTION belongs to."(assert(struct-closure-p function))(safe-definition-finding
(dd-location (struct-closure-dd function))))(defunstruct-closure-dd(function)"Return the defstruct-definition (dd) of FUNCTION."(assert(=(kernel:get-type function) vm:closure-header-type))(flet ((find-layout (function)(sys:find-if-in-closure
(lambda(x)(let((value (if(di::indirect-value-cell-p x)(c:value-cell-ref x)
x)))(when(kernel::layout-p value)(return-fromfind-layout value))))
function)))(kernel:layout-info (find-layout function))))(defundd-location(dd)"Return the location of a `defstruct'."(let((ctor (struct-constructor dd)))(cond(ctor
(function-location (coerce ctor 'function)))(t(let((name (kernel:dd-name dd)))(multiple-value-bind(location foundp)(ext:info :source-location :defvar name)(cond(foundp
(resolve-source-location location))(t(error"No location for defstruct: ~S" name)))))))))(defunstruct-constructor(dd)"Return the name of the constructor from a defstruct definition."(let*((constructor (or(kernel:dd-default-constructor dd)(car(kernel::dd-constructors dd)))))(if(consp constructor)(car constructor) constructor)));;;;;; Generic functions and methods
(defungf-definitions(name function)"Return the definitions of a generic function and its methods."(cons(list `(defgeneric ,name)(gf-location function))(gf-method-definitions function)))(defungf-location(gf)"Return the location of the generic function GF."(definition-source-location gf (pcl::generic-function-name gf)))(defungf-method-definitions(gf)"Return the locations of all methods of the generic function GF."(mapcar#'method-definition(pcl::generic-function-methods gf)))(defunmethod-definition(method)(list(method-dspec method)(method-location method)))(defunmethod-dspec(method)"Return a human-readable \"definition specifier\" for METHOD."(let*((gf (pcl:method-generic-function method))(name (pcl:generic-function-name gf))(specializers (pcl:method-specializers method))(qualifiers (pcl:method-qualifiers method)))
`(method ,name ,@qualifiers ,(pcl::unparse-specializers specializers))))(defunmethod-location(method)(typecase method
(pcl::standard-accessor-method
(definition-source-location
(cond((pcl::definition-source method)
method)(t(pcl::slot-definition-class
(pcl::accessor-method-slot-definition method))))(pcl::accessor-method-slot-name method)))(t(function-location (or(pcl::method-fast-function method)(pcl:method-function method))))))(defungenericp(fn)(typep fn 'generic-function));;;;;; Types and classes
(defuntype-definitions(name)"Return `deftype' locations for type NAME."(maybe-make-definition (ext:info :type :expander name) 'deftype name))(defunmaybe-make-definition(function kind name)"If FUNCTION is non-nil then return its definition location."(if function
(list(list `(,kind ,name)(function-location function)))))(defunclass-definitions(name)"Return the definition locations for the class called NAME."(if(symbolp name)(let((class (kernel::find-class name nil)))(etypecase class
(null '())(kernel::structure-class
(list(list `(defstruct ,name)(dd-location (find-dd name)))))#+(or)(conditions::condition-class
(list(list `(define-condition ,name)(condition-class-location class))))(kernel::standard-class
(list(list `(defclass ,name)(pcl-class-location (find-class name)))))((or kernel::built-in-class
conditions::condition-class
kernel:funcallable-structure-class)(list(list `(class ,name)(class-location class))))))))(defunpcl-class-location(class)"Return the `defclass' location for CLASS."(definition-source-location class (pcl:class-name class)));; FIXME: eval used for backward compatibility.
(defunclass-location(class)(declare (type kernel::class class))(let((name (kernel:%class-name class)))(multiple-value-bind(loc found?)(let((x (ignore-errors(multiple-value-list(eval `(ext:info :source-location :class ',name))))))(values-list x))(cond(found? (resolve-source-location loc))(`(:error
,(formatnil"No location recorded for class: ~S" name)))))))(defunfind-dd(name)"Find the defstruct-definition by the name of its structure-class."(let((layout (ext:info :type :compiler-layout name)))(if layout
(kernel:layout-info layout))))(defuncondition-class-location(class)(let((slots (conditions::condition-class-slots class))(name (conditions::condition-class-name class)))(cond((null slots)
`(:error ,(formatnil"No location info for condition: ~A" name)))(t;; Find the class via one of its slot-reader methods.
(let*((slot (first slots))(gf (fdefinition(first(conditions::condition-slot-readers slot)))))(method-location
(first(pcl:compute-applicable-methods-using-classes
gf (list(find-class name))))))))))(defunmake-name-in-file-location(file string)(multiple-value-bind(filename c)(ignore-errors(unix-truename(merge-pathnames(make-pathname :type "lisp")
file)))(cond(filename (make-location `(:file ,filename)
`(:function-name ,(stringstring))))(t(list :error(princ-to-string c))))))(defunsource-location-form-numbers(location)(c::decode-form-numbers (c::form-numbers-form-numbers location)))(defunsource-location-tlf-number(location)(nth-value0(source-location-form-numbers location)))(defunsource-location-form-number(location)(nth-value1(source-location-form-numbers location)))(defunresolve-file-source-location(location)(let((filename (c::file-source-location-pathname location))(tlf-number (source-location-tlf-number location))(form-number (source-location-form-number location)))(with-open-file (s filename)(let((pos (form-number-stream-position tlf-number form-number s)))(make-location `(:file ,(unix-truename filename))
`(:position ,(1+ pos)))))))(defunresolve-stream-source-location(location)(let((info (c::stream-source-location-user-info location))(tlf-number (source-location-tlf-number location))(form-number (source-location-form-number location)));; XXX duplication in frame-source-location
(assert(info-from-emacs-buffer-p info))(destructuring-bind(&key emacs-buffer emacs-buffer-string
emacs-buffer-offset) info
(with-input-from-string(s emacs-buffer-string)(let((pos (form-number-stream-position tlf-number form-number s)))(make-location `(:buffer ,emacs-buffer)
`(:offset ,emacs-buffer-offset ,pos)))))));; XXX predicates for 18e backward compatibilty. Remove them when
;; we're 19a only.
(defunfile-source-location-p(object)(when(fboundp 'c::file-source-location-p)(c::file-source-location-p object)))(defunstream-source-location-p(object)(when(fboundp 'c::stream-source-location-p)(c::stream-source-location-p object)))(defunsource-location-p(object)(or(file-source-location-p object)(stream-source-location-p object)))(defunresolve-source-location(location)(etypecase location
((satisfies file-source-location-p)(resolve-file-source-location location))((satisfies stream-source-location-p)(resolve-stream-source-location location))))(defundefinition-source-location(object name)(let((source (pcl::definition-source object)))(etypecase source
(null
`(:error ,(formatnil"No source info for: ~A" object)))((satisfies source-location-p)(resolve-source-location source))(pathname(make-name-in-file-location source name))(cons(destructuring-bind((dg name)pathname) source
(declare (ignore dg))(etypecasepathname(pathname(make-name-in-file-location pathname(string name)))(null `(:error ,(formatnil"Cannot resolve: ~S" source)))))))))(defunsetf-definitions(name)(let((f(or(ext:info :setf :inverse name)(ext:info :setf :expander name)(and(symbolp name)(fboundp `(setf ,name))(fdefinition `(setf ,name))))))(iff
`(((setf ,name) ,(function-location (cond((functionpf)f)((macro-functionf))((fdefinitionf)))))))))(defunvariable-location(symbol)(multiple-value-bind(location foundp);; XXX for 18e compatibilty. rewrite this when we drop 18e
;; support.
(ignore-errors(eval `(ext:info :source-location :defvar ',symbol)))(if(and foundp location)(resolve-source-location location)
`(:error ,(formatnil"No source info for variable ~S" symbol)))))(defunvariable-definitions(name)(if(symbolp name)(multiple-value-bind(kind recorded-p)(ext:info :variable :kind name)(if recorded-p
(list(list `(variable ,kind ,name)(variable-location name)))))))(defuncompiler-macro-definitions(symbol)(maybe-make-definition (compiler-macro-function symbol)
'define-compiler-macro
symbol))(defunsource-transform-definitions(name)(maybe-make-definition (ext:info :function :source-transform name)
'c:def-source-transform
name))(defunfunction-info-definitions(name)(let((info (ext:info :function :info name)))(if info
(append(loopfor transform in (c::function-info-transforms info)collect(list `(c:deftransform ,name
,(c::type-specifier
(c::transform-type transform)))(function-location (c::transform-function
transform))))(maybe-make-definition (c::function-info-derive-type info)
'c::derive-type name)(maybe-make-definition (c::function-info-optimizer info)
'c::optimizer name)(maybe-make-definition (c::function-info-ltn-annotate info)
'c::ltn-annotate name)(maybe-make-definition (c::function-info-ir2-convert info)
'c::ir2-convert name)(loopfor template in (c::function-info-templates info)collect(list `(,(type-of template)
,(c::template-name template))(function-location
(c::vop-info-generator-function
template))))))))(defunir1-translator-definitions(name)(maybe-make-definition (ext:info :function :ir1-convert name)
'c:def-ir1-translator name))(defuntemplate-definitions(name)(let*((templates (c::backend-template-names c::*backend*))(template (gethash name templates)))(etypecase template
(null)(c::vop-info
(maybe-make-definition (c::vop-info-generator-function template)(type-of template) name)))));; for cases like: (%primitive NAME ...)
(defunprimitive-definitions(name)(let((csym (find-symbol(string name) 'c)))(and csym
(not(eq csym name))(template-definitions csym))))(defunvm-support-routine-definitions(name)(let((sr (c::backend-support-routines c::*backend*))(name (find-symbol(string name) 'c)))(and name
(slot-exists-p sr name)(maybe-make-definition (slot-value sr name)(find-symbol(string 'vm-support-routine) 'c)
name))));;;; Documentation.
(defimplementation describe-symbol-for-emacs (symbol)(let((result '()))(flet ((doc (kind)(or(documentation symbol kind) :not-documented))(maybe-push(property value)(when value
(setf result (list* property value result)))))(maybe-push
:variable (multiple-value-bind(kind recorded-p)(ext:info variable kind symbol)(declare (ignore kind))(if(or(boundp symbol) recorded-p)(doc 'variable))))(when(fboundp symbol)(maybe-push(cond((macro-function symbol) :macro)((special-operator-p symbol) :special-operator)((genericp (fdefinition symbol)) :generic-function)(t :function))(doc 'function)))(maybe-push
:setf(if(or(ext:info setf inverse symbol)(ext:info setf expander symbol))(doc 'setf)))(maybe-push
:type (if(ext:info type kind symbol)(doc 'type)))(maybe-push
:class (if(find-class symbol nil)(doc 'class)))(maybe-push
:alien-type (if(not(eq(ext:info alien-type kind symbol) :unknown))(doc 'alien-type)))(maybe-push
:alien-struct (if(ext:info alien-type struct symbol)(doc nil)))(maybe-push
:alien-union(if(ext:info alien-type union symbol)(doc nil)))(maybe-push
:alien-enum (if(ext:info alien-type enum symbol)(doc nil)))
result)))(defimplementation describe-definition (symbol namespace)(describe(ecase namespace
(:variable
symbol)((:function :generic-function)(symbol-function symbol))(:setf(or(ext:info setf inverse symbol)(ext:info setf expander symbol)))(:type
(kernel:values-specifier-type symbol))(:class
(find-class symbol))(:alien-struct
(ext:info :alien-type :struct symbol))(:alien-union(ext:info :alien-type :union symbol))(:alien-enum
(ext:info :alien-type :enum symbol))(:alien-type
(ecase(ext:info :alien-type :kind symbol)(:primitive
(let((alien::*values-type-okay*t))(funcall(ext:info :alien-type :translator symbol)(list symbol))))((:defined)(ext:info :alien-type :definition symbol))(:unknown :unkown))))));;;;; Argument lists
(defimplementation arglist (fun)(etypecase fun
(function (function-arglist fun))(symbol (function-arglist (or(macro-function fun)(symbol-function fun))))))(defunfunction-arglist(fun)(let((arglist
(cond((eval:interpreted-function-p fun)(eval:interpreted-function-arglist fun))((pcl::generic-function-p fun)(pcl:generic-function-lambda-list fun))((c::byte-function-or-closure-p fun)(byte-code-function-arglist fun))((kernel:%function-arglist (kernel:%function-self fun))(handler-case(read-arglist fun)(error() :not-available)));; this should work both for compiled-debug-function
;; and for interpreted-debug-function
(t(handler-case(debug-function-arglist
(di::function-debug-function fun))(di:unhandled-condition () :not-available))))))(check-type arglist (orlist(member :not-available)))
arglist))(defimplementation function-name (function)(cond((eval:interpreted-function-p function)(eval:interpreted-function-name function))((pcl::generic-function-p function)(pcl::generic-function-name function))((c::byte-function-or-closure-p function)(c::byte-function-name function))(t(kernel:%function-name (kernel:%function-self function)))));;; A simple case: the arglist is available as a string that we can
;;; `read'.
(defunread-arglist(fn)"Parse the arglist-string of the function object FN."(let((string(kernel:%function-arglist
(kernel:%function-self fn)))(package (find-package(c::compiled-debug-info-package
(kernel:%code-debug-info
(vm::find-code-object fn))))))(with-standard-io-syntax
(let((*package*(or package *package*)))(read-from-stringstring)))));;; A harder case: an approximate arglist is derived from available
;;; debugging information.
(defundebug-function-arglist(debug-function)"Derive the argument list of DEBUG-FUNCTION from debug info."(let((args (di::debug-function-lambda-list debug-function))(required '())(optional '())(rest '())(key '()));; collect the names of debug-vars
(dolist(arg args)(etypecase arg
(di::debug-variable
(push(di::debug-variable-symbol arg) required))((member :deleted)(push ':deleted required))(cons(ecase(car arg)(:keyword
(push(second arg) key))(:optional
(push(debug-variable-symbol-or-deleted (second arg)) optional))(:rest(push(debug-variable-symbol-or-deleted (second arg))rest))))));; intersperse lambda keywords as needed
(append(nreverse required)(if optional (cons '&optional (nreverse optional)))(ifrest(cons '&rest(nreverserest)))(if key (cons '&key (nreverse key))))))(defundebug-variable-symbol-or-deleted(var)(etypecase var
(di:debug-variable
(di::debug-variable-symbol var))((member :deleted)
'#:deleted)))(defunsymbol-debug-function-arglist(fname)"Return FNAME's debug-function-arglist and %function-arglist.
A utility for debugging DEBUG-FUNCTION-ARGLIST."(let((fn (fdefinition fname)))(values(debug-function-arglist (di::function-debug-function fn))(kernel:%function-arglist (kernel:%function-self fn)))));;; Deriving arglists for byte-compiled functions:
;;;
(defunbyte-code-function-arglist(fn);; There doesn't seem to be much arglist information around for
;; byte-code functions. Use the arg-count and return something like
;; (arg0 arg1 ...)
(etypecase fn
(c::simple-byte-function
(loopfor i from0 below (c::simple-byte-function-num-args fn)collect(make-arg-symbol i)))(c::hairy-byte-function
(hairy-byte-function-arglist fn))(c::byte-closure
(byte-code-function-arglist (c::byte-closure-function fn)))))(defunmake-arg-symbol(i)(make-symbol(formatnil"~A~D"(string 'arg) i)));;; A "hairy" byte-function is one that takes a variable number of
;;; arguments. `hairy-byte-function' is a type from the bytecode
;;; interpreter.
;;;
(defunhairy-byte-function-arglist(fn)(let((counter -1))(flet ((next-arg ()(make-arg-symbol (incf counter))))(with-struct (c::hairy-byte-function-min-args max-args rest-arg-p
keywords-p keywords) fn
(let((arglist '())(optional (-max-args min-args)));; XXX isn't there a better way to write this?
;; (Looks fine to me. -luke)
(dotimes(i min-args)(push(next-arg) arglist))(when(plusp optional)(push '&optional arglist)(dotimes(i optional)(push(next-arg) arglist)))(whenrest-arg-p
(push '&rest arglist)(push(next-arg) arglist))(when keywords-p
(push '&key arglist)(loopfor(key _ __) in keywords
do(push key arglist))(when(eq keywords-p :allow-others)(push '&allow-other-keys arglist)))(nreverse arglist))))));;;; Miscellaneous.
(defimplementation macroexpand-all (form &optional env)(walker:macroexpand-all form env))(defimplementation compiler-macroexpand-1(form &optional env)(ext:compiler-macroexpand-1 form env))(defimplementation compiler-macroexpand(form &optional env)(ext:compiler-macroexpand form env))(defimplementation set-default-directory(directory)(setf(ext:default-directory)(namestringdirectory));; Setting *default-pathname-defaults* to an absolute directory
;; makes the behavior of MERGE-PATHNAMES a bit more intuitive.
(setf*default-pathname-defaults*(pathname(ext:default-directory)))(default-directory))(defimplementation default-directory()(namestring(ext:default-directory)))(defimplementation getpid ()(unix:unix-getpid))(defimplementation lisp-implementation-type-name ()"cmucl")(defimplementation quit-lisp ()(ext::quit));;; source-path-{stream,file,string,etc}-position moved into
;;; source-path-parser
;;;; Debugging
(defvar*sldb-stack-top*)(defimplementation call-with-debugging-environment (debugger-loop-fn)(unix:unix-sigsetmask 0)(let*((*sldb-stack-top*(or debug:*stack-top-hint*(di:top-frame)))(debug:*stack-top-hint*nil)(kernel:*current-level*0))(handler-bind((di::unhandled-condition
(lambda(condition)(error 'sldb-condition
:original-condition condition))))(unwind-protect
(progn#+(or)(sys:scrub-control-stack)(funcall debugger-loop-fn))#+(or)(sys:scrub-control-stack)))))(defunframe-down(frame)(handler-case(di:frame-down frame)(di:no-debug-info ()nil)))(defunnth-frame(index)(do((frame *sldb-stack-top*(frame-down frame))(i index (1- i)))((zerop i) frame)))(defimplementation compute-backtrace (start end)(let((end (or end most-positive-fixnum)))(loopforf=(nth-frame start)then(frame-down f)for i from start below end
whilefcollectf)))(defimplementation print-frame (frame stream)(let((*standard-output* stream))(handler-case(debug::print-frame-call frame :verbosity 1 :number nil)(error(e)(ignore-errors(princ e stream))))))(defimplementation frame-source-location (index)(let((frame (nth-frame index)))(cond((foreign-frame-p frame)(foreign-frame-source-location frame))((code-location-source-location (di:frame-code-location frame))))))(defimplementation eval-in-frame (form index)(di:eval-in-frame (nth-frame index) form))(defunframe-debug-vars(frame)"Return a vector of debug-variables in frame."(let((loc (di:frame-code-location frame)))(remove-if(lambda(v)(not(eq(di:debug-variable-validity v loc) :valid)))(di::debug-function-debug-variables (di:frame-debug-function frame)))))(defundebug-var-value(var frame)(let*((loc (di:frame-code-location frame))(validity (di:debug-variable-validity var loc)))(ecase validity
(:valid (di:debug-variable-value var frame))((:invalid :unknown)(make-symbol(string validity))))))(defimplementation frame-locals (index)(let((frame (nth-frame index)))(loopfor v across (frame-debug-vars frame)collect(list :name (di:debug-variable-symbol v)
:id (di:debug-variable-id v)
:value (debug-var-value v frame)))))(defimplementation frame-var-value (frame var)(let*((frame (nth-frame frame))(dvar (aref(frame-debug-vars frame) var)))(debug-var-value dvar frame)))(defimplementation frame-catch-tags (index)(mapcar#'car(di:frame-catches (nth-frame index))))(defimplementation frame-package (frame-number)(let*((frame (nth-frame frame-number))(dbg-fun (di:frame-debug-function frame)))(typecase dbg-fun
(di::compiled-debug-function
(let*((comp (di::compiled-debug-function-component dbg-fun))(dbg-info (kernel:%code-debug-info comp)))(typecase dbg-info
(c::compiled-debug-info
(find-package(c::compiled-debug-info-package dbg-info)))))))))(defimplementation return-from-frame (index form)(let((sym (find-symbol(string 'find-debug-tag-for-frame)
:debug-internals)))(if sym
(let*((frame (nth-frame index))(probe (funcall sym frame)))(cond(probe (throw (car probe)(eval-in-frame form index)))(t(formatnil"Cannot return from frame: ~S" frame))))"return-from-frame is not implemented in this version of CMUCL.")))(defimplementation activate-stepping (frame)(set-step-breakpoints (nth-frame frame)))(defimplementation sldb-break-on-return(frame)(break-on-return(nth-frame frame)));;; We set the breakpoint in the caller which might be a bit confusing.
;;;
(defunbreak-on-return(frame)(let*((caller (di:frame-down frame))(cl (di:frame-code-location caller)))(flet ((hook (frame bp)(when(frame-pointer= frame caller)(di:delete-breakpoint bp)(signal-breakpoint bp frame))))(let*((info (ecase(di:code-location-kind cl)((:single-value-return :unknown-return)nil)(:known-return(debug-function-returns
(di:frame-debug-function frame)))))(bp (di:make-breakpoint #'hook cl :kind :code-location
:info info)))(di:activate-breakpoint bp)
`(:ok ,(formatnil"Set breakpoint in ~A" caller))))))(defunframe-pointer=(frame1 frame2)"Return true if the frame pointers of FRAME1 and FRAME2 are the same."(sys:sap=(di::frame-pointer frame1)(di::frame-pointer frame2)));;; The PC in escaped frames at a single-return-value point is
;;; actually vm:single-value-return-byte-offset bytes after the
;;; position given in the debug info. Here we try to recognize such
;;; cases.
;;;
(defunnext-code-locations(frame code-location)"Like `debug::next-code-locations' but be careful in escaped frames."(let((next (debug::next-code-locations code-location)))(flet ((adjust-pc ()(let((cl (di::copy-compiled-code-location code-location)))(incf(di::compiled-code-location-pc cl)
vm:single-value-return-byte-offset)
cl)))(cond((and(di::compiled-frame-escaped frame)(eq(di:code-location-kind code-location)
:single-value-return)(=(length next)1)(di:code-location=(car next)(adjust-pc)))(debug::next-code-locations (car next)))(t
next)))))(defunset-step-breakpoints(frame)(let((cl (di:frame-code-location frame)))(when(di:debug-block-elsewhere-p (di:code-location-debug-block cl))(error"Cannot step in elsewhere code"))(let*((debug::*bad-code-location-types*(remove :call-site debug::*bad-code-location-types*))(next (next-code-locations frame cl)))(cond(next
(let((steppoints '()))(flet ((hook (bp-frame bp)(signal-breakpoint bp bp-frame)(mapc#'di:delete-breakpoint steppoints)))(dolist(code-location next)(let((bp (di:make-breakpoint #'hook code-location
:kind :code-location)))(di:activate-breakpoint bp)(push bp steppoints))))))(t(break-on-return frame))))));; XXX the return values at return breakpoints should be passed to the
;; user hooks. debug-int.lisp should be changed to do this cleanly.
;;; The sigcontext and the PC for a breakpoint invocation are not
;;; passed to user hook functions, but we need them to extract return
;;; values. So we advice di::handle-breakpoint and bind the values to
;;; special variables.
;;;
(defvar*breakpoint-sigcontext*)(defvar*breakpoint-pc*)(define-fwrapper bind-breakpoint-sigcontext (offset c sigcontext)(let((*breakpoint-sigcontext* sigcontext)(*breakpoint-pc* offset))(call-next-function)))(set-fwrappers 'di::handle-breakpoint '())(fwrap 'di::handle-breakpoint #'bind-breakpoint-sigcontext)(defunsigcontext-object(sc index)"Extract the lisp object in sigcontext SC at offset INDEX."(kernel:make-lisp-obj (vm:sigcontext-register sc index)))(defunknown-return-point-values(sigcontext sc-offsets)(let((fp (system:int-sap (vm:sigcontext-register sigcontext
vm::cfp-offset))))(system:without-gcing
(loopfor sc-offset across sc-offsets
collect(di::sub-access-debug-var-slot fp sc-offset sigcontext)))));;; CMUCL returns the first few values in registers and the rest on
;;; the stack. In the multiple value case, the number of values is
;;; stored in a dedicated register. The values of the registers can be
;;; accessed in the sigcontext for the breakpoint. There are 3 kinds
;;; of return conventions: :single-value-return, :unknown-return, and
;;; :known-return.
;;;
;;; The :single-value-return convention returns the value in a
;;; register without setting the nargs registers.
;;;
;;; The :unknown-return variant is used for multiple values. A
;;; :unknown-return point consists actually of 2 breakpoints: one for
;;; the single value case and one for the general case. The single
;;; value breakpoint comes vm:single-value-return-byte-offset after
;;; the multiple value breakpoint.
;;;
;;; The :known-return convention is used by local functions.
;;; :known-return is currently not supported because we don't know
;;; where the values are passed.
;;;
(defunbreakpoint-values(breakpoint)"Return the list of return values for a return point."(flet ((1st (sc)(sigcontext-object sc (car vm::register-arg-offsets))))(let((sc (locally(declare (optimize (speed 0)))(alien:sap-alien *breakpoint-sigcontext*(* unix:sigcontext))))(cl (di:breakpoint-what breakpoint)))(ecase(di:code-location-kind cl)(:single-value-return(list(1st sc)))(:known-return(let((info (di:breakpoint-info breakpoint)))(if(vectorp info)(known-return-point-values sc info)(progn;;(break)
(list"<<known-return convention not supported>>" info)))))(:unknown-return(let((mv-return-pc (di::compiled-code-location-pc cl)))(if(= mv-return-pc *breakpoint-pc*)(mv-function-end-breakpoint-values sc)(list(1st sc)))))))));; XXX: di::get-function-end-breakpoint-values takes 2 arguments in
;; newer versions of CMUCL (after ~March 2005).
(defunmv-function-end-breakpoint-values(sigcontext)(let((sym (find-symbol"FUNCTION-END-BREAKPOINT-VALUES/STANDARD" :di)))(cond(sym (funcall sym sigcontext))(t(funcall 'di::get-function-end-breakpoint-values sigcontext)))))(defundebug-function-returns(debug-fun)"Return the return style of DEBUG-FUN."(let*((cdfun (di::compiled-debug-function-compiler-debug-fun debug-fun)))(c::compiled-debug-function-returns cdfun)))(define-condition breakpoint (simple-condition)((message :initarg :message :reader breakpoint.message)(values :initarg :values :reader breakpoint.values))(:report (lambda(c stream)(princ (breakpoint.message c) stream))))(defimplementation condition-extras (condition)(typecase condition
(breakpoint
;; pop up the source buffer
`((:show-frame-source 0)))(t '())))(defunsignal-breakpoint(breakpoint frame)"Signal a breakpoint condition for BREAKPOINT in FRAME.
Try to create a informative message."(flet ((brk (values fstring &rest args)(let((msg (apply#'formatnil fstring args))(debug:*stack-top-hint* frame))(break 'breakpoint :message msg :valuesvalues))))(with-struct (di::breakpoint- kind what) breakpoint
(case kind
(:code-location
(case(di:code-location-kind what)((:single-value-return :known-return :unknown-return)(let((values(breakpoint-values breakpoint)))(brk values"Return value: ~{~S ~}"values)))(t#+(or)(when(eq(di:code-location-kind what) :call-site)(call-site-function breakpoint frame))(brk nil"Breakpoint: ~S ~S"(di:code-location-kind what)(di::compiled-code-location-pc what)))))(:function-start
(brk nil"Function start breakpoint"))(t(brk nil"Breakpoint: ~A in ~A" breakpoint frame))))))(defimplementation sldb-break-at-start (fname)(let((debug-fun (di:function-debug-function (coerce fname 'function))))(cond((not debug-fun)
`(:error ,(formatnil"~S has no debug-function" fname)))(t(flet ((hook (frame bp &optional args cookie)(declare (ignore args cookie))(signal-breakpoint bp frame)))(let((bp (di:make-breakpoint #'hook debug-fun
:kind :function-start)))(di:activate-breakpoint bp)
`(:ok ,(formatnil"Set breakpoint in ~S" fname))))))))(defunframe-cfp(frame)"Return the Control-Stack-Frame-Pointer for FRAME."(etypecase frame
(di::compiled-frame (di::frame-pointer frame))((or di::interpreted-frame null)-1)))(defunframe-ip(frame)"Return the (absolute) instruction pointer and the relative pc of FRAME."(if(not frame)-1(let((debug-fun (di::frame-debug-function frame)))(etypecase debug-fun
(di::compiled-debug-function
(let*((code-loc (di:frame-code-location frame))(component (di::compiled-debug-function-component debug-fun))(pc (di::compiled-code-location-pc code-loc))(ip (sys:without-gcing
(sys:sap-int
(sys:sap+(kernel:code-instructions component) pc)))))(values ip pc)))(di::interpreted-debug-function -1)(di::bogus-debug-function
#-x86(let*((real (di::frame-real-frame (di::frame-up frame)))(fp (di::frame-pointer real)));;#+(or)
(progn(format*debug-io*"Frame-real-frame = ~S~%" real)(format*debug-io*"fp = ~S~%" fp)(format*debug-io*"lra = ~S~%"(kernel:stack-ref fp vm::lra-save-offset)))(values(sys:int-sap
(-(kernel:get-lisp-obj-address
(kernel:stack-ref fp vm::lra-save-offset))(-(ash vm:function-code-offset vm:word-shift)
vm:function-pointer-type)))0))#+x86(let((fp (di::frame-pointer (di:frame-up frame))))(multiple-value-bind(ra ofp)(di::x86-call-context fp)(declare (ignore ofp))(values ra 0))))))))(defunframe-registers(frame)"Return the lisp registers CSP, CFP, IP, OCFP, LRA for FRAME-NUMBER."(let*((cfp (frame-cfp frame))(csp (frame-cfp (di::frame-up frame)))(ip (frame-ip frame))(ocfp (frame-cfp (di::frame-down frame)))(lra (frame-ip (di::frame-down frame))))(values csp cfp ip ocfp lra)))(defunprint-frame-registers(frame-number)(let((frame (di::frame-real-frame (nth-frame frame-number))))(flet ((fixnum (p)(etypecase p
(integer p)(sys:system-area-pointer (sys:sap-int p)))))(apply#'formatt"~
~8X Stack Pointer
~8X Frame Pointer
~8X Instruction Pointer
~8X Saved Frame Pointer
~8X Saved Instruction Pointer~%"(mapcar#'fixnum(multiple-value-list(frame-registers frame)))))))(defvar*gdb-program-name*(ext:enumerate-search-list(p "path:gdb")(when(probe-file p)(return p))))(defimplementation disassemble-frame (frame-number)(print-frame-registers frame-number)(terpri)(let*((frame (di::frame-real-frame (nth-frame frame-number)))(debug-fun (di::frame-debug-function frame)))(etypecase debug-fun
(di::compiled-debug-function
(let*((component (di::compiled-debug-function-component debug-fun))(fun (di:debug-function-function debug-fun)))(if fun
(disassemble fun)(disassem:disassemble-code-component component))))(di::bogus-debug-function
(cond((probe-file*gdb-program-name*)(let((ip (sys:sap-int (frame-ip frame))))(princ (gdb-command "disas 0x~x" ip))))(t(formatt"~%[Disassembling bogus frames not implemented]")))))))(defmacrowith-temporary-file((stream filename) &body body)
`(call/temporary-file (lambda(,stream ,filename) . ,body)))(defuncall/temporary-file (fun)(let((name (system::pick-temporary-file-name)))(unwind-protect
(with-open-file (stream name :direction :output :if-exists :supersede)(funcall fun stream name))(delete-file name))))(defungdb-command(format-string &rest args)(let((str (gdb-exec (formatnil"interpreter-exec mi2 \"attach ~d\"~%~
interpreter-exec console ~s~%detach"(getpid)(apply#'formatnilformat-string args))))(prompt (formatnil#-(and darwin x86)"~%^done~%(gdb) ~%"#+(and darwin x86)"~%^done,thread-id=\"1\"~%(gdb) ~%")))(subseq str (+(or(search prompt str)0)(length prompt)))))(defungdb-exec(cmd)(with-temporary-file (file filename)(write-string cmd file)(force-output file)(let*((output (make-string-output-stream));; gdb on sparc needs to know the executable to find the
;; symbols. Without this, gdb can't disassemble anything.
;; NOTE: We assume that the first entry in
;; lisp::*cmucl-lib* is the bin directory where lisp is
;; located. If this is not true, we'll have to do
;; something better to find the lisp executable.
(lisp-path
#+sparc(list(namestring(probe-file(merge-pathnames"lisp"(car(lisp::parse-unix-search-path
lisp::*cmucl-lib*))))))#-sparcnil)(proc (ext:run-program *gdb-program-name*
`(,@lisp-path "-batch""-x" ,filename)
:wait t
:output output)))(assert(eq(ext:process-status proc) :exited))(assert(eq(ext:process-exit-code proc)0))(get-output-stream-string output))))(defunforeign-frame-p(frame)#-x86(let((ip (frame-ip frame)))(and(sys:system-area-pointer-p ip)(typep(di::frame-debug-function frame) 'di::bogus-debug-function)))#+x86(let((ip (frame-ip frame)))(and(sys:system-area-pointer-p ip)(multiple-value-bind(pc code)(di::compute-lra-data-from-pc ip)(declare (ignore pc))(not code)))))(defunforeign-frame-source-location(frame)(let((ip (sys:sap-int (frame-ip frame))))(cond((probe-file*gdb-program-name*)(parse-gdb-line-info (gdb-command "info line *0x~x" ip)))(t `(:error"no srcloc available for ~a" frame)))));; The output of gdb looks like:
;; Line 215 of "../../src/lisp/x86-assem.S"
;; starts at address 0x805318c <Ldone+11>
;; and ends at 0x805318e <Ldone+13>.
;; The ../../ are fixed up with the "target:" search list which might
;; be wrong sometimes.
(defunparse-gdb-line-info(string)(with-input-from-string(*standard-input*string)(let((w1 (read-word)))(cond((equal w1 "Line")(let((line (read-word)))(assert(equal(read-word)"of"))(let*((file (read-from-string(read-word)))(pathname(or(probe-file file)(probe-file(formatnil"target:lisp/~a" file))
file)))(make-location (list :file (unix-truenamepathname))(list :line (parse-integer line))))))(t
`(:error ,string))))))(defunread-word(&optional (stream *standard-input*))(peek-chart stream)(concatenate 'string(loopuntil(whitespacep (peek-charnil stream))collect(read-char stream))))(defunwhitespacep(char)(memberchar '(#\space#\newline)));;;; Inspecting
(defconstant +lowtag-symbols+
'(vm:even-fixnum-type
vm:function-pointer-type
vm:other-immediate-0-type
vm:list-pointer-type
vm:odd-fixnum-type
vm:instance-pointer-type
vm:other-immediate-1-type
vm:other-pointer-type)"Names of the constants that specify type tags.
The `symbol-value' of each element is a type tag.")(defconstant +header-type-symbols+(labels ((suffixp (suffix string)(and(>=(lengthstring)(length suffix))(string=string suffix :start1 (-(lengthstring)(length suffix)))))(header-type-symbol-p (x)(and(suffixp "-TYPE"(symbol-name x))(not(member x +lowtag-symbols+))(boundp x)(typep(symbol-value x) 'fixnum))))(remove-if-not#'header-type-symbol-p(append(apropos-list"-TYPE""VM")(apropos-list"-TYPE""BIGNUM"))))"A list of names of the type codes in boxed objects.")(defimplementation describe-primitive-type (object)(with-output-to-string(*standard-output*)(let*((lowtag (kernel:get-lowtag object))(lowtag-symbol (find lowtag +lowtag-symbols+ :key #'symbol-value)))(formatt"lowtag: ~A" lowtag-symbol)(when(member lowtag (list vm:other-pointer-type
vm:function-pointer-type
vm:other-immediate-0-type
vm:other-immediate-1-type
))(let*((type (kernel:get-type object))(type-symbol (find type +header-type-symbols+
:key #'symbol-value)))(formatt", type: ~A" type-symbol))))))(defmethodemacs-inspect((o t))(cond((di::indirect-value-cell-p o)
`("Value: "(:value ,(c:value-cell-ref o))))((alien::alien-value-p o)(inspect-alien-value o))(t(cmucl-inspect o))))(defuncmucl-inspect(o)(destructuring-bind(text labeledp . parts)(inspect::describe-parts o)(list*(formatnil"~A~%" text)(if labeledp
(loopfor(label . value) in parts
append(label-value-line label value))(loopfor value in parts for i from0append(label-value-line i value))))))(defmethodemacs-inspect((o function))(let((header (kernel:get-type o)))(cond((= header vm:function-header-type)(append(label-value-line*("Self"(kernel:%function-self o))("Next"(kernel:%function-next o))("Name"(kernel:%function-name o))("Arglist"(kernel:%function-arglist o))("Type"(kernel:%function-type o))("Code"(kernel:function-code-header o)))(list(with-output-to-string(s)(disassem:disassemble-function o :stream s)))))((= header vm:closure-header-type)(list*(formatnil"~A is a closure.~%" o)(append(label-value-line "Function"(kernel:%closure-function o))
`("Environment:"(:newline))(loopfor i from0 below (1-(kernel:get-closure-length o))append(label-value-line
i (kernel:%closure-index-ref o i))))))((eval::interpreted-function-p o)(cmucl-inspect o))(t(call-next-method)))))(defmethodemacs-inspect((o kernel:funcallable-instance))(append(label-value-line*(:function (kernel:%funcallable-instance-function o))(:lexenv (kernel:%funcallable-instance-lexenv o))(:layout (kernel:%funcallable-instance-layout o)))(cmucl-inspect o)))(defmethodemacs-inspect((o kernel:code-component))(append(label-value-line*("code-size"(kernel:%code-code-size o))("entry-points"(kernel:%code-entry-points o))("debug-info"(kernel:%code-debug-info o))("trace-table-offset"(kernel:code-header-ref
o vm:code-trace-table-offset-slot)))
`("Constants:"(:newline))(loopfor i from vm:code-constants-offset
below (kernel:get-header-data o)append(label-value-line i (kernel:code-header-ref o i)))
`("Code:"(:newline)
, (with-output-to-string(*standard-output*)(cond((c::compiled-debug-info-p (kernel:%code-debug-info o))(disassem:disassemble-code-component o))((or(c::debug-info-p (kernel:%code-debug-info o))(consp(kernel:code-header-ref
o vm:code-trace-table-offset-slot)))(c:disassem-byte-component o))(t(disassem:disassemble-memory
(disassem::align
(+(logandc2(kernel:get-lisp-obj-address o)
vm:lowtag-mask)(* vm:code-constants-offset vm:word-bytes))(ash1 vm:lowtag-bits))(ash(kernel:%code-code-size o) vm:word-shift))))))))(defmethodemacs-inspect((o kernel:fdefn))(label-value-line*("name"(kernel:fdefn-name o))("function"(kernel:fdefn-function o))("raw-addr"(sys:sap-ref-32(sys:int-sap (kernel:get-lisp-obj-address o))(* vm:fdefn-raw-addr-slot vm:word-bytes)))))
#+(or)(defmethodemacs-inspect((o array))(if(typep o 'simple-array)(call-next-method)(label-value-line*(:header (describe-primitive-type o))(:rank (array-rank o))(:fill-pointer(kernel:%array-fill-pointer o))(:fill-pointer-p (kernel:%array-fill-pointer-p o))(:elements (kernel:%array-available-elements o))(:data (kernel:%array-data-vector o))(:displacement (kernel:%array-displacement o))(:displaced-p (kernel:%array-displaced-p o))(:dimensions (array-dimensions o)))))(defmethodemacs-inspect((o simple-vector))(append(label-value-line*(:header (describe-primitive-type o))(:length(c::vector-length o)))(loopfor i below (length o)append(label-value-line i (aref o i)))))(defuninspect-alien-record(alien)(with-struct (alien::alien-value- sap type) alien
(with-struct (alien::alien-record-type- kind name fields) type
(append(label-value-line*(:sap sap)(:kind kind)(:name name))(loopfor field in fields
append(let((slot (alien::alien-record-field-name field)))(declare (optimize (speed 0)))(label-value-line slot (alien:slot alien slot))))))))(defuninspect-alien-pointer(alien)(with-struct (alien::alien-value- sap type) alien
(label-value-line*(:sap sap)(:type type)(:to(alien::deref alien)))))(defuninspect-alien-value(alien)(typecase(alien::alien-value-type alien)(alien::alien-record-type (inspect-alien-record alien))(alien::alien-pointer-type (inspect-alien-pointer alien))(t(cmucl-inspect alien))))(defimplementation eval-context (obj)(cond((typep(class-of obj) 'structure-class)(let*((dd (kernel:layout-info (kernel:layout-of obj)))(slots (kernel:dd-slots dd)))(list*(cons '*package*(symbol-package(if slots
(kernel:dsd-name (car slots))(kernel:dd-name dd))))(loopfor slot in slots collect(cons(kernel:dsd-name slot)(funcall(kernel:dsd-accessor slot) obj))))))));;;; Profiling
(defimplementation profile (fname)(eval `(profile:profile ,fname)))(defimplementation unprofile (fname)(eval `(profile:unprofile ,fname)))(defimplementation unprofile-all ()(eval `(profile:unprofile))"All functions unprofiled.")(defimplementation profile-report ()(eval `(profile:report-time)))(defimplementation profile-reset ()(eval `(profile:reset-time))"Reset profiling counters.")(defimplementation profiled-functions ()
profile:*timed-functions*)(defimplementation profile-package (package callers methods)(profile:profile-all :package package
:callers-p callers
:methods methods));;;; Multiprocessing
#+mp
(progn(defimplementation initialize-multiprocessing (continuation)(mp::init-multi-processing)(mp:make-process continuation :name "swank");; Threads magic: this never returns! But top-level becomes
;; available again.
(unless mp::*idle-process*(mp::startup-idle-and-top-level-loops)))(defimplementation spawn (fn &key name)(mp:make-process fn :name (or name "Anonymous")))(defvar*thread-id-counter*0)(defimplementation thread-id (thread)(or(getf(mp:process-property-list thread) 'id)(setf(getf(mp:process-property-list thread) 'id)(incf*thread-id-counter*))))(defimplementation find-thread (id)(find id (all-threads)
:key (lambda(p)(getf(mp:process-property-list p) 'id))))(defimplementation thread-name (thread)(mp:process-name thread))(defimplementation thread-status (thread)(mp:process-whostate thread))(defimplementation current-thread ()
mp:*current-process*)(defimplementation all-threads ()(copy-list mp:*all-processes*))(defimplementation interrupt-thread (thread fn)(mp:process-interrupt thread fn))(defimplementation kill-thread (thread)(mp:destroy-process thread))(defvar*mailbox-lock*(mp:make-lock "mailbox lock"))(defstruct(mailbox (:conc-name mailbox.))(mutex (mp:make-lock "process mailbox"))(queue '() :type list))(defunmailbox(thread)"Return THREAD's mailbox."(mp:with-lock-held (*mailbox-lock*)(or(getf(mp:process-property-list thread) 'mailbox)(setf(getf(mp:process-property-list thread) 'mailbox)(make-mailbox)))))(defimplementation send (thread message)(check-slime-interrupts)(let*((mbox (mailbox thread)))(mp:with-lock-held ((mailbox.mutex mbox))(setf(mailbox.queue mbox)(nconc(mailbox.queue mbox)(list message))))))(defimplementation receive-if(test &optional timeout)(let((mbox (mailbox mp:*current-process*)))(assert(or(not timeout)(eq timeout t)))(loop(check-slime-interrupts)(mp:with-lock-held ((mailbox.mutex mbox))(let*((q (mailbox.queue mbox))(tail (member-if test q)))(when tail
(setf(mailbox.queue mbox)(nconc(ldiff q tail)(cdr tail)))(return(car tail)))))(when(eq timeout t)(return(valuesnilt)))(mp:process-wait-with-timeout
"receive-if"0.5(lambda()(some test (mailbox.queue mbox))))))));; #+mp
;;;; GC hooks
;;;
;;; Display GC messages in the echo area to avoid cluttering the
;;; normal output.
;;;
;; this should probably not be here, but where else?
(defunbackground-message(message)(swank::background-message message))(defunprint-bytes(nbytes &optional stream)"Print the number NBYTES to STREAM in KB, MB, or GB units."(let((names '((0 bytes)(10 kb)(20 mb)(30 gb)(40 tb)(50 eb))))(multiple-value-bind(power name)(loopfor((p1 n1)(p2 n2)) on names
while n2 do(when(<=(expt2 p1) nbytes (1-(expt2 p2)))(return(values p1 n1))))(cond(name
(format stream "~,1F ~A"(/ nbytes (expt2 power)) name))(t(format stream "~:D bytes" nbytes))))))(defconstant gc-generations 6)
#+gencgc
(defungeneration-stats()"Return a string describing the size distribution among the generations."(let*((alloc (loopfor i below gc-generations
collect(lisp::gencgc-stats i)))(sum(coerce(reduce#'+ alloc) 'float)))(formatnil"~{~3F~^/~}"(mapcar(lambda(size)(/ size sum))
alloc))))(defvar*gc-start-time*0)(defunpre-gc-hook(bytes-in-use)(setq*gc-start-time*(get-internal-real-time))(let((msg (formatnil"[Commencing GC with ~A in use.]"(print-bytes bytes-in-use))))(background-message msg)))(defunpost-gc-hook(bytes-retained bytes-freed trigger)(declare (ignore trigger))(let*((seconds (/(-(get-internal-real-time)*gc-start-time*)internal-time-units-per-second))(msg (formatnil"[GC done. ~A freed ~A retained ~A ~4F sec]"(print-bytes bytes-freed)(print-bytes bytes-retained)#+gencgc(generation-stats)#-gencgc""
seconds)))(background-message msg)))(defuninstall-gc-hooks()(setq ext:*gc-notify-before*#'pre-gc-hook)(setq ext:*gc-notify-after*#'post-gc-hook))(defunremove-gc-hooks()(setq ext:*gc-notify-before*#'lisp::default-gc-notify-before)(setq ext:*gc-notify-after*#'lisp::default-gc-notify-after))(defvar*install-gc-hooks*t"If non-nil install GC hooks")(defimplementation emacs-connected ()(when*install-gc-hooks*(install-gc-hooks)));;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
;;Trace implementations
;;In CMUCL, we have:
;; (trace <name>)
;; (trace (method <name> <qualifier>? (<specializer>+)))
;; (trace :methods t '<name>) ;;to trace all methods of the gf <name>
;; <name> can be a normal name or a (setf name)
(defuntracedp(spec)(member spec (eval '(trace)) :test #'equal))(defuntoggle-trace-aux(spec &rest options)(cond((tracedp spec)(eval `(untrace ,spec))(formatnil"~S is now untraced." spec))(t(eval `(trace ,spec ,@options))(formatnil"~S is now traced." spec))))(defimplementation toggle-trace(spec)(ecase(car spec)((setf)(toggle-trace-aux spec))((:defgeneric)(let((name (second spec)))(toggle-trace-aux name :methods name)))((:defmethod)(cond((fboundp `(method ,@(cdr spec)))(toggle-trace-aux `(method ,(cdr spec))));; Man, is this ugly
((fboundp `(pcl::fast-method ,@(cdr spec)))(toggle-trace-aux `(pcl::fast-method ,@(cdr spec))))(t(error 'undefined-function :name (cdr spec)))))((:call)(destructuring-bind(caller callee)(cdr spec)(toggle-trace-aux (process-fspec callee)
:wherein (list(process-fspec caller)))));; doesn't work properly
;; ((:labels :flet) (toggle-trace-aux (process-fspec spec)))
))(defunprocess-fspec(fspec)(cond((consp fspec)(ecase(first fspec)((:defun:defgeneric)(second fspec))((:defmethod)
`(method ,(second fspec) ,@(third fspec) ,(fourth fspec)))((:labels) `(labels ,(third fspec) ,(process-fspec (second fspec))))((:flet) `(flet ,(third fspec) ,(process-fspec (second fspec))))))(t
fspec)));;; Weak datastructures
(defimplementation make-weak-key-hash-table (&rest args)(apply#'make-hash-table :weak-p t args));;; Save image
(defimplementation save-image (filename &optional restart-function)(multiple-value-bind(pid error)(unix:unix-fork)(when(not pid)(error"fork: ~A"(unix:get-unix-error-msg error)))(cond((= pid 0)(apply#'ext:save-lisp
filename
(if restart-function
`(:init-function ,restart-function))))(t(let((status (waitpid pid)))(destructuring-bind(&key exited? status &allow-other-keys) status
(assert(and exited? (equal status 0))()"Invalid exit status: ~a" status)))))))(defunwaitpid(pid)(alien:with-alien ((status c-call:int))(let((code (alien:alien-funcall(alien:extern-alien
waitpid (alien:function c-call:int c-call:int
(* c-call:int) c-call:int))
pid (alien:addr status)0)))(cond((= code -1)(error"waitpid: ~A"(unix:get-unix-error-msg)))(t(assert(= code pid))(decode-wait-status status))))))(defundecode-wait-status(status)(let((output (with-output-to-string(s)(call-program (list(process-status-program)(formatnil"~d" status))
:output s))))(read-from-string output)))(defuncall-program(args &key output)(destructuring-bind(program &rest args) args
(let((process (ext:run-program program args :output output)))(when(not program)(error"fork failed"))(unless(and(eq(ext:process-status process) :exited)(=(ext:process-exit-code process)0))(error"Non-zero exit status")))))(defvar*process-status-program*nil)(defunprocess-status-program()(or*process-status-program*(setq*process-status-program*(compile-process-status-program))))(defuncompile-process-status-program()(let((infile (system::pick-temporary-file-name
"/tmp/process-status~d~c.c")))(with-open-file (stream infile :direction :output :if-exists :supersede)(format stream "
#include <stdio.h>
#include <stdlib.h>
#include <sys/types.h>
#include <sys/wait.h>
#include <assert.h>
#define FLAG(value) (value ? \"t\" : \"nil\")
int main (int argc, char** argv) {
assert (argc == 2);
{
char* endptr = NULL;
char* arg = argv[1];
long int status = strtol (arg, &endptr, 10);
assert (endptr != arg && *endptr == '\\0');
printf (\"(:exited? %s :status %d :signal? %s :signal %d :coredump? %s\"\" :stopped? %s :stopsig %d)\\n\",
FLAG(WIFEXITED(status)), WEXITSTATUS(status),
FLAG(WIFSIGNALED(status)), WTERMSIG(status),
FLAG(WCOREDUMP(status)),
FLAG(WIFSTOPPED(status)), WSTOPSIG(status));
fflush (NULL);
return 0;
}
}
")(finish-output stream))(let*((outfile (system::pick-temporary-file-name))(args (list"cc""-o" outfile infile)))(warn"Running cc: ~{~a ~}~%" args)(call-program args :output t)(delete-file infile)
outfile)));; FIXME: lisp:unicode-complete introduced in version 20d.
#+#.(swank/backend:with-symbol 'unicode-complete 'lisp)(defunmatch-semi-standard(prefix matchp);; Handle the CMUCL's short character names.
(loopfor name in lisp::char-name-alist
when(funcall matchp prefix (car name))collect(car name)))
#+#.(swank/backend:with-symbol 'unicode-complete 'lisp)(defimplementation character-completion-set(prefix matchp)(let((names (lisp::unicode-complete prefix)));; Match prefix against semistandard names. If there's a match,
;; add it to our list of matches.
(let((semi-standard (match-semi-standard prefix matchp)))(when semi-standard
(setf names (append semi-standard names))))(setf names (mapcar#'string-capitalize names))(loopfor n in names
when(funcall matchp prefix n)collect n)))