;;;; Environment query functions, DOCUMENTATION and DRIBBLE. ;;;; ;;;; FIXME: If there are exactly three things in here, it could be ;;;; exactly three files named e.g. equery.lisp, doc.lisp, and dribble.lisp. ;;;; This software is part of the SBCL system. See the README file for ;;;; more information. ;;;; ;;;; This software is derived from the CMU CL system, which was ;;;; written at Carnegie Mellon University and released into the ;;;; public domain. The software is in the public domain and is ;;;; provided with absolutely no warranty. See the COPYING and CREDITS ;;;; files for more information. (in-package "SB!IMPL") ;;;; function names and documentation ;;;; the ANSI interface to function names (and to other stuff too) ;;; Note: this function gets called by the compiler (as of 1.0.17.x, ;;; in MAYBE-INLINE-SYNTACTIC-CLOSURE), and so although ANSI says ;;; we're allowed to return NIL here freely, it seems plausible that ;;; small changes to the circumstances under which this function ;;; returns non-NIL might have subtle consequences on the compiler. ;;; So it might be desirable to have the compiler not rely on this ;;; function, eventually. (defun function-lambda-expression (fun) "Return (VALUES DEFINING-LAMBDA-EXPRESSION CLOSURE-P NAME), where DEFINING-LAMBDA-EXPRESSION is NIL if unknown, or a suitable argument to COMPILE otherwise, CLOSURE-P is non-NIL if the function's definition might have been enclosed in some non-null lexical environment, and NAME is some name (for debugging only) or NIL if there is no name." (declare (type function fun)) (etypecase fun #!+sb-eval (sb!eval:interpreted-function (let ((name (sb!eval:interpreted-function-name fun)) (lambda-list (sb!eval:interpreted-function-lambda-list fun)) (declarations (sb!eval:interpreted-function-declarations fun)) (body (sb!eval:interpreted-function-body fun))) (values `(lambda ,lambda-list ,@(when declarations `((declare ,@declarations))) ,@body) t name))) (function (let* ((fun (%simple-fun-self (%fun-fun fun))) (name (%fun-name fun)) (code (sb!di::fun-code-header fun)) (info (sb!kernel:%code-debug-info code))) (if info (let ((source (sb!c::debug-info-source info))) (cond ((and (sb!c::debug-source-form source) (eq (sb!c::debug-source-function source) fun)) (values (sb!c::debug-source-form source) nil name)) ((legal-fun-name-p name) (let ((exp (fun-name-inline-expansion name))) (values exp (not exp) name))) (t (values nil t name)))) (values nil t name)))))) ;;;; Generalizing over SIMPLE-FUN, CLOSURE, and FUNCALLABLE-INSTANCEs ;;; Underlying SIMPLE-FUN (defun %fun-fun (function) (declare (function function)) (typecase function (simple-fun function) (closure (%closure-fun function)) (funcallable-instance (%fun-fun (funcallable-instance-fun function))))) (defun %fun-lambda-list (function) (typecase function #!+sb-eval (sb!eval:interpreted-function (sb!eval:interpreted-function-debug-lambda-list function)) (t (%simple-fun-arglist (%fun-fun function))))) (defun (setf %fun-lambda-list) (new-value function) (typecase function #!+sb-eval (sb!eval:interpreted-function (setf (sb!eval:interpreted-function-debug-lambda-list function) new-value)) ;; FIXME: Eliding general funcallable-instances for now. ((or simple-fun closure) (setf (%simple-fun-arglist (%fun-fun function)) new-value))) new-value) (defun %fun-type (function) (%simple-fun-type (%fun-fun function))) ;;; a SETFable function to return the associated debug name for FUN ;;; (i.e., the third value returned from CL:FUNCTION-LAMBDA-EXPRESSION), ;;; or NIL if there's none (defun %fun-name (function) (typecase function #!+sb-eval (sb!eval:interpreted-function (sb!eval:interpreted-function-debug-name function)) (t (%simple-fun-name (%fun-fun function))))) (defun (setf %fun-name) (new-value function) (typecase function #!+sb-eval (sb!eval:interpreted-function (setf (sb!eval:interpreted-function-debug-name function) new-value)) ;; FIXME: Eliding general funcallable-instances for now. ((or simple-fun closure) (setf (%simple-fun-name (%fun-fun function)) new-value))) new-value) (defun %fun-doc (function) (typecase function #!+sb-eval (sb!eval:interpreted-function (sb!eval:interpreted-function-documentation function)) (t (%simple-fun-doc (%fun-fun function))))) (defun (setf %fun-doc) (new-value function) (declare (type (or null string) new-value)) (typecase function #!+sb-eval (sb!eval:interpreted-function (setf (sb!eval:interpreted-function-documentation function) new-value)) ((or simple-fun closure) (setf (%simple-fun-doc (%fun-fun function)) new-value))) new-value) ;;; various environment inquiries (defvar *features* '#.(sort (copy-list sb-cold:*shebang-features*) #'string<) #!+sb-doc "a list of symbols that describe features provided by the implementation") (defun machine-instance () #!+sb-doc "Return a string giving the name of the local machine." #!+win32 (sb!win32::get-computer-name) #!-win32 (sb!unix:unix-gethostname)) (defvar *machine-version*) (defun machine-version () #!+sb-doc "Return a string describing the version of the computer hardware we are running on, or NIL if we can't find any useful information." (unless (boundp '*machine-version*) (setf *machine-version* (get-machine-version))) *machine-version*) ;;; FIXME: Don't forget to set these in a sample site-init file. ;;; FIXME: Perhaps the functions could be SETFable instead of having the ;;; interface be through special variables? As far as I can tell ;;; from ANSI 11.1.2.1.1 "Constraints on the COMMON-LISP Package ;;; for Conforming Implementations" it is kosher to add a SETF function for ;;; a symbol in COMMON-LISP.. (defvar *short-site-name* nil #!+sb-doc "The value of SHORT-SITE-NAME.") (defvar *long-site-name* nil #!+sb-doc "the value of LONG-SITE-NAME") (defun short-site-name () #!+sb-doc "Return a string with the abbreviated site name, or NIL if not known." *short-site-name*) (defun long-site-name () #!+sb-doc "Return a string with the long form of the site name, or NIL if not known." *long-site-name*) ;;;; ED (defvar *ed-functions* nil "See function documentation for ED.") (defun ed (&optional x) "Starts the editor (on a file or a function if named). Functions from the list *ED-FUNCTIONS* are called in order with X as an argument until one of them returns non-NIL; these functions are responsible for signalling a FILE-ERROR to indicate failure to perform an operation on the file system." (dolist (fun *ed-functions* (error 'extension-failure :format-control "Don't know how to ~S ~A" :format-arguments (list 'ed x) :references (list '(:sbcl :variable *ed-functions*)))) (when (funcall fun x) (return t)))) ;;;; dribble stuff ;;; Each time we start dribbling to a new stream, we put it in ;;; *DRIBBLE-STREAM*, and push a list of *DRIBBLE-STREAM*, *STANDARD-INPUT*, ;;; *STANDARD-OUTPUT* and *ERROR-OUTPUT* in *PREVIOUS-DRIBBLE-STREAMS*. ;;; *STANDARD-OUTPUT* and *ERROR-OUTPUT* is changed to a broadcast stream that ;;; broadcasts to *DRIBBLE-STREAM* and to the old values of the variables. ;;; *STANDARD-INPUT* is changed to an echo stream that echos input from the old ;;; value of standard input to *DRIBBLE-STREAM*. ;;; ;;; When dribble is called with no arguments, *DRIBBLE-STREAM* is closed, ;;; and the values of *DRIBBLE-STREAM*, *STANDARD-INPUT*, and ;;; *STANDARD-OUTPUT* are popped from *PREVIOUS-DRIBBLE-STREAMS*. (defvar *previous-dribble-streams* nil) (defvar *dribble-stream* nil) (defun dribble (&optional pathname &key (if-exists :append)) #!+sb-doc "With a file name as an argument, dribble opens the file and sends a record of further I/O to that file. Without an argument, it closes the dribble file, and quits logging." (cond (pathname (let* ((new-dribble-stream (open pathname :direction :output :if-exists if-exists :if-does-not-exist :create)) (new-standard-output (make-broadcast-stream *standard-output* new-dribble-stream)) (new-error-output (make-broadcast-stream *error-output* new-dribble-stream)) (new-standard-input (make-echo-stream *standard-input* new-dribble-stream))) (push (list *dribble-stream* *standard-input* *standard-output* *error-output*) *previous-dribble-streams*) (setf *dribble-stream* new-dribble-stream) (setf *standard-input* new-standard-input) (setf *standard-output* new-standard-output) (setf *error-output* new-error-output))) ((null *dribble-stream*) (error "not currently dribbling")) (t (let ((old-streams (pop *previous-dribble-streams*))) (close *dribble-stream*) (setf *dribble-stream* (first old-streams)) (setf *standard-input* (second old-streams)) (setf *standard-output* (third old-streams)) (setf *error-output* (fourth old-streams))))) (values)) (defun %byte-blt (src src-start dst dst-start dst-end) (%byte-blt src src-start dst dst-start dst-end)) ;;;; some *LOAD-FOO* variables (defvar *load-print* nil #!+sb-doc "the default for the :PRINT argument to LOAD") (defvar *load-verbose* nil ;; Note that CMU CL's default for this was T, and ANSI says it's ;; implementation-dependent. We choose NIL on the theory that it's ;; a nicer default behavior for Unix programs. #!+sb-doc "the default for the :VERBOSE argument to LOAD")