cmucl.lisp (97185B)
1 ;;; -*- indent-tabs-mode: nil; outline-regexp: ";;;;+" -*- 2 ;;; 3 ;;; License: Public Domain 4 ;;; 5 ;;;; Introduction 6 ;;; 7 ;;; This is the CMUCL implementation of the `slynk-backend' package. 8 9 (defpackage slynk-cmucl 10 (:use cl slynk-backend slynk-source-path-parser slynk-source-file-cache 11 fwrappers)) 12 13 (in-package slynk-cmucl) 14 15 (eval-when (:compile-toplevel :load-toplevel :execute) 16 17 (let ((min-version #x20c)) 18 (assert (>= c:byte-fasl-file-version min-version) 19 () "This file requires CMUCL version ~x or newer" min-version)) 20 21 (require 'gray-streams)) 22 23 (import-slynk-mop-symbols :pcl '(:slot-definition-documentation)) 24 25 (defun slynk-mop:slot-definition-documentation (slot) 26 (documentation slot t)) 27 28 ;;; UTF8 29 30 (locally (declare (optimize (ext:inhibit-warnings 3))) 31 ;; Compile and load the utf8 format, if not already loaded. 32 (stream::find-external-format :utf-8)) 33 34 (defimplementation string-to-utf8 (string) 35 (let ((ef (load-time-value (stream::find-external-format :utf-8) t))) 36 (stream:string-to-octets string :external-format ef))) 37 38 (defimplementation utf8-to-string (octets) 39 (let ((ef (load-time-value (stream::find-external-format :utf-8) t))) 40 (stream:octets-to-string octets :external-format ef))) 41 42 43 ;;;; TCP server 44 ;;; 45 ;;; In CMUCL we support all communication styles. By default we use 46 ;;; `:SIGIO' because it is the most responsive, but it's somewhat 47 ;;; dangerous: CMUCL is not in general "signal safe", and you don't 48 ;;; know for sure what you'll be interrupting. Both `:FD-HANDLER' and 49 ;;; `:SPAWN' are reasonable alternatives. 50 51 (defimplementation preferred-communication-style () 52 :sigio) 53 54 #-(or darwin mips) 55 (defimplementation create-socket (host port &key backlog) 56 (let* ((addr (resolve-hostname host)) 57 (addr (if (not (find-symbol "SOCKET-ERROR" :ext)) 58 (ext:htonl addr) 59 addr))) 60 (ext:create-inet-listener port :stream :reuse-address t :host addr 61 :backlog (or backlog 5)))) 62 63 ;; There seems to be a bug in create-inet-listener on Mac/OSX and Irix. 64 #+(or darwin mips) 65 (defimplementation create-socket (host port &key backlog) 66 (declare (ignore host)) 67 (ext:create-inet-listener port :stream :reuse-address t)) 68 69 (defimplementation local-port (socket) 70 (nth-value 1 (ext::get-socket-host-and-port (socket-fd socket)))) 71 72 (defimplementation close-socket (socket) 73 (let ((fd (socket-fd socket))) 74 (sys:invalidate-descriptor fd) 75 (ext:close-socket fd))) 76 77 (defimplementation accept-connection (socket &key 78 external-format buffering timeout) 79 (declare (ignore timeout)) 80 (make-socket-io-stream (ext:accept-tcp-connection socket) 81 (ecase buffering 82 ((t) :full) 83 (:line :line) 84 ((nil) :none)) 85 external-format)) 86 87 ;;;;; Sockets 88 89 (defimplementation socket-fd (socket) 90 "Return the filedescriptor for the socket represented by SOCKET." 91 (etypecase socket 92 (fixnum socket) 93 (sys:fd-stream (sys:fd-stream-fd socket)))) 94 95 (defun resolve-hostname (hostname) 96 "Return the IP address of HOSTNAME as an integer (in host byte-order)." 97 (let ((hostent (ext:lookup-host-entry hostname))) 98 (car (ext:host-entry-addr-list hostent)))) 99 100 (defvar *external-format-to-coding-system* 101 '((:iso-8859-1 "iso-latin-1-unix") 102 #+unicode 103 (:utf-8 "utf-8-unix"))) 104 105 (defimplementation find-external-format (coding-system) 106 (car (rassoc-if (lambda (x) (member coding-system x :test #'equal)) 107 *external-format-to-coding-system*))) 108 109 (defun make-socket-io-stream (fd buffering external-format) 110 "Create a new input/output fd-stream for FD." 111 (cond (external-format 112 (sys:make-fd-stream fd :input t :output t 113 :element-type 'character 114 :buffering buffering 115 :external-format external-format)) 116 (t 117 (sys:make-fd-stream fd :input t :output t 118 :element-type '(unsigned-byte 8) 119 :buffering buffering)))) 120 121 (defimplementation make-fd-stream (fd external-format) 122 (make-socket-io-stream fd :full external-format)) 123 124 (defimplementation dup (fd) 125 (multiple-value-bind (clone error) (unix:unix-dup fd) 126 (unless clone (error "dup failed: ~a" (unix:get-unix-error-msg error))) 127 clone)) 128 129 (defimplementation command-line-args () 130 ext:*command-line-strings*) 131 132 (defimplementation exec-image (image-file args) 133 (multiple-value-bind (ok error) 134 (unix:unix-execve (car (command-line-args)) 135 (list* (car (command-line-args)) 136 "-core" image-file 137 "-noinit" 138 args)) 139 (error "~a" (unix:get-unix-error-msg error)) 140 ok)) 141 142 ;;;;; Signal-driven I/O 143 144 (defimplementation install-sigint-handler (function) 145 (sys:enable-interrupt :sigint (lambda (signal code scp) 146 (declare (ignore signal code scp)) 147 (funcall function)))) 148 149 (defvar *sigio-handlers* '() 150 "List of (key . function) pairs. 151 All functions are called on SIGIO, and the key is used for removing 152 specific functions.") 153 154 (defun reset-sigio-handlers () (setq *sigio-handlers* '())) 155 ;; All file handlers are invalid afer reload. 156 (pushnew 'reset-sigio-handlers ext:*after-save-initializations*) 157 158 (defun set-sigio-handler () 159 (sys:enable-interrupt :sigio (lambda (signal code scp) 160 (sigio-handler signal code scp)))) 161 162 (defun sigio-handler (signal code scp) 163 (declare (ignore signal code scp)) 164 (mapc #'funcall (mapcar #'cdr *sigio-handlers*))) 165 166 (defun fcntl (fd command arg) 167 "fcntl(2) - manipulate a file descriptor." 168 (multiple-value-bind (ok error) (unix:unix-fcntl fd command arg) 169 (cond (ok) 170 (t (error "fcntl: ~A" (unix:get-unix-error-msg error)))))) 171 172 (defimplementation add-sigio-handler (socket fn) 173 (set-sigio-handler) 174 (let ((fd (socket-fd socket))) 175 (fcntl fd unix:f-setown (unix:unix-getpid)) 176 (let ((old-flags (fcntl fd unix:f-getfl 0))) 177 (fcntl fd unix:f-setfl (logior old-flags unix:fasync))) 178 (assert (not (assoc fd *sigio-handlers*))) 179 (push (cons fd fn) *sigio-handlers*))) 180 181 (defimplementation remove-sigio-handlers (socket) 182 (let ((fd (socket-fd socket))) 183 (when (assoc fd *sigio-handlers*) 184 (setf *sigio-handlers* (remove fd *sigio-handlers* :key #'car)) 185 (let ((old-flags (fcntl fd unix:f-getfl 0))) 186 (fcntl fd unix:f-setfl (logandc2 old-flags unix:fasync))) 187 (sys:invalidate-descriptor fd)) 188 (assert (not (assoc fd *sigio-handlers*))) 189 (when (null *sigio-handlers*) 190 (sys:default-interrupt :sigio)))) 191 192 ;;;;; SERVE-EVENT 193 194 (defimplementation add-fd-handler (socket fn) 195 (let ((fd (socket-fd socket))) 196 (sys:add-fd-handler fd :input (lambda (_) _ (funcall fn))))) 197 198 (defimplementation remove-fd-handlers (socket) 199 (sys:invalidate-descriptor (socket-fd socket))) 200 201 (defimplementation wait-for-input (streams &optional timeout) 202 (assert (member timeout '(nil t))) 203 (loop 204 (let ((ready (remove-if-not #'listen streams))) 205 (when ready (return ready))) 206 (when timeout (return nil)) 207 (multiple-value-bind (in out) (make-pipe) 208 (let* ((f (constantly t)) 209 (handlers (loop for s in (cons in (mapcar #'to-fd-stream streams)) 210 collect (add-one-shot-handler s f)))) 211 (unwind-protect 212 (let ((*interrupt-queued-handler* (lambda () 213 (write-char #\! out)))) 214 (when (check-sly-interrupts) (return :interrupt)) 215 (sys:serve-event)) 216 (mapc #'sys:remove-fd-handler handlers) 217 (close in) 218 (close out)))))) 219 220 (defun to-fd-stream (stream) 221 (etypecase stream 222 (sys:fd-stream stream) 223 (synonym-stream 224 (to-fd-stream 225 (symbol-value (synonym-stream-symbol stream)))) 226 (two-way-stream 227 (to-fd-stream (two-way-stream-input-stream stream))))) 228 229 (defun add-one-shot-handler (stream function) 230 (let (handler) 231 (setq handler (sys:add-fd-handler (sys:fd-stream-fd stream) :input 232 (lambda (fd) 233 (declare (ignore fd)) 234 (sys:remove-fd-handler handler) 235 (funcall function stream)))))) 236 237 (defun make-pipe () 238 (multiple-value-bind (in out) (unix:unix-pipe) 239 (values (sys:make-fd-stream in :input t :buffering :none) 240 (sys:make-fd-stream out :output t :buffering :none)))) 241 242 243 ;;;; Stream handling 244 245 (defimplementation gray-package-name () 246 "EXT") 247 248 249 ;;;; Compilation Commands 250 251 (defvar *previous-compiler-condition* nil 252 "Used to detect duplicates.") 253 254 (defvar *previous-context* nil 255 "Previous compiler error context.") 256 257 (defvar *buffer-name* nil 258 "The name of the Emacs buffer we are compiling from. 259 NIL if we aren't compiling from a buffer.") 260 261 (defvar *buffer-start-position* nil) 262 (defvar *buffer-substring* nil) 263 264 (defimplementation call-with-compilation-hooks (function) 265 (let ((*previous-compiler-condition* nil) 266 (*previous-context* nil) 267 (*print-readably* nil)) 268 (handler-bind ((c::compiler-error #'handle-notification-condition) 269 (c::style-warning #'handle-notification-condition) 270 (c::warning #'handle-notification-condition)) 271 (funcall function)))) 272 273 (defimplementation slynk-compile-file (input-file output-file 274 load-p external-format 275 &key policy) 276 (declare (ignore policy)) 277 (clear-xref-info input-file) 278 (with-compilation-hooks () 279 (let ((*buffer-name* nil) 280 (ext:*ignore-extra-close-parentheses* nil)) 281 (multiple-value-bind (output-file warnings-p failure-p) 282 (compile-file input-file :output-file output-file 283 :external-format external-format) 284 (values output-file warnings-p 285 (or failure-p 286 (when load-p 287 ;; Cache the latest source file for definition-finding. 288 (source-cache-get input-file 289 (file-write-date input-file)) 290 (not (load output-file))))))))) 291 292 (defimplementation slynk-compile-string (string &key buffer position filename 293 line column policy) 294 (declare (ignore filename line column policy)) 295 (with-compilation-hooks () 296 (let ((*buffer-name* buffer) 297 (*buffer-start-position* position) 298 (*buffer-substring* string) 299 (source-info (list :emacs-buffer buffer 300 :emacs-buffer-offset position 301 :emacs-buffer-string string))) 302 (with-input-from-string (stream string) 303 (let ((failurep (ext:compile-from-stream stream :source-info 304 source-info))) 305 (not failurep)))))) 306 307 308 ;;;;; Trapping notes 309 ;;; 310 ;;; We intercept conditions from the compiler and resignal them as 311 ;;; `SLYNK:COMPILER-CONDITION's. 312 313 (defun handle-notification-condition (condition) 314 "Handle a condition caused by a compiler warning." 315 (unless (eq condition *previous-compiler-condition*) 316 (let ((context (c::find-error-context nil))) 317 (setq *previous-compiler-condition* condition) 318 (setq *previous-context* context) 319 (signal-compiler-condition condition context)))) 320 321 (defun signal-compiler-condition (condition context) 322 (signal 'compiler-condition 323 :original-condition condition 324 :severity (severity-for-emacs condition) 325 :message (compiler-condition-message condition) 326 :source-context (compiler-error-context context) 327 :location (if (read-error-p condition) 328 (read-error-location condition) 329 (compiler-note-location context)))) 330 331 (defun severity-for-emacs (condition) 332 "Return the severity of CONDITION." 333 (etypecase condition 334 ((satisfies read-error-p) :read-error) 335 (c::compiler-error :error) 336 (c::style-warning :note) 337 (c::warning :warning))) 338 339 (defun read-error-p (condition) 340 (eq (type-of condition) 'c::compiler-read-error)) 341 342 (defun compiler-condition-message (condition) 343 "Briefly describe a compiler error for Emacs. 344 When Emacs presents the message it already has the source popped up 345 and the source form highlighted. This makes much of the information in 346 the error-context redundant." 347 (princ-to-string condition)) 348 349 (defun compiler-error-context (error-context) 350 "Describe context information for Emacs." 351 (declare (type (or c::compiler-error-context null) error-context)) 352 (multiple-value-bind (enclosing source) 353 (if error-context 354 (values (c::compiler-error-context-enclosing-source error-context) 355 (c::compiler-error-context-source error-context))) 356 (if (or enclosing source) 357 (format nil "~@[--> ~{~<~%--> ~1:;~A ~>~}~%~]~ 358 ~@[==>~{~&~A~}~]" 359 enclosing source)))) 360 361 (defun read-error-location (condition) 362 (let* ((finfo (car (c::source-info-current-file c::*source-info*))) 363 (file (c::file-info-name finfo)) 364 (pos (c::compiler-read-error-position condition))) 365 (cond ((and (eq file :stream) *buffer-name*) 366 (make-location (list :buffer *buffer-name*) 367 (list :offset *buffer-start-position* pos))) 368 ((and (pathnamep file) (not *buffer-name*)) 369 (make-location (list :file (unix-truename file)) 370 (list :position (1+ pos)))) 371 (t (break))))) 372 373 (defun compiler-note-location (context) 374 "Derive the location of a complier message from its context. 375 Return a `location' record, or (:error REASON) on failure." 376 (if (null context) 377 (note-error-location) 378 (with-struct (c::compiler-error-context- file-name 379 original-source 380 original-source-path) context 381 (or (locate-compiler-note file-name original-source 382 (reverse original-source-path)) 383 (note-error-location))))) 384 385 (defun note-error-location () 386 "Pseudo-location for notes that can't be located." 387 (cond (*compile-file-truename* 388 (make-location (list :file (unix-truename *compile-file-truename*)) 389 (list :eof))) 390 (*buffer-name* 391 (make-location (list :buffer *buffer-name*) 392 (list :position *buffer-start-position*))) 393 (t (list :error "No error location available.")))) 394 395 (defun locate-compiler-note (file source source-path) 396 (cond ((and (eq file :stream) *buffer-name*) 397 ;; Compiling from a buffer 398 (make-location (list :buffer *buffer-name*) 399 (list :offset *buffer-start-position* 400 (source-path-string-position 401 source-path *buffer-substring*)))) 402 ((and (pathnamep file) (null *buffer-name*)) 403 ;; Compiling from a file 404 (make-location (list :file (unix-truename file)) 405 (list :position (1+ (source-path-file-position 406 source-path file))))) 407 ((and (eq file :lisp) (stringp source)) 408 ;; No location known, but we have the source form. 409 ;; XXX How is this case triggered? -luke (16/May/2004) 410 ;; This can happen if the compiler needs to expand a macro 411 ;; but the macro-expander is not yet compiled. Calling the 412 ;; (interpreted) macro-expander triggers IR1 conversion of 413 ;; the lambda expression for the expander and invokes the 414 ;; compiler recursively. 415 (make-location (list :source-form source) 416 (list :position 1))))) 417 418 (defun unix-truename (pathname) 419 (ext:unix-namestring (truename pathname))) 420 421 422 ;;;; XREF 423 ;;; 424 ;;; Cross-reference support is based on the standard CMUCL `XREF' 425 ;;; package. This package has some caveats: XREF information is 426 ;;; recorded during compilation and not preserved in fasl files, and 427 ;;; XREF recording is disabled by default. Redefining functions can 428 ;;; also cause duplicate references to accumulate, but 429 ;;; `slynk-compile-file' will automatically clear out any old records 430 ;;; from the same filename. 431 ;;; 432 ;;; To enable XREF recording, set `c:*record-xref-info*' to true. To 433 ;;; clear out the XREF database call `xref:init-xref-database'. 434 435 (defmacro defxref (name function) 436 `(defimplementation ,name (name) 437 (xref-results (,function name)))) 438 439 (defxref who-calls xref:who-calls) 440 (defxref who-references xref:who-references) 441 (defxref who-binds xref:who-binds) 442 (defxref who-sets xref:who-sets) 443 444 ;;; More types of XREF information were added since 18e: 445 ;;; 446 447 (defxref who-macroexpands xref:who-macroexpands) 448 ;; XXX 449 (defimplementation who-specializes (symbol) 450 (let* ((methods (xref::who-specializes (find-class symbol))) 451 (locations (mapcar #'method-location methods))) 452 (mapcar #'list methods locations))) 453 454 (defun xref-results (contexts) 455 (mapcar (lambda (xref) 456 (list (xref:xref-context-name xref) 457 (resolve-xref-location xref))) 458 contexts)) 459 460 (defun resolve-xref-location (xref) 461 (let ((name (xref:xref-context-name xref)) 462 (file (xref:xref-context-file xref)) 463 (source-path (xref:xref-context-source-path xref))) 464 (cond ((and file source-path) 465 (let ((position (source-path-file-position source-path file))) 466 (make-location (list :file (unix-truename file)) 467 (list :position (1+ position))))) 468 (file 469 (make-location (list :file (unix-truename file)) 470 (list :function-name (string name)))) 471 (t 472 `(:error ,(format nil "Unknown source location: ~S ~S ~S " 473 name file source-path)))))) 474 475 (defun clear-xref-info (namestring) 476 "Clear XREF notes pertaining to NAMESTRING. 477 This is a workaround for a CMUCL bug: XREF records are cumulative." 478 (when c:*record-xref-info* 479 (let ((filename (truename namestring))) 480 (dolist (db (list xref::*who-calls* 481 xref::*who-is-called* 482 xref::*who-macroexpands* 483 xref::*who-references* 484 xref::*who-binds* 485 xref::*who-sets*)) 486 (maphash (lambda (target contexts) 487 ;; XXX update during traversal? 488 (setf (gethash target db) 489 (delete filename contexts 490 :key #'xref:xref-context-file 491 :test #'equalp))) 492 db))))) 493 494 495 ;;;; Find callers and callees 496 ;;; 497 ;;; Find callers and callees by looking at the constant pool of 498 ;;; compiled code objects. We assume every fdefn object in the 499 ;;; constant pool corresponds to a call to that function. A better 500 ;;; strategy would be to use the disassembler to find actual 501 ;;; call-sites. 502 503 (labels ((make-stack () (make-array 100 :fill-pointer 0 :adjustable t)) 504 (map-cpool (code fun) 505 (declare (type kernel:code-component code) (type function fun)) 506 (loop for i from vm:code-constants-offset 507 below (kernel:get-header-data code) 508 do (funcall fun (kernel:code-header-ref code i)))) 509 510 (callees (fun) 511 (let ((callees (make-stack))) 512 (map-cpool (vm::find-code-object fun) 513 (lambda (o) 514 (when (kernel:fdefn-p o) 515 (vector-push-extend (kernel:fdefn-function o) 516 callees)))) 517 (coerce callees 'list))) 518 519 (callers (fun) 520 (declare (function fun)) 521 (let ((callers (make-stack))) 522 (ext:gc :full t) 523 ;; scan :dynamic first to avoid the need for even more gcing 524 (dolist (space '(:dynamic :read-only :static)) 525 (vm::map-allocated-objects 526 (lambda (obj header size) 527 (declare (type fixnum header) (ignore size)) 528 (when (= vm:code-header-type header) 529 (map-cpool obj 530 (lambda (c) 531 (when (and (kernel:fdefn-p c) 532 (eq (kernel:fdefn-function c) fun)) 533 (vector-push-extend obj callers)))))) 534 space) 535 (ext:gc)) 536 (coerce callers 'list))) 537 538 (entry-points (code) 539 (loop for entry = (kernel:%code-entry-points code) 540 then (kernel::%function-next entry) 541 while entry 542 collect entry)) 543 544 (guess-main-entry-point (entry-points) 545 (or (find-if (lambda (fun) 546 (ext:valid-function-name-p 547 (kernel:%function-name fun))) 548 entry-points) 549 (car entry-points))) 550 551 (fun-dspec (fun) 552 (list (kernel:%function-name fun) (function-location fun))) 553 554 (code-dspec (code) 555 (let ((eps (entry-points code)) 556 (di (kernel:%code-debug-info code))) 557 (cond (eps (fun-dspec (guess-main-entry-point eps))) 558 (di (list (c::debug-info-name di) 559 (debug-info-function-name-location di))) 560 (t (list (princ-to-string code) 561 `(:error "No src-loc available"))))))) 562 (declare (inline map-cpool)) 563 564 (defimplementation list-callers (symbol) 565 (mapcar #'code-dspec (callers (coerce symbol 'function) ))) 566 567 (defimplementation list-callees (symbol) 568 (mapcar #'fun-dspec (callees symbol)))) 569 570 (defun test-list-callers (count) 571 (let ((funsyms '())) 572 (do-all-symbols (s) 573 (when (and (fboundp s) 574 (functionp (symbol-function s)) 575 (not (macro-function s)) 576 (not (special-operator-p s))) 577 (push s funsyms))) 578 (let ((len (length funsyms))) 579 (dotimes (i count) 580 (let ((sym (nth (random len) funsyms))) 581 (format t "~s -> ~a~%" sym (mapcar #'car (list-callers sym)))))))) 582 583 ;; (test-list-callers 100) 584 585 586 ;;;; Resolving source locations 587 ;;; 588 ;;; Our mission here is to "resolve" references to code locations into 589 ;;; actual file/buffer names and character positions. The references 590 ;;; we work from come out of the compiler's statically-generated debug 591 ;;; information, such as `code-location''s and `debug-source''s. For 592 ;;; more details, see the "Debugger Programmer's Interface" section of 593 ;;; the CMUCL manual. 594 ;;; 595 ;;; The first step is usually to find the corresponding "source-path" 596 ;;; for the location. Once we have the source-path we can pull up the 597 ;;; source file and `READ' our way through to the right position. The 598 ;;; main source-code groveling work is done in 599 ;;; `slynk-source-path-parser.lisp'. 600 601 (defvar *debug-definition-finding* nil 602 "When true don't handle errors while looking for definitions. 603 This is useful when debugging the definition-finding code.") 604 605 (defmacro safe-definition-finding (&body body) 606 "Execute BODY and return the source-location it returns. 607 If an error occurs and `*debug-definition-finding*' is false, then 608 return an error pseudo-location. 609 610 The second return value is NIL if no error occurs, otherwise it is the 611 condition object." 612 `(flet ((body () ,@body)) 613 (if *debug-definition-finding* 614 (body) 615 (handler-case (values (progn ,@body) nil) 616 (error (c) (values `(:error ,(trim-whitespace (princ-to-string c))) 617 c)))))) 618 619 (defun trim-whitespace (string) 620 (string-trim #(#\newline #\space #\tab) string)) 621 622 (defun code-location-source-location (code-location) 623 "Safe wrapper around `code-location-from-source-location'." 624 (safe-definition-finding 625 (source-location-from-code-location code-location))) 626 627 (defun source-location-from-code-location (code-location) 628 "Return the source location for CODE-LOCATION." 629 (let ((debug-fun (di:code-location-debug-function code-location))) 630 (when (di::bogus-debug-function-p debug-fun) 631 ;; Those lousy cheapskates! They've put in a bogus debug source 632 ;; because the code was compiled at a low debug setting. 633 (error "Bogus debug function: ~A" debug-fun))) 634 (let* ((debug-source (di:code-location-debug-source code-location)) 635 (from (di:debug-source-from debug-source)) 636 (name (di:debug-source-name debug-source))) 637 (ecase from 638 (:file 639 (location-in-file name code-location debug-source)) 640 (:stream 641 (location-in-stream code-location debug-source)) 642 (:lisp 643 ;; The location comes from a form passed to `compile'. 644 ;; The best we can do is return the form itself for printing. 645 (make-location 646 (list :source-form (with-output-to-string (*standard-output*) 647 (debug::print-code-location-source-form 648 code-location 100 t))) 649 (list :position 1)))))) 650 651 (defun location-in-file (filename code-location debug-source) 652 "Resolve the source location for CODE-LOCATION in FILENAME." 653 (let* ((code-date (di:debug-source-created debug-source)) 654 (root-number (di:debug-source-root-number debug-source)) 655 (source-code (get-source-code filename code-date))) 656 (with-input-from-string (s source-code) 657 (make-location (list :file (unix-truename filename)) 658 (list :position (1+ (code-location-stream-position 659 code-location s root-number))) 660 `(:snippet ,(read-snippet s)))))) 661 662 (defun location-in-stream (code-location debug-source) 663 "Resolve the source location for a CODE-LOCATION from a stream. 664 This only succeeds if the code was compiled from an Emacs buffer." 665 (unless (debug-source-info-from-emacs-buffer-p debug-source) 666 (error "The code is compiled from a non-SLY stream.")) 667 (let* ((info (c::debug-source-info debug-source)) 668 (string (getf info :emacs-buffer-string)) 669 (position (code-location-string-offset 670 code-location 671 string))) 672 (make-location 673 (list :buffer (getf info :emacs-buffer)) 674 (list :offset (getf info :emacs-buffer-offset) position) 675 (list :snippet (with-input-from-string (s string) 676 (file-position s position) 677 (read-snippet s)))))) 678 679 ;;;;; Function-name locations 680 ;;; 681 (defun debug-info-function-name-location (debug-info) 682 "Return a function-name source-location for DEBUG-INFO. 683 Function-name source-locations are a fallback for when precise 684 positions aren't available." 685 (with-struct (c::debug-info- (fname name) source) debug-info 686 (with-struct (c::debug-source- info from name) (car source) 687 (ecase from 688 (:file 689 (make-location (list :file (namestring (truename name))) 690 (list :function-name (string fname)))) 691 (:stream 692 (assert (debug-source-info-from-emacs-buffer-p (car source))) 693 (make-location (list :buffer (getf info :emacs-buffer)) 694 (list :function-name (string fname)))) 695 (:lisp 696 (make-location (list :source-form (princ-to-string (aref name 0))) 697 (list :position 1))))))) 698 699 (defun debug-source-info-from-emacs-buffer-p (debug-source) 700 "Does the `info' slot of DEBUG-SOURCE contain an Emacs buffer location? 701 This is true for functions that were compiled directly from buffers." 702 (info-from-emacs-buffer-p (c::debug-source-info debug-source))) 703 704 (defun info-from-emacs-buffer-p (info) 705 (and info 706 (consp info) 707 (eq :emacs-buffer (car info)))) 708 709 710 ;;;;; Groveling source-code for positions 711 712 (defun code-location-stream-position (code-location stream root) 713 "Return the byte offset of CODE-LOCATION in STREAM. Extract the 714 toplevel-form-number and form-number from CODE-LOCATION and use that 715 to find the position of the corresponding form. 716 717 Finish with STREAM positioned at the start of the code location." 718 (let* ((location (debug::maybe-block-start-location code-location)) 719 (tlf-offset (- (di:code-location-top-level-form-offset location) 720 root)) 721 (form-number (di:code-location-form-number location))) 722 (let ((pos (form-number-stream-position tlf-offset form-number stream))) 723 (file-position stream pos) 724 pos))) 725 726 (defun form-number-stream-position (tlf-number form-number stream) 727 "Return the starting character position of a form in STREAM. 728 TLF-NUMBER is the top-level-form number. 729 FORM-NUMBER is an index into a source-path table for the TLF." 730 (multiple-value-bind (tlf position-map) (read-source-form tlf-number stream) 731 (let* ((path-table (di:form-number-translations tlf 0)) 732 (source-path 733 (if (<= (length path-table) form-number) ; source out of sync? 734 (list 0) ; should probably signal a condition 735 (reverse (cdr (aref path-table form-number)))))) 736 (source-path-source-position source-path tlf position-map)))) 737 738 (defun code-location-string-offset (code-location string) 739 "Return the byte offset of CODE-LOCATION in STRING. 740 See CODE-LOCATION-STREAM-POSITION." 741 (with-input-from-string (s string) 742 (code-location-stream-position code-location s 0))) 743 744 745 ;;;; Finding definitions 746 747 ;;; There are a great many different types of definition for us to 748 ;;; find. We search for definitions of every kind and return them in a 749 ;;; list. 750 751 (defimplementation find-definitions (name) 752 (append (function-definitions name) 753 (setf-definitions name) 754 (variable-definitions name) 755 (class-definitions name) 756 (type-definitions name) 757 (compiler-macro-definitions name) 758 (source-transform-definitions name) 759 (function-info-definitions name) 760 (ir1-translator-definitions name) 761 (template-definitions name) 762 (primitive-definitions name) 763 (vm-support-routine-definitions name) 764 )) 765 766 ;;;;; Functions, macros, generic functions, methods 767 ;;; 768 ;;; We make extensive use of the compile-time debug information that 769 ;;; CMUCL records, in particular "debug functions" and "code 770 ;;; locations." Refer to the "Debugger Programmer's Interface" section 771 ;;; of the CMUCL manual for more details. 772 773 (defun function-definitions (name) 774 "Return definitions for NAME in the \"function namespace\", i.e., 775 regular functions, generic functions, methods and macros. 776 NAME can any valid function name (e.g, (setf car))." 777 (let ((macro? (and (symbolp name) (macro-function name))) 778 (function? (and (ext:valid-function-name-p name) 779 (ext:info :function :definition name) 780 (if (symbolp name) (fboundp name) t)))) 781 (cond (macro? 782 (list `((defmacro ,name) 783 ,(function-location (macro-function name))))) 784 (function? 785 (let ((function (fdefinition name))) 786 (if (genericp function) 787 (gf-definitions name function) 788 (list (list `(function ,name) 789 (function-location function))))))))) 790 791 ;;;;;; Ordinary (non-generic/macro/special) functions 792 ;;; 793 ;;; First we test if FUNCTION is a closure created by defstruct, and 794 ;;; if so extract the defstruct-description (`dd') from the closure 795 ;;; and find the constructor for the struct. Defstruct creates a 796 ;;; defun for the default constructor and we use that as an 797 ;;; approximation to the source location of the defstruct. 798 ;;; 799 ;;; For an ordinary function we return the source location of the 800 ;;; first code-location we find. 801 ;;; 802 (defun function-location (function) 803 "Return the source location for FUNCTION." 804 (cond ((struct-closure-p function) 805 (struct-closure-location function)) 806 ((c::byte-function-or-closure-p function) 807 (byte-function-location function)) 808 (t 809 (compiled-function-location function)))) 810 811 (defun compiled-function-location (function) 812 "Return the location of a regular compiled function." 813 (multiple-value-bind (code-location error) 814 (safe-definition-finding (function-first-code-location function)) 815 (cond (error (list :error (princ-to-string error))) 816 (t (code-location-source-location code-location))))) 817 818 (defun function-first-code-location (function) 819 "Return the first code-location we can find for FUNCTION." 820 (and (function-has-debug-function-p function) 821 (di:debug-function-start-location 822 (di:function-debug-function function)))) 823 824 (defun function-has-debug-function-p (function) 825 (di:function-debug-function function)) 826 827 (defun function-code-object= (closure function) 828 (and (eq (vm::find-code-object closure) 829 (vm::find-code-object function)) 830 (not (eq closure function)))) 831 832 (defun byte-function-location (fun) 833 "Return the location of the byte-compiled function FUN." 834 (etypecase fun 835 ((or c::hairy-byte-function c::simple-byte-function) 836 (let* ((di (kernel:%code-debug-info (c::byte-function-component fun)))) 837 (if di 838 (debug-info-function-name-location di) 839 `(:error 840 ,(format nil "Byte-function without debug-info: ~a" fun))))) 841 (c::byte-closure 842 (byte-function-location (c::byte-closure-function fun))))) 843 844 ;;; Here we deal with structure accessors. Note that `dd' is a 845 ;;; "defstruct descriptor" structure in CMUCL. A `dd' describes a 846 ;;; `defstruct''d structure. 847 848 (defun struct-closure-p (function) 849 "Is FUNCTION a closure created by defstruct?" 850 (or (function-code-object= function #'kernel::structure-slot-accessor) 851 (function-code-object= function #'kernel::structure-slot-setter) 852 (function-code-object= function #'kernel::%defstruct))) 853 854 (defun struct-closure-location (function) 855 "Return the location of the structure that FUNCTION belongs to." 856 (assert (struct-closure-p function)) 857 (safe-definition-finding 858 (dd-location (struct-closure-dd function)))) 859 860 (defun struct-closure-dd (function) 861 "Return the defstruct-definition (dd) of FUNCTION." 862 (assert (= (kernel:get-type function) vm:closure-header-type)) 863 (flet ((find-layout (function) 864 (sys:find-if-in-closure 865 (lambda (x) 866 (let ((value (if (di::indirect-value-cell-p x) 867 (c:value-cell-ref x) 868 x))) 869 (when (kernel::layout-p value) 870 (return-from find-layout value)))) 871 function))) 872 (kernel:layout-info (find-layout function)))) 873 874 (defun dd-location (dd) 875 "Return the location of a `defstruct'." 876 (let ((ctor (struct-constructor dd))) 877 (cond (ctor 878 (function-location (coerce ctor 'function))) 879 (t 880 (let ((name (kernel:dd-name dd))) 881 (multiple-value-bind (location foundp) 882 (ext:info :source-location :defvar name) 883 (cond (foundp 884 (resolve-source-location location)) 885 (t 886 (error "No location for defstruct: ~S" name))))))))) 887 888 (defun struct-constructor (dd) 889 "Return the name of the constructor from a defstruct definition." 890 (let* ((constructor (or (kernel:dd-default-constructor dd) 891 (car (kernel::dd-constructors dd))))) 892 (if (consp constructor) (car constructor) constructor))) 893 894 ;;;;;; Generic functions and methods 895 896 (defun gf-definitions (name function) 897 "Return the definitions of a generic function and its methods." 898 (cons (list `(defgeneric ,name) (gf-location function)) 899 (gf-method-definitions function))) 900 901 (defun gf-location (gf) 902 "Return the location of the generic function GF." 903 (definition-source-location gf (pcl::generic-function-name gf))) 904 905 (defun gf-method-definitions (gf) 906 "Return the locations of all methods of the generic function GF." 907 (mapcar #'method-definition (pcl::generic-function-methods gf))) 908 909 (defun method-definition (method) 910 (list (method-dspec method) 911 (method-location method))) 912 913 (defun method-dspec (method) 914 "Return a human-readable \"definition specifier\" for METHOD." 915 (let* ((gf (pcl:method-generic-function method)) 916 (name (pcl:generic-function-name gf)) 917 (specializers (pcl:method-specializers method)) 918 (qualifiers (pcl:method-qualifiers method))) 919 `(method ,name ,@qualifiers ,(pcl::unparse-specializers specializers)))) 920 921 (defun method-location (method) 922 (typecase method 923 (pcl::standard-accessor-method 924 (definition-source-location 925 (cond ((pcl::definition-source method) 926 method) 927 (t 928 (pcl::slot-definition-class 929 (pcl::accessor-method-slot-definition method)))) 930 (pcl::accessor-method-slot-name method))) 931 (t 932 (function-location (or (pcl::method-fast-function method) 933 (pcl:method-function method)))))) 934 935 (defun genericp (fn) 936 (typep fn 'generic-function)) 937 938 ;;;;;; Types and classes 939 940 (defun type-definitions (name) 941 "Return `deftype' locations for type NAME." 942 (maybe-make-definition (ext:info :type :expander name) 'deftype name)) 943 944 (defun maybe-make-definition (function kind name) 945 "If FUNCTION is non-nil then return its definition location." 946 (if function 947 (list (list `(,kind ,name) (function-location function))))) 948 949 (defun class-definitions (name) 950 "Return the definition locations for the class called NAME." 951 (if (symbolp name) 952 (let ((class (kernel::find-class name nil))) 953 (etypecase class 954 (null '()) 955 (kernel::structure-class 956 (list (list `(defstruct ,name) (dd-location (find-dd name))))) 957 #+(or) 958 (conditions::condition-class 959 (list (list `(define-condition ,name) 960 (condition-class-location class)))) 961 (kernel::standard-class 962 (list (list `(defclass ,name) 963 (pcl-class-location (find-class name))))) 964 ((or kernel::built-in-class 965 conditions::condition-class 966 kernel:funcallable-structure-class) 967 (list (list `(class ,name) (class-location class)))))))) 968 969 (defun pcl-class-location (class) 970 "Return the `defclass' location for CLASS." 971 (definition-source-location class (pcl:class-name class))) 972 973 ;; FIXME: eval used for backward compatibility. 974 (defun class-location (class) 975 (declare (type kernel::class class)) 976 (let ((name (kernel:%class-name class))) 977 (multiple-value-bind (loc found?) 978 (let ((x (ignore-errors 979 (multiple-value-list 980 (eval `(ext:info :source-location :class ',name)))))) 981 (values-list x)) 982 (cond (found? (resolve-source-location loc)) 983 (`(:error 984 ,(format nil "No location recorded for class: ~S" name))))))) 985 986 (defun find-dd (name) 987 "Find the defstruct-definition by the name of its structure-class." 988 (let ((layout (ext:info :type :compiler-layout name))) 989 (if layout 990 (kernel:layout-info layout)))) 991 992 (defun condition-class-location (class) 993 (let ((slots (conditions::condition-class-slots class)) 994 (name (conditions::condition-class-name class))) 995 (cond ((null slots) 996 `(:error ,(format nil "No location info for condition: ~A" name))) 997 (t 998 ;; Find the class via one of its slot-reader methods. 999 (let* ((slot (first slots)) 1000 (gf (fdefinition 1001 (first (conditions::condition-slot-readers slot))))) 1002 (method-location 1003 (first 1004 (pcl:compute-applicable-methods-using-classes 1005 gf (list (find-class name)))))))))) 1006 1007 (defun make-name-in-file-location (file string) 1008 (multiple-value-bind (filename c) 1009 (ignore-errors 1010 (unix-truename (merge-pathnames (make-pathname :type "lisp") 1011 file))) 1012 (cond (filename (make-location `(:file ,filename) 1013 `(:function-name ,(string string)))) 1014 (t (list :error (princ-to-string c)))))) 1015 1016 (defun source-location-form-numbers (location) 1017 (c::decode-form-numbers (c::form-numbers-form-numbers location))) 1018 1019 (defun source-location-tlf-number (location) 1020 (nth-value 0 (source-location-form-numbers location))) 1021 1022 (defun source-location-form-number (location) 1023 (nth-value 1 (source-location-form-numbers location))) 1024 1025 (defun resolve-file-source-location (location) 1026 (let ((filename (c::file-source-location-pathname location)) 1027 (tlf-number (source-location-tlf-number location)) 1028 (form-number (source-location-form-number location))) 1029 (with-open-file (s filename) 1030 (let ((pos (form-number-stream-position tlf-number form-number s))) 1031 (make-location `(:file ,(unix-truename filename)) 1032 `(:position ,(1+ pos))))))) 1033 1034 (defun resolve-stream-source-location (location) 1035 (let ((info (c::stream-source-location-user-info location)) 1036 (tlf-number (source-location-tlf-number location)) 1037 (form-number (source-location-form-number location))) 1038 ;; XXX duplication in frame-source-location 1039 (assert (info-from-emacs-buffer-p info)) 1040 (destructuring-bind (&key emacs-buffer emacs-buffer-string 1041 emacs-buffer-offset) info 1042 (with-input-from-string (s emacs-buffer-string) 1043 (let ((pos (form-number-stream-position tlf-number form-number s))) 1044 (make-location `(:buffer ,emacs-buffer) 1045 `(:offset ,emacs-buffer-offset ,pos))))))) 1046 1047 ;; XXX predicates for 18e backward compatibilty. Remove them when 1048 ;; we're 19a only. 1049 (defun file-source-location-p (object) 1050 (when (fboundp 'c::file-source-location-p) 1051 (c::file-source-location-p object))) 1052 1053 (defun stream-source-location-p (object) 1054 (when (fboundp 'c::stream-source-location-p) 1055 (c::stream-source-location-p object))) 1056 1057 (defun source-location-p (object) 1058 (or (file-source-location-p object) 1059 (stream-source-location-p object))) 1060 1061 (defun resolve-source-location (location) 1062 (etypecase location 1063 ((satisfies file-source-location-p) 1064 (resolve-file-source-location location)) 1065 ((satisfies stream-source-location-p) 1066 (resolve-stream-source-location location)))) 1067 1068 (defun definition-source-location (object name) 1069 (let ((source (pcl::definition-source object))) 1070 (etypecase source 1071 (null 1072 `(:error ,(format nil "No source info for: ~A" object))) 1073 ((satisfies source-location-p) 1074 (resolve-source-location source)) 1075 (pathname 1076 (make-name-in-file-location source name)) 1077 (cons 1078 (destructuring-bind ((dg name) pathname) source 1079 (declare (ignore dg)) 1080 (etypecase pathname 1081 (pathname (make-name-in-file-location pathname (string name))) 1082 (null `(:error ,(format nil "Cannot resolve: ~S" source))))))))) 1083 1084 (defun setf-definitions (name) 1085 (let ((f (or (ext:info :setf :inverse name) 1086 (ext:info :setf :expander name) 1087 (and (symbolp name) 1088 (fboundp `(setf ,name)) 1089 (fdefinition `(setf ,name)))))) 1090 (if f 1091 `(((setf ,name) ,(function-location (cond ((functionp f) f) 1092 ((macro-function f)) 1093 ((fdefinition f))))))))) 1094 1095 (defun variable-location (symbol) 1096 (multiple-value-bind (location foundp) 1097 ;; XXX for 18e compatibilty. rewrite this when we drop 18e 1098 ;; support. 1099 (ignore-errors (eval `(ext:info :source-location :defvar ',symbol))) 1100 (if (and foundp location) 1101 (resolve-source-location location) 1102 `(:error ,(format nil "No source info for variable ~S" symbol))))) 1103 1104 (defun variable-definitions (name) 1105 (if (symbolp name) 1106 (multiple-value-bind (kind recorded-p) (ext:info :variable :kind name) 1107 (if recorded-p 1108 (list (list `(variable ,kind ,name) 1109 (variable-location name))))))) 1110 1111 (defun compiler-macro-definitions (symbol) 1112 (maybe-make-definition (compiler-macro-function symbol) 1113 'define-compiler-macro 1114 symbol)) 1115 1116 (defun source-transform-definitions (name) 1117 (maybe-make-definition (ext:info :function :source-transform name) 1118 'c:def-source-transform 1119 name)) 1120 1121 (defun function-info-definitions (name) 1122 (let ((info (ext:info :function :info name))) 1123 (if info 1124 (append (loop for transform in (c::function-info-transforms info) 1125 collect (list `(c:deftransform ,name 1126 ,(c::type-specifier 1127 (c::transform-type transform))) 1128 (function-location (c::transform-function 1129 transform)))) 1130 (maybe-make-definition (c::function-info-derive-type info) 1131 'c::derive-type name) 1132 (maybe-make-definition (c::function-info-optimizer info) 1133 'c::optimizer name) 1134 (maybe-make-definition (c::function-info-ltn-annotate info) 1135 'c::ltn-annotate name) 1136 (maybe-make-definition (c::function-info-ir2-convert info) 1137 'c::ir2-convert name) 1138 (loop for template in (c::function-info-templates info) 1139 collect (list `(,(type-of template) 1140 ,(c::template-name template)) 1141 (function-location 1142 (c::vop-info-generator-function 1143 template)))))))) 1144 1145 (defun ir1-translator-definitions (name) 1146 (maybe-make-definition (ext:info :function :ir1-convert name) 1147 'c:def-ir1-translator name)) 1148 1149 (defun template-definitions (name) 1150 (let* ((templates (c::backend-template-names c::*backend*)) 1151 (template (gethash name templates))) 1152 (etypecase template 1153 (null) 1154 (c::vop-info 1155 (maybe-make-definition (c::vop-info-generator-function template) 1156 (type-of template) name))))) 1157 1158 ;; for cases like: (%primitive NAME ...) 1159 (defun primitive-definitions (name) 1160 (let ((csym (find-symbol (string name) 'c))) 1161 (and csym 1162 (not (eq csym name)) 1163 (template-definitions csym)))) 1164 1165 (defun vm-support-routine-definitions (name) 1166 (let ((sr (c::backend-support-routines c::*backend*)) 1167 (name (find-symbol (string name) 'c))) 1168 (and name 1169 (slot-exists-p sr name) 1170 (maybe-make-definition (slot-value sr name) 1171 (find-symbol (string 'vm-support-routine) 'c) 1172 name)))) 1173 1174 1175 ;;;; Documentation. 1176 1177 (defimplementation describe-symbol-for-emacs (symbol) 1178 (let ((result '())) 1179 (flet ((doc (kind) 1180 (or (documentation symbol kind) :not-documented)) 1181 (maybe-push (property value) 1182 (when value 1183 (setf result (list* property value result))))) 1184 (maybe-push 1185 :variable (multiple-value-bind (kind recorded-p) 1186 (ext:info variable kind symbol) 1187 (declare (ignore kind)) 1188 (if (or (boundp symbol) recorded-p) 1189 (doc 'variable)))) 1190 (when (fboundp symbol) 1191 (maybe-push 1192 (cond ((macro-function symbol) :macro) 1193 ((special-operator-p symbol) :special-operator) 1194 ((genericp (fdefinition symbol)) :generic-function) 1195 (t :function)) 1196 (doc 'function))) 1197 (maybe-push 1198 :setf (if (or (ext:info setf inverse symbol) 1199 (ext:info setf expander symbol)) 1200 (doc 'setf))) 1201 (maybe-push 1202 :type (if (ext:info type kind symbol) 1203 (doc 'type))) 1204 (maybe-push 1205 :class (if (find-class symbol nil) 1206 (doc 'class))) 1207 (maybe-push 1208 :alien-type (if (not (eq (ext:info alien-type kind symbol) :unknown)) 1209 (doc 'alien-type))) 1210 (maybe-push 1211 :alien-struct (if (ext:info alien-type struct symbol) 1212 (doc nil))) 1213 (maybe-push 1214 :alien-union (if (ext:info alien-type union symbol) 1215 (doc nil))) 1216 (maybe-push 1217 :alien-enum (if (ext:info alien-type enum symbol) 1218 (doc nil))) 1219 result))) 1220 1221 (defimplementation describe-definition (symbol namespace) 1222 (describe (ecase namespace 1223 (:variable 1224 symbol) 1225 ((:function :generic-function) 1226 (symbol-function symbol)) 1227 (:setf 1228 (or (ext:info setf inverse symbol) 1229 (ext:info setf expander symbol))) 1230 (:type 1231 (kernel:values-specifier-type symbol)) 1232 (:class 1233 (find-class symbol)) 1234 (:alien-struct 1235 (ext:info :alien-type :struct symbol)) 1236 (:alien-union 1237 (ext:info :alien-type :union symbol)) 1238 (:alien-enum 1239 (ext:info :alien-type :enum symbol)) 1240 (:alien-type 1241 (ecase (ext:info :alien-type :kind symbol) 1242 (:primitive 1243 (let ((alien::*values-type-okay* t)) 1244 (funcall (ext:info :alien-type :translator symbol) 1245 (list symbol)))) 1246 ((:defined) 1247 (ext:info :alien-type :definition symbol)) 1248 (:unknown :unkown)))))) 1249 1250 ;;;;; Argument lists 1251 1252 (defimplementation arglist (fun) 1253 (etypecase fun 1254 (function (function-arglist fun)) 1255 (symbol (function-arglist (or (macro-function fun) 1256 (symbol-function fun)))))) 1257 1258 (defun function-arglist (fun) 1259 (let ((arglist 1260 (cond ((eval:interpreted-function-p fun) 1261 (eval:interpreted-function-arglist fun)) 1262 ((pcl::generic-function-p fun) 1263 (pcl:generic-function-lambda-list fun)) 1264 ((c::byte-function-or-closure-p fun) 1265 (byte-code-function-arglist fun)) 1266 ((kernel:%function-arglist (kernel:%function-self fun)) 1267 (handler-case (read-arglist fun) 1268 (error () :not-available))) 1269 ;; this should work both for compiled-debug-function 1270 ;; and for interpreted-debug-function 1271 (t 1272 (handler-case (debug-function-arglist 1273 (di::function-debug-function fun)) 1274 (di:unhandled-condition () :not-available)))))) 1275 (check-type arglist (or list (member :not-available))) 1276 arglist)) 1277 1278 (defimplementation function-name (function) 1279 (cond ((eval:interpreted-function-p function) 1280 (eval:interpreted-function-name function)) 1281 ((pcl::generic-function-p function) 1282 (pcl::generic-function-name function)) 1283 ((c::byte-function-or-closure-p function) 1284 (c::byte-function-name function)) 1285 (t (kernel:%function-name (kernel:%function-self function))))) 1286 1287 ;;; A simple case: the arglist is available as a string that we can 1288 ;;; `read'. 1289 1290 (defun read-arglist (fn) 1291 "Parse the arglist-string of the function object FN." 1292 (let ((string (kernel:%function-arglist 1293 (kernel:%function-self fn))) 1294 (package (find-package 1295 (c::compiled-debug-info-package 1296 (kernel:%code-debug-info 1297 (vm::find-code-object fn)))))) 1298 (with-standard-io-syntax 1299 (let ((*package* (or package *package*))) 1300 (read-from-string string))))) 1301 1302 ;;; A harder case: an approximate arglist is derived from available 1303 ;;; debugging information. 1304 1305 (defun debug-function-arglist (debug-function) 1306 "Derive the argument list of DEBUG-FUNCTION from debug info." 1307 (let ((args (di::debug-function-lambda-list debug-function)) 1308 (required '()) 1309 (optional '()) 1310 (rest '()) 1311 (key '())) 1312 ;; collect the names of debug-vars 1313 (dolist (arg args) 1314 (etypecase arg 1315 (di::debug-variable 1316 (push (di::debug-variable-symbol arg) required)) 1317 ((member :deleted) 1318 (push ':deleted required)) 1319 (cons 1320 (ecase (car arg) 1321 (:keyword 1322 (push (second arg) key)) 1323 (:optional 1324 (push (debug-variable-symbol-or-deleted (second arg)) optional)) 1325 (:rest 1326 (push (debug-variable-symbol-or-deleted (second arg)) rest)))))) 1327 ;; intersperse lambda keywords as needed 1328 (append (nreverse required) 1329 (if optional (cons '&optional (nreverse optional))) 1330 (if rest (cons '&rest (nreverse rest))) 1331 (if key (cons '&key (nreverse key)))))) 1332 1333 (defun debug-variable-symbol-or-deleted (var) 1334 (etypecase var 1335 (di:debug-variable 1336 (di::debug-variable-symbol var)) 1337 ((member :deleted) 1338 '#:deleted))) 1339 1340 (defun symbol-debug-function-arglist (fname) 1341 "Return FNAME's debug-function-arglist and %function-arglist. 1342 A utility for debugging DEBUG-FUNCTION-ARGLIST." 1343 (let ((fn (fdefinition fname))) 1344 (values (debug-function-arglist (di::function-debug-function fn)) 1345 (kernel:%function-arglist (kernel:%function-self fn))))) 1346 1347 ;;; Deriving arglists for byte-compiled functions: 1348 ;;; 1349 (defun byte-code-function-arglist (fn) 1350 ;; There doesn't seem to be much arglist information around for 1351 ;; byte-code functions. Use the arg-count and return something like 1352 ;; (arg0 arg1 ...) 1353 (etypecase fn 1354 (c::simple-byte-function 1355 (loop for i from 0 below (c::simple-byte-function-num-args fn) 1356 collect (make-arg-symbol i))) 1357 (c::hairy-byte-function 1358 (hairy-byte-function-arglist fn)) 1359 (c::byte-closure 1360 (byte-code-function-arglist (c::byte-closure-function fn))))) 1361 1362 (defun make-arg-symbol (i) 1363 (make-symbol (format nil "~A~D" (string 'arg) i))) 1364 1365 ;;; A "hairy" byte-function is one that takes a variable number of 1366 ;;; arguments. `hairy-byte-function' is a type from the bytecode 1367 ;;; interpreter. 1368 ;;; 1369 (defun hairy-byte-function-arglist (fn) 1370 (let ((counter -1)) 1371 (flet ((next-arg () (make-arg-symbol (incf counter)))) 1372 (with-struct (c::hairy-byte-function- min-args max-args rest-arg-p 1373 keywords-p keywords) fn 1374 (let ((arglist '()) 1375 (optional (- max-args min-args))) 1376 ;; XXX isn't there a better way to write this? 1377 ;; (Looks fine to me. -luke) 1378 (dotimes (i min-args) 1379 (push (next-arg) arglist)) 1380 (when (plusp optional) 1381 (push '&optional arglist) 1382 (dotimes (i optional) 1383 (push (next-arg) arglist))) 1384 (when rest-arg-p 1385 (push '&rest arglist) 1386 (push (next-arg) arglist)) 1387 (when keywords-p 1388 (push '&key arglist) 1389 (loop for (key _ __) in keywords 1390 do (push key arglist)) 1391 (when (eq keywords-p :allow-others) 1392 (push '&allow-other-keys arglist))) 1393 (nreverse arglist)))))) 1394 1395 1396 ;;;; Miscellaneous. 1397 1398 (defimplementation macroexpand-all (form &optional env) 1399 (walker:macroexpand-all form env)) 1400 1401 (defimplementation compiler-macroexpand-1 (form &optional env) 1402 (ext:compiler-macroexpand-1 form env)) 1403 1404 (defimplementation compiler-macroexpand (form &optional env) 1405 (ext:compiler-macroexpand form env)) 1406 1407 (defimplementation set-default-directory (directory) 1408 (setf (ext:default-directory) (namestring directory)) 1409 ;; Setting *default-pathname-defaults* to an absolute directory 1410 ;; makes the behavior of MERGE-PATHNAMES a bit more intuitive. 1411 (setf *default-pathname-defaults* (pathname (ext:default-directory))) 1412 (default-directory)) 1413 1414 (defimplementation default-directory () 1415 (namestring (ext:default-directory))) 1416 1417 (defimplementation getpid () 1418 (unix:unix-getpid)) 1419 1420 (defimplementation lisp-implementation-type-name () 1421 "cmucl") 1422 1423 (defimplementation quit-lisp () 1424 (ext::quit)) 1425 1426 ;;; source-path-{stream,file,string,etc}-position moved into 1427 ;;; slynk-source-path-parser 1428 1429 1430 ;;;; Debugging 1431 1432 (defvar *sly-db-stack-top*) 1433 1434 (defimplementation call-with-debugging-environment (debugger-loop-fn) 1435 (unix:unix-sigsetmask 0) 1436 (let* ((*sly-db-stack-top* (or debug:*stack-top-hint* (di:top-frame))) 1437 (debug:*stack-top-hint* nil) 1438 (kernel:*current-level* 0)) 1439 (handler-bind ((di::unhandled-condition 1440 (lambda (condition) 1441 (error 'sly-db-condition 1442 :original-condition condition)))) 1443 (unwind-protect 1444 (progn 1445 #+(or)(sys:scrub-control-stack) 1446 (funcall debugger-loop-fn)) 1447 #+(or)(sys:scrub-control-stack) 1448 )))) 1449 1450 (defun frame-down (frame) 1451 (handler-case (di:frame-down frame) 1452 (di:no-debug-info () nil))) 1453 1454 (defun nth-frame (index) 1455 (do ((frame *sly-db-stack-top* (frame-down frame)) 1456 (i index (1- i))) 1457 ((zerop i) frame))) 1458 1459 (defimplementation compute-backtrace (start end) 1460 (let ((end (or end most-positive-fixnum))) 1461 (loop for f = (nth-frame start) then (frame-down f) 1462 for i from start below end 1463 while f collect f))) 1464 1465 (defimplementation print-frame (frame stream) 1466 (let ((*standard-output* stream)) 1467 (handler-case 1468 (debug::print-frame-call frame :verbosity 1 :number nil) 1469 (error (e) 1470 (ignore-errors (princ e stream)))))) 1471 1472 (defimplementation frame-source-location (index) 1473 (let ((frame (nth-frame index))) 1474 (cond ((foreign-frame-p frame) (foreign-frame-source-location frame)) 1475 ((code-location-source-location (di:frame-code-location frame)))))) 1476 1477 (defimplementation eval-in-frame (form index) 1478 (di:eval-in-frame (nth-frame index) form)) 1479 1480 (defun frame-debug-vars (frame) 1481 "Return a vector of debug-variables in frame." 1482 (let ((loc (di:frame-code-location frame))) 1483 (remove-if 1484 (lambda (v) 1485 (not (eq (di:debug-variable-validity v loc) :valid))) 1486 (di::debug-function-debug-variables (di:frame-debug-function frame))))) 1487 1488 (defun debug-var-value (var frame) 1489 (let* ((loc (di:frame-code-location frame)) 1490 (validity (di:debug-variable-validity var loc))) 1491 (ecase validity 1492 (:valid (di:debug-variable-value var frame)) 1493 ((:invalid :unknown) (make-symbol (string validity)))))) 1494 1495 (defimplementation frame-locals (index) 1496 (let ((frame (nth-frame index))) 1497 (loop for v across (frame-debug-vars frame) 1498 collect (list :name (di:debug-variable-symbol v) 1499 :id (di:debug-variable-id v) 1500 :value (debug-var-value v frame))))) 1501 1502 (defimplementation frame-var-value (frame var) 1503 (let* ((frame (nth-frame frame)) 1504 (dvar (aref (frame-debug-vars frame) var))) 1505 (debug-var-value dvar frame))) 1506 1507 (defimplementation frame-catch-tags (index) 1508 (mapcar #'car (di:frame-catches (nth-frame index)))) 1509 1510 (defimplementation frame-package (frame-number) 1511 (let* ((frame (nth-frame frame-number)) 1512 (dbg-fun (di:frame-debug-function frame))) 1513 (typecase dbg-fun 1514 (di::compiled-debug-function 1515 (let* ((comp (di::compiled-debug-function-component dbg-fun)) 1516 (dbg-info (kernel:%code-debug-info comp))) 1517 (typecase dbg-info 1518 (c::compiled-debug-info 1519 (find-package (c::compiled-debug-info-package dbg-info))))))))) 1520 1521 (defimplementation return-from-frame (index form) 1522 (let ((sym (find-symbol (string 'find-debug-tag-for-frame) 1523 :debug-internals))) 1524 (if sym 1525 (let* ((frame (nth-frame index)) 1526 (probe (funcall sym frame))) 1527 (cond (probe (throw (car probe) (eval-in-frame form index))) 1528 (t (format nil "Cannot return from frame: ~S" frame)))) 1529 "return-from-frame is not implemented in this version of CMUCL."))) 1530 1531 (defimplementation activate-stepping (frame) 1532 (set-step-breakpoints (nth-frame frame))) 1533 1534 (defimplementation sly-db-break-on-return (frame) 1535 (break-on-return (nth-frame frame))) 1536 1537 ;;; We set the breakpoint in the caller which might be a bit confusing. 1538 ;;; 1539 (defun break-on-return (frame) 1540 (let* ((caller (di:frame-down frame)) 1541 (cl (di:frame-code-location caller))) 1542 (flet ((hook (frame bp) 1543 (when (frame-pointer= frame caller) 1544 (di:delete-breakpoint bp) 1545 (signal-breakpoint bp frame)))) 1546 (let* ((info (ecase (di:code-location-kind cl) 1547 ((:single-value-return :unknown-return) nil) 1548 (:known-return (debug-function-returns 1549 (di:frame-debug-function frame))))) 1550 (bp (di:make-breakpoint #'hook cl :kind :code-location 1551 :info info))) 1552 (di:activate-breakpoint bp) 1553 `(:ok ,(format nil "Set breakpoint in ~A" caller)))))) 1554 1555 (defun frame-pointer= (frame1 frame2) 1556 "Return true if the frame pointers of FRAME1 and FRAME2 are the same." 1557 (sys:sap= (di::frame-pointer frame1) (di::frame-pointer frame2))) 1558 1559 ;;; The PC in escaped frames at a single-return-value point is 1560 ;;; actually vm:single-value-return-byte-offset bytes after the 1561 ;;; position given in the debug info. Here we try to recognize such 1562 ;;; cases. 1563 ;;; 1564 (defun next-code-locations (frame code-location) 1565 "Like `debug::next-code-locations' but be careful in escaped frames." 1566 (let ((next (debug::next-code-locations code-location))) 1567 (flet ((adjust-pc () 1568 (let ((cl (di::copy-compiled-code-location code-location))) 1569 (incf (di::compiled-code-location-pc cl) 1570 vm:single-value-return-byte-offset) 1571 cl))) 1572 (cond ((and (di::compiled-frame-escaped frame) 1573 (eq (di:code-location-kind code-location) 1574 :single-value-return) 1575 (= (length next) 1) 1576 (di:code-location= (car next) (adjust-pc))) 1577 (debug::next-code-locations (car next))) 1578 (t 1579 next))))) 1580 1581 (defun set-step-breakpoints (frame) 1582 (let ((cl (di:frame-code-location frame))) 1583 (when (di:debug-block-elsewhere-p (di:code-location-debug-block cl)) 1584 (error "Cannot step in elsewhere code")) 1585 (let* ((debug::*bad-code-location-types* 1586 (remove :call-site debug::*bad-code-location-types*)) 1587 (next (next-code-locations frame cl))) 1588 (cond (next 1589 (let ((steppoints '())) 1590 (flet ((hook (bp-frame bp) 1591 (signal-breakpoint bp bp-frame) 1592 (mapc #'di:delete-breakpoint steppoints))) 1593 (dolist (code-location next) 1594 (let ((bp (di:make-breakpoint #'hook code-location 1595 :kind :code-location))) 1596 (di:activate-breakpoint bp) 1597 (push bp steppoints)))))) 1598 (t 1599 (break-on-return frame)))))) 1600 1601 1602 ;; XXX the return values at return breakpoints should be passed to the 1603 ;; user hooks. debug-int.lisp should be changed to do this cleanly. 1604 1605 ;;; The sigcontext and the PC for a breakpoint invocation are not 1606 ;;; passed to user hook functions, but we need them to extract return 1607 ;;; values. So we advice di::handle-breakpoint and bind the values to 1608 ;;; special variables. 1609 ;;; 1610 (defvar *breakpoint-sigcontext*) 1611 (defvar *breakpoint-pc*) 1612 1613 (define-fwrapper bind-breakpoint-sigcontext (offset c sigcontext) 1614 (let ((*breakpoint-sigcontext* sigcontext) 1615 (*breakpoint-pc* offset)) 1616 (call-next-function))) 1617 (set-fwrappers 'di::handle-breakpoint '()) 1618 (fwrap 'di::handle-breakpoint #'bind-breakpoint-sigcontext) 1619 1620 (defun sigcontext-object (sc index) 1621 "Extract the lisp object in sigcontext SC at offset INDEX." 1622 (kernel:make-lisp-obj (vm:sigcontext-register sc index))) 1623 1624 (defun known-return-point-values (sigcontext sc-offsets) 1625 (let ((fp (system:int-sap (vm:sigcontext-register sigcontext 1626 vm::cfp-offset)))) 1627 (system:without-gcing 1628 (loop for sc-offset across sc-offsets 1629 collect (di::sub-access-debug-var-slot fp sc-offset sigcontext))))) 1630 1631 ;;; CMUCL returns the first few values in registers and the rest on 1632 ;;; the stack. In the multiple value case, the number of values is 1633 ;;; stored in a dedicated register. The values of the registers can be 1634 ;;; accessed in the sigcontext for the breakpoint. There are 3 kinds 1635 ;;; of return conventions: :single-value-return, :unknown-return, and 1636 ;;; :known-return. 1637 ;;; 1638 ;;; The :single-value-return convention returns the value in a 1639 ;;; register without setting the nargs registers. 1640 ;;; 1641 ;;; The :unknown-return variant is used for multiple values. A 1642 ;;; :unknown-return point consists actually of 2 breakpoints: one for 1643 ;;; the single value case and one for the general case. The single 1644 ;;; value breakpoint comes vm:single-value-return-byte-offset after 1645 ;;; the multiple value breakpoint. 1646 ;;; 1647 ;;; The :known-return convention is used by local functions. 1648 ;;; :known-return is currently not supported because we don't know 1649 ;;; where the values are passed. 1650 ;;; 1651 (defun breakpoint-values (breakpoint) 1652 "Return the list of return values for a return point." 1653 (flet ((1st (sc) (sigcontext-object sc (car vm::register-arg-offsets)))) 1654 (let ((sc (locally (declare (optimize (speed 0))) 1655 (alien:sap-alien *breakpoint-sigcontext* (* unix:sigcontext)))) 1656 (cl (di:breakpoint-what breakpoint))) 1657 (ecase (di:code-location-kind cl) 1658 (:single-value-return 1659 (list (1st sc))) 1660 (:known-return 1661 (let ((info (di:breakpoint-info breakpoint))) 1662 (if (vectorp info) 1663 (known-return-point-values sc info) 1664 (progn 1665 ;;(break) 1666 (list "<<known-return convention not supported>>" info))))) 1667 (:unknown-return 1668 (let ((mv-return-pc (di::compiled-code-location-pc cl))) 1669 (if (= mv-return-pc *breakpoint-pc*) 1670 (mv-function-end-breakpoint-values sc) 1671 (list (1st sc))))))))) 1672 1673 ;; XXX: di::get-function-end-breakpoint-values takes 2 arguments in 1674 ;; newer versions of CMUCL (after ~March 2005). 1675 (defun mv-function-end-breakpoint-values (sigcontext) 1676 (let ((sym (find-symbol "FUNCTION-END-BREAKPOINT-VALUES/STANDARD" :di))) 1677 (cond (sym (funcall sym sigcontext)) 1678 (t (funcall 'di::get-function-end-breakpoint-values sigcontext))))) 1679 1680 (defun debug-function-returns (debug-fun) 1681 "Return the return style of DEBUG-FUN." 1682 (let* ((cdfun (di::compiled-debug-function-compiler-debug-fun debug-fun))) 1683 (c::compiled-debug-function-returns cdfun))) 1684 1685 (define-condition breakpoint (simple-condition) 1686 ((message :initarg :message :reader breakpoint.message) 1687 (values :initarg :values :reader breakpoint.values)) 1688 (:report (lambda (c stream) (princ (breakpoint.message c) stream)))) 1689 1690 (defimplementation condition-extras (condition) 1691 (typecase condition 1692 (breakpoint 1693 ;; pop up the source buffer 1694 `((:show-frame-source 0))) 1695 (t '()))) 1696 1697 (defun signal-breakpoint (breakpoint frame) 1698 "Signal a breakpoint condition for BREAKPOINT in FRAME. 1699 Try to create a informative message." 1700 (flet ((brk (values fstring &rest args) 1701 (let ((msg (apply #'format nil fstring args)) 1702 (debug:*stack-top-hint* frame)) 1703 (break 'breakpoint :message msg :values values)))) 1704 (with-struct (di::breakpoint- kind what) breakpoint 1705 (case kind 1706 (:code-location 1707 (case (di:code-location-kind what) 1708 ((:single-value-return :known-return :unknown-return) 1709 (let ((values (breakpoint-values breakpoint))) 1710 (brk values "Return value: ~{~S ~}" values))) 1711 (t 1712 #+(or) 1713 (when (eq (di:code-location-kind what) :call-site) 1714 (call-site-function breakpoint frame)) 1715 (brk nil "Breakpoint: ~S ~S" 1716 (di:code-location-kind what) 1717 (di::compiled-code-location-pc what))))) 1718 (:function-start 1719 (brk nil "Function start breakpoint")) 1720 (t (brk nil "Breakpoint: ~A in ~A" breakpoint frame)))))) 1721 1722 (defimplementation sly-db-break-at-start (fname) 1723 (let ((debug-fun (di:function-debug-function (coerce fname 'function)))) 1724 (cond ((not debug-fun) 1725 `(:error ,(format nil "~S has no debug-function" fname))) 1726 (t 1727 (flet ((hook (frame bp &optional args cookie) 1728 (declare (ignore args cookie)) 1729 (signal-breakpoint bp frame))) 1730 (let ((bp (di:make-breakpoint #'hook debug-fun 1731 :kind :function-start))) 1732 (di:activate-breakpoint bp) 1733 `(:ok ,(format nil "Set breakpoint in ~S" fname)))))))) 1734 1735 (defun frame-cfp (frame) 1736 "Return the Control-Stack-Frame-Pointer for FRAME." 1737 (etypecase frame 1738 (di::compiled-frame (di::frame-pointer frame)) 1739 ((or di::interpreted-frame null) -1))) 1740 1741 (defun frame-ip (frame) 1742 "Return the (absolute) instruction pointer and the relative pc of FRAME." 1743 (if (not frame) 1744 -1 1745 (let ((debug-fun (di::frame-debug-function frame))) 1746 (etypecase debug-fun 1747 (di::compiled-debug-function 1748 (let* ((code-loc (di:frame-code-location frame)) 1749 (component (di::compiled-debug-function-component debug-fun)) 1750 (pc (di::compiled-code-location-pc code-loc)) 1751 (ip (sys:without-gcing 1752 (sys:sap-int 1753 (sys:sap+ (kernel:code-instructions component) pc))))) 1754 (values ip pc))) 1755 (di::interpreted-debug-function -1) 1756 (di::bogus-debug-function 1757 #-x86 1758 (let* ((real (di::frame-real-frame (di::frame-up frame))) 1759 (fp (di::frame-pointer real))) 1760 ;;#+(or) 1761 (progn 1762 (format *debug-io* "Frame-real-frame = ~S~%" real) 1763 (format *debug-io* "fp = ~S~%" fp) 1764 (format *debug-io* "lra = ~S~%" 1765 (kernel:stack-ref fp vm::lra-save-offset))) 1766 (values 1767 (sys:int-sap 1768 (- (kernel:get-lisp-obj-address 1769 (kernel:stack-ref fp vm::lra-save-offset)) 1770 (- (ash vm:function-code-offset vm:word-shift) 1771 vm:function-pointer-type))) 1772 0)) 1773 #+x86 1774 (let ((fp (di::frame-pointer (di:frame-up frame)))) 1775 (multiple-value-bind (ra ofp) (di::x86-call-context fp) 1776 (declare (ignore ofp)) 1777 (values ra 0)))))))) 1778 1779 (defun frame-registers (frame) 1780 "Return the lisp registers CSP, CFP, IP, OCFP, LRA for FRAME-NUMBER." 1781 (let* ((cfp (frame-cfp frame)) 1782 (csp (frame-cfp (di::frame-up frame))) 1783 (ip (frame-ip frame)) 1784 (ocfp (frame-cfp (di::frame-down frame))) 1785 (lra (frame-ip (di::frame-down frame)))) 1786 (values csp cfp ip ocfp lra))) 1787 1788 (defun print-frame-registers (frame-number) 1789 (let ((frame (di::frame-real-frame (nth-frame frame-number)))) 1790 (flet ((fixnum (p) (etypecase p 1791 (integer p) 1792 (sys:system-area-pointer (sys:sap-int p))))) 1793 (apply #'format t "~ 1794 ~8X Stack Pointer 1795 ~8X Frame Pointer 1796 ~8X Instruction Pointer 1797 ~8X Saved Frame Pointer 1798 ~8X Saved Instruction Pointer~%" (mapcar #'fixnum 1799 (multiple-value-list (frame-registers frame))))))) 1800 1801 (defvar *gdb-program-name* 1802 (ext:enumerate-search-list (p "path:gdb") 1803 (when (probe-file p) 1804 (return p)))) 1805 1806 (defimplementation disassemble-frame (frame-number) 1807 (print-frame-registers frame-number) 1808 (terpri) 1809 (let* ((frame (di::frame-real-frame (nth-frame frame-number))) 1810 (debug-fun (di::frame-debug-function frame))) 1811 (etypecase debug-fun 1812 (di::compiled-debug-function 1813 (let* ((component (di::compiled-debug-function-component debug-fun)) 1814 (fun (di:debug-function-function debug-fun))) 1815 (if fun 1816 (disassemble fun) 1817 (disassem:disassemble-code-component component)))) 1818 (di::bogus-debug-function 1819 (cond ((probe-file *gdb-program-name*) 1820 (let ((ip (sys:sap-int (frame-ip frame)))) 1821 (princ (gdb-command "disas 0x~x" ip)))) 1822 (t 1823 (format t "~%[Disassembling bogus frames not implemented]"))))))) 1824 1825 (defmacro with-temporary-file ((stream filename) &body body) 1826 `(call/temporary-file (lambda (,stream ,filename) . ,body))) 1827 1828 (defun call/temporary-file (fun) 1829 (let ((name (system::pick-temporary-file-name))) 1830 (unwind-protect 1831 (with-open-file (stream name :direction :output :if-exists :supersede) 1832 (funcall fun stream name)) 1833 (delete-file name)))) 1834 1835 (defun gdb-command (format-string &rest args) 1836 (let ((str (gdb-exec (format nil 1837 "interpreter-exec mi2 \"attach ~d\"~%~ 1838 interpreter-exec console ~s~%detach" 1839 (getpid) 1840 (apply #'format nil format-string args)))) 1841 (prompt (format nil 1842 #-(and darwin x86) "~%^done~%(gdb) ~%" 1843 #+(and darwin x86) 1844 "~%^done,thread-id=\"1\"~%(gdb) ~%"))) 1845 (subseq str (+ (or (search prompt str) 0) (length prompt))))) 1846 1847 (defun gdb-exec (cmd) 1848 (with-temporary-file (file filename) 1849 (write-string cmd file) 1850 (force-output file) 1851 (let* ((output (make-string-output-stream)) 1852 ;; gdb on sparc needs to know the executable to find the 1853 ;; symbols. Without this, gdb can't disassemble anything. 1854 ;; NOTE: We assume that the first entry in 1855 ;; lisp::*cmucl-lib* is the bin directory where lisp is 1856 ;; located. If this is not true, we'll have to do 1857 ;; something better to find the lisp executable. 1858 (lisp-path 1859 #+sparc 1860 (list 1861 (namestring 1862 (probe-file 1863 (merge-pathnames "lisp" (car (lisp::parse-unix-search-path 1864 lisp::*cmucl-lib*)))))) 1865 #-sparc 1866 nil) 1867 (proc (ext:run-program *gdb-program-name* 1868 `(,@lisp-path "-batch" "-x" ,filename) 1869 :wait t 1870 :output output))) 1871 (assert (eq (ext:process-status proc) :exited)) 1872 (assert (eq (ext:process-exit-code proc) 0)) 1873 (get-output-stream-string output)))) 1874 1875 (defun foreign-frame-p (frame) 1876 #-x86 1877 (let ((ip (frame-ip frame))) 1878 (and (sys:system-area-pointer-p ip) 1879 (typep (di::frame-debug-function frame) 'di::bogus-debug-function))) 1880 #+x86 1881 (let ((ip (frame-ip frame))) 1882 (and (sys:system-area-pointer-p ip) 1883 (multiple-value-bind (pc code) 1884 (di::compute-lra-data-from-pc ip) 1885 (declare (ignore pc)) 1886 (not code))))) 1887 1888 (defun foreign-frame-source-location (frame) 1889 (let ((ip (sys:sap-int (frame-ip frame)))) 1890 (cond ((probe-file *gdb-program-name*) 1891 (parse-gdb-line-info (gdb-command "info line *0x~x" ip))) 1892 (t `(:error "no srcloc available for ~a" frame))))) 1893 1894 ;; The output of gdb looks like: 1895 ;; Line 215 of "../../src/lisp/x86-assem.S" 1896 ;; starts at address 0x805318c <Ldone+11> 1897 ;; and ends at 0x805318e <Ldone+13>. 1898 ;; The ../../ are fixed up with the "target:" search list which might 1899 ;; be wrong sometimes. 1900 (defun parse-gdb-line-info (string) 1901 (with-input-from-string (*standard-input* string) 1902 (let ((w1 (read-word))) 1903 (cond ((equal w1 "Line") 1904 (let ((line (read-word))) 1905 (assert (equal (read-word) "of")) 1906 (let* ((file (read-from-string (read-word))) 1907 (pathname 1908 (or (probe-file file) 1909 (probe-file (format nil "target:lisp/~a" file)) 1910 file))) 1911 (make-location (list :file (unix-truename pathname)) 1912 (list :line (parse-integer line)))))) 1913 (t 1914 `(:error ,string)))))) 1915 1916 (defun read-word (&optional (stream *standard-input*)) 1917 (peek-char t stream) 1918 (concatenate 'string (loop until (whitespacep (peek-char nil stream)) 1919 collect (read-char stream)))) 1920 1921 (defun whitespacep (char) 1922 (member char '(#\space #\newline))) 1923 1924 1925 ;;;; Inspecting 1926 1927 (defconstant +lowtag-symbols+ 1928 '(vm:even-fixnum-type 1929 vm:function-pointer-type 1930 vm:other-immediate-0-type 1931 vm:list-pointer-type 1932 vm:odd-fixnum-type 1933 vm:instance-pointer-type 1934 vm:other-immediate-1-type 1935 vm:other-pointer-type) 1936 "Names of the constants that specify type tags. 1937 The `symbol-value' of each element is a type tag.") 1938 1939 (defconstant +header-type-symbols+ 1940 (labels ((suffixp (suffix string) 1941 (and (>= (length string) (length suffix)) 1942 (string= string suffix :start1 (- (length string) 1943 (length suffix))))) 1944 (header-type-symbol-p (x) 1945 (and (suffixp "-TYPE" (symbol-name x)) 1946 (not (member x +lowtag-symbols+)) 1947 (boundp x) 1948 (typep (symbol-value x) 'fixnum)))) 1949 (remove-if-not #'header-type-symbol-p 1950 (append (apropos-list "-TYPE" "VM") 1951 (apropos-list "-TYPE" "BIGNUM")))) 1952 "A list of names of the type codes in boxed objects.") 1953 1954 (defimplementation describe-primitive-type (object) 1955 (with-output-to-string (*standard-output*) 1956 (let* ((lowtag (kernel:get-lowtag object)) 1957 (lowtag-symbol (find lowtag +lowtag-symbols+ :key #'symbol-value))) 1958 (format t "lowtag: ~A" lowtag-symbol) 1959 (when (member lowtag (list vm:other-pointer-type 1960 vm:function-pointer-type 1961 vm:other-immediate-0-type 1962 vm:other-immediate-1-type 1963 )) 1964 (let* ((type (kernel:get-type object)) 1965 (type-symbol (find type +header-type-symbols+ 1966 :key #'symbol-value))) 1967 (format t ", type: ~A" type-symbol)))))) 1968 1969 (defmethod emacs-inspect ((o t)) 1970 (cond ((di::indirect-value-cell-p o) 1971 `("Value: " (:value ,(c:value-cell-ref o)))) 1972 ((alien::alien-value-p o) 1973 (inspect-alien-value o)) 1974 (t 1975 (cmucl-inspect o)))) 1976 1977 (defun cmucl-inspect (o) 1978 (destructuring-bind (text labeledp . parts) (inspect::describe-parts o) 1979 (list* (format nil "~A~%" text) 1980 (if labeledp 1981 (loop for (label . value) in parts 1982 append (label-value-line label value)) 1983 (loop for value in parts for i from 0 1984 append (label-value-line i value)))))) 1985 1986 (defmethod emacs-inspect ((o function)) 1987 (let ((header (kernel:get-type o))) 1988 (cond ((= header vm:function-header-type) 1989 (append (label-value-line* 1990 ("Self" (kernel:%function-self o)) 1991 ("Next" (kernel:%function-next o)) 1992 ("Name" (kernel:%function-name o)) 1993 ("Arglist" (kernel:%function-arglist o)) 1994 ("Type" (kernel:%function-type o)) 1995 ("Code" (kernel:function-code-header o))) 1996 (list 1997 (with-output-to-string (s) 1998 (disassem:disassemble-function o :stream s))))) 1999 ((= header vm:closure-header-type) 2000 (list* (format nil "~A is a closure.~%" o) 2001 (append 2002 (label-value-line "Function" (kernel:%closure-function o)) 2003 `("Environment:" (:newline)) 2004 (loop for i from 0 below (1- (kernel:get-closure-length o)) 2005 append (label-value-line 2006 i (kernel:%closure-index-ref o i)))))) 2007 ((eval::interpreted-function-p o) 2008 (cmucl-inspect o)) 2009 (t 2010 (call-next-method))))) 2011 2012 (defmethod emacs-inspect ((o kernel:funcallable-instance)) 2013 (append (label-value-line* 2014 (:function (kernel:%funcallable-instance-function o)) 2015 (:lexenv (kernel:%funcallable-instance-lexenv o)) 2016 (:layout (kernel:%funcallable-instance-layout o))) 2017 (cmucl-inspect o))) 2018 2019 (defmethod emacs-inspect ((o kernel:code-component)) 2020 (append 2021 (label-value-line* 2022 ("code-size" (kernel:%code-code-size o)) 2023 ("entry-points" (kernel:%code-entry-points o)) 2024 ("debug-info" (kernel:%code-debug-info o)) 2025 ("trace-table-offset" (kernel:code-header-ref 2026 o vm:code-trace-table-offset-slot))) 2027 `("Constants:" (:newline)) 2028 (loop for i from vm:code-constants-offset 2029 below (kernel:get-header-data o) 2030 append (label-value-line i (kernel:code-header-ref o i))) 2031 `("Code:" 2032 (:newline) 2033 , (with-output-to-string (*standard-output*) 2034 (cond ((c::compiled-debug-info-p (kernel:%code-debug-info o)) 2035 (disassem:disassemble-code-component o)) 2036 ((or 2037 (c::debug-info-p (kernel:%code-debug-info o)) 2038 (consp (kernel:code-header-ref 2039 o vm:code-trace-table-offset-slot))) 2040 (c:disassem-byte-component o)) 2041 (t 2042 (disassem:disassemble-memory 2043 (disassem::align 2044 (+ (logandc2 (kernel:get-lisp-obj-address o) 2045 vm:lowtag-mask) 2046 (* vm:code-constants-offset vm:word-bytes)) 2047 (ash 1 vm:lowtag-bits)) 2048 (ash (kernel:%code-code-size o) vm:word-shift)))))))) 2049 2050 (defmethod emacs-inspect ((o kernel:fdefn)) 2051 (label-value-line* 2052 ("name" (kernel:fdefn-name o)) 2053 ("function" (kernel:fdefn-function o)) 2054 ("raw-addr" (sys:sap-ref-32 2055 (sys:int-sap (kernel:get-lisp-obj-address o)) 2056 (* vm:fdefn-raw-addr-slot vm:word-bytes))))) 2057 2058 #+(or) 2059 (defmethod emacs-inspect ((o array)) 2060 (if (typep o 'simple-array) 2061 (call-next-method) 2062 (label-value-line* 2063 (:header (describe-primitive-type o)) 2064 (:rank (array-rank o)) 2065 (:fill-pointer (kernel:%array-fill-pointer o)) 2066 (:fill-pointer-p (kernel:%array-fill-pointer-p o)) 2067 (:elements (kernel:%array-available-elements o)) 2068 (:data (kernel:%array-data-vector o)) 2069 (:displacement (kernel:%array-displacement o)) 2070 (:displaced-p (kernel:%array-displaced-p o)) 2071 (:dimensions (array-dimensions o))))) 2072 2073 (defmethod emacs-inspect ((o simple-vector)) 2074 (append 2075 (label-value-line* 2076 (:header (describe-primitive-type o)) 2077 (:length (c::vector-length o))) 2078 (loop for i below (length o) 2079 append (label-value-line i (aref o i))))) 2080 2081 (defun inspect-alien-record (alien) 2082 (with-struct (alien::alien-value- sap type) alien 2083 (with-struct (alien::alien-record-type- kind name fields) type 2084 (append 2085 (label-value-line* 2086 (:sap sap) 2087 (:kind kind) 2088 (:name name)) 2089 (loop for field in fields 2090 append (let ((slot (alien::alien-record-field-name field))) 2091 (declare (optimize (speed 0))) 2092 (label-value-line slot (alien:slot alien slot)))))))) 2093 2094 (defun inspect-alien-pointer (alien) 2095 (with-struct (alien::alien-value- sap type) alien 2096 (label-value-line* 2097 (:sap sap) 2098 (:type type) 2099 (:to (alien::deref alien))))) 2100 2101 (defun inspect-alien-value (alien) 2102 (typecase (alien::alien-value-type alien) 2103 (alien::alien-record-type (inspect-alien-record alien)) 2104 (alien::alien-pointer-type (inspect-alien-pointer alien)) 2105 (t (cmucl-inspect alien)))) 2106 2107 (defimplementation eval-context (obj) 2108 (cond ((typep (class-of obj) 'structure-class) 2109 (let* ((dd (kernel:layout-info (kernel:layout-of obj))) 2110 (slots (kernel:dd-slots dd))) 2111 (list* (cons '*package* 2112 (symbol-package (if slots 2113 (kernel:dsd-name (car slots)) 2114 (kernel:dd-name dd)))) 2115 (loop for slot in slots collect 2116 (cons (kernel:dsd-name slot) 2117 (funcall (kernel:dsd-accessor slot) obj)))))))) 2118 2119 2120 ;;;; Profiling 2121 (defimplementation profile (fname) 2122 (eval `(profile:profile ,fname))) 2123 2124 (defimplementation unprofile (fname) 2125 (eval `(profile:unprofile ,fname))) 2126 2127 (defimplementation unprofile-all () 2128 (eval `(profile:unprofile)) 2129 "All functions unprofiled.") 2130 2131 (defimplementation profile-report () 2132 (eval `(profile:report-time))) 2133 2134 (defimplementation profile-reset () 2135 (eval `(profile:reset-time)) 2136 "Reset profiling counters.") 2137 2138 (defimplementation profiled-functions () 2139 profile:*timed-functions*) 2140 2141 (defimplementation profile-package (package callers methods) 2142 (profile:profile-all :package package 2143 :callers-p callers 2144 :methods methods)) 2145 2146 2147 ;;;; Multiprocessing 2148 2149 #+mp 2150 (progn 2151 (defimplementation initialize-multiprocessing (continuation) 2152 (mp::init-multi-processing) 2153 (mp:make-process continuation :name "slynk") 2154 ;; Threads magic: this never returns! But top-level becomes 2155 ;; available again. 2156 (unless mp::*idle-process* 2157 (mp::startup-idle-and-top-level-loops))) 2158 2159 (defimplementation spawn (fn &key name) 2160 (mp:make-process fn :name (or name "Anonymous"))) 2161 2162 (defvar *thread-id-counter* 0) 2163 2164 (defimplementation thread-id (thread) 2165 (or (getf (mp:process-property-list thread) 'id) 2166 (setf (getf (mp:process-property-list thread) 'id) 2167 (incf *thread-id-counter*)))) 2168 2169 (defimplementation find-thread (id) 2170 (find id (all-threads) 2171 :key (lambda (p) (getf (mp:process-property-list p) 'id)))) 2172 2173 (defimplementation thread-name (thread) 2174 (mp:process-name thread)) 2175 2176 (defimplementation thread-status (thread) 2177 (mp:process-whostate thread)) 2178 2179 (defimplementation current-thread () 2180 mp:*current-process*) 2181 2182 (defimplementation all-threads () 2183 (copy-list mp:*all-processes*)) 2184 2185 (defimplementation interrupt-thread (thread fn) 2186 (mp:process-interrupt thread fn)) 2187 2188 (defimplementation kill-thread (thread) 2189 (mp:destroy-process thread)) 2190 2191 (defvar *mailbox-lock* (mp:make-lock "mailbox lock")) 2192 2193 (defstruct (mailbox (:conc-name mailbox.)) 2194 (mutex (mp:make-lock "process mailbox")) 2195 (queue '() :type list)) 2196 2197 (defun mailbox (thread) 2198 "Return THREAD's mailbox." 2199 (mp:with-lock-held (*mailbox-lock*) 2200 (or (getf (mp:process-property-list thread) 'mailbox) 2201 (setf (getf (mp:process-property-list thread) 'mailbox) 2202 (make-mailbox))))) 2203 2204 (defimplementation send (thread message) 2205 (check-sly-interrupts) 2206 (let* ((mbox (mailbox thread))) 2207 (mp:with-lock-held ((mailbox.mutex mbox)) 2208 (setf (mailbox.queue mbox) 2209 (nconc (mailbox.queue mbox) (list message)))))) 2210 2211 (defimplementation receive-if (test &optional timeout) 2212 (let ((mbox (mailbox mp:*current-process*))) 2213 (assert (or (not timeout) (eq timeout t))) 2214 (loop 2215 (check-sly-interrupts) 2216 (mp:with-lock-held ((mailbox.mutex mbox)) 2217 (let* ((q (mailbox.queue mbox)) 2218 (tail (member-if test q))) 2219 (when tail 2220 (setf (mailbox.queue mbox) 2221 (nconc (ldiff q tail) (cdr tail))) 2222 (return (car tail))))) 2223 (when (eq timeout t) (return (values nil t))) 2224 (mp:process-wait-with-timeout 2225 "receive-if" 0.5 2226 (lambda () (some test (mailbox.queue mbox))))))) 2227 2228 2229 ) ;; #+mp 2230 2231 2232 2233 ;;;; GC hooks 2234 ;;; 2235 ;;; Display GC messages in the echo area to avoid cluttering the 2236 ;;; normal output. 2237 ;;; 2238 2239 ;; this should probably not be here, but where else? 2240 (defun background-message (message) 2241 (funcall (find-symbol (string :background-message) :slynk) 2242 message)) 2243 2244 (defun print-bytes (nbytes &optional stream) 2245 "Print the number NBYTES to STREAM in KB, MB, or GB units." 2246 (let ((names '((0 bytes) (10 kb) (20 mb) (30 gb) (40 tb) (50 eb)))) 2247 (multiple-value-bind (power name) 2248 (loop for ((p1 n1) (p2 n2)) on names 2249 while n2 do 2250 (when (<= (expt 2 p1) nbytes (1- (expt 2 p2))) 2251 (return (values p1 n1)))) 2252 (cond (name 2253 (format stream "~,1F ~A" (/ nbytes (expt 2 power)) name)) 2254 (t 2255 (format stream "~:D bytes" nbytes)))))) 2256 2257 (defconstant gc-generations 6) 2258 2259 #+gencgc 2260 (defun generation-stats () 2261 "Return a string describing the size distribution among the generations." 2262 (let* ((alloc (loop for i below gc-generations 2263 collect (lisp::gencgc-stats i))) 2264 (sum (coerce (reduce #'+ alloc) 'float))) 2265 (format nil "~{~3F~^/~}" 2266 (mapcar (lambda (size) (/ size sum)) 2267 alloc)))) 2268 2269 (defvar *gc-start-time* 0) 2270 2271 (defun pre-gc-hook (bytes-in-use) 2272 (setq *gc-start-time* (get-internal-real-time)) 2273 (let ((msg (format nil "[Commencing GC with ~A in use.]" 2274 (print-bytes bytes-in-use)))) 2275 (background-message msg))) 2276 2277 (defun post-gc-hook (bytes-retained bytes-freed trigger) 2278 (declare (ignore trigger)) 2279 (let* ((seconds (/ (- (get-internal-real-time) *gc-start-time*) 2280 internal-time-units-per-second)) 2281 (msg (format nil "[GC done. ~A freed ~A retained ~A ~4F sec]" 2282 (print-bytes bytes-freed) 2283 (print-bytes bytes-retained) 2284 #+gencgc(generation-stats) 2285 #-gencgc"" 2286 seconds))) 2287 (background-message msg))) 2288 2289 (defun install-gc-hooks () 2290 (setq ext:*gc-notify-before* #'pre-gc-hook) 2291 (setq ext:*gc-notify-after* #'post-gc-hook)) 2292 2293 (defun remove-gc-hooks () 2294 (setq ext:*gc-notify-before* #'lisp::default-gc-notify-before) 2295 (setq ext:*gc-notify-after* #'lisp::default-gc-notify-after)) 2296 2297 (defvar *install-gc-hooks* t 2298 "If non-nil install GC hooks") 2299 2300 (defimplementation emacs-connected () 2301 (when *install-gc-hooks* 2302 (install-gc-hooks))) 2303 2304 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;; 2305 ;;Trace implementations 2306 ;;In CMUCL, we have: 2307 ;; (trace <name>) 2308 ;; (trace (method <name> <qualifier>? (<specializer>+))) 2309 ;; (trace :methods t '<name>) ;;to trace all methods of the gf <name> 2310 ;; <name> can be a normal name or a (setf name) 2311 2312 (defun tracedp (spec) 2313 (member spec (eval '(trace)) :test #'equal)) 2314 2315 (defun toggle-trace-aux (spec &rest options) 2316 (cond ((tracedp spec) 2317 (eval `(untrace ,spec)) 2318 (format nil "~S is now untraced." spec)) 2319 (t 2320 (eval `(trace ,spec ,@options)) 2321 (format nil "~S is now traced." spec)))) 2322 2323 (defimplementation toggle-trace (spec) 2324 (ecase (car spec) 2325 ((setf) 2326 (toggle-trace-aux spec)) 2327 ((:defgeneric) 2328 (let ((name (second spec))) 2329 (toggle-trace-aux name :methods name))) 2330 ((:defmethod) 2331 (cond ((fboundp `(method ,@(cdr spec))) 2332 (toggle-trace-aux `(method ,(cdr spec)))) 2333 ;; Man, is this ugly 2334 ((fboundp `(pcl::fast-method ,@(cdr spec))) 2335 (toggle-trace-aux `(pcl::fast-method ,@(cdr spec)))) 2336 (t 2337 (error 'undefined-function :name (cdr spec))))) 2338 ((:call) 2339 (destructuring-bind (caller callee) (cdr spec) 2340 (toggle-trace-aux (process-fspec callee) 2341 :wherein (list (process-fspec caller))))) 2342 ;; doesn't work properly 2343 ;; ((:labels :flet) (toggle-trace-aux (process-fspec spec))) 2344 )) 2345 2346 (defun process-fspec (fspec) 2347 (cond ((consp fspec) 2348 (ecase (first fspec) 2349 ((:defun :defgeneric) (second fspec)) 2350 ((:defmethod) 2351 `(method ,(second fspec) ,@(third fspec) ,(fourth fspec))) 2352 ((:labels) `(labels ,(third fspec) ,(process-fspec (second fspec)))) 2353 ((:flet) `(flet ,(third fspec) ,(process-fspec (second fspec)))))) 2354 (t 2355 fspec))) 2356 2357 ;;; Weak datastructures 2358 2359 (defimplementation make-weak-key-hash-table (&rest args) 2360 (apply #'make-hash-table :weak-p t args)) 2361 2362 2363 ;;; Save image 2364 2365 (defimplementation save-image (filename &optional restart-function) 2366 (multiple-value-bind (pid error) (unix:unix-fork) 2367 (when (not pid) (error "fork: ~A" (unix:get-unix-error-msg error))) 2368 (cond ((= pid 0) 2369 (apply #'ext:save-lisp 2370 filename 2371 (if restart-function 2372 `(:init-function ,restart-function)))) 2373 (t 2374 (let ((status (waitpid pid))) 2375 (destructuring-bind (&key exited? status &allow-other-keys) status 2376 (assert (and exited? (equal status 0)) () 2377 "Invalid exit status: ~a" status))))))) 2378 2379 (defun waitpid (pid) 2380 (alien:with-alien ((status c-call:int)) 2381 (let ((code (alien:alien-funcall 2382 (alien:extern-alien 2383 waitpid (alien:function c-call:int c-call:int 2384 (* c-call:int) c-call:int)) 2385 pid (alien:addr status) 0))) 2386 (cond ((= code -1) (error "waitpid: ~A" (unix:get-unix-error-msg))) 2387 (t (assert (= code pid)) 2388 (decode-wait-status status)))))) 2389 2390 (defun decode-wait-status (status) 2391 (let ((output (with-output-to-string (s) 2392 (call-program (list (process-status-program) 2393 (format nil "~d" status)) 2394 :output s)))) 2395 (read-from-string output))) 2396 2397 (defun call-program (args &key output) 2398 (destructuring-bind (program &rest args) args 2399 (let ((process (ext:run-program program args :output output))) 2400 (when (not program) (error "fork failed")) 2401 (unless (and (eq (ext:process-status process) :exited) 2402 (= (ext:process-exit-code process) 0)) 2403 (error "Non-zero exit status"))))) 2404 2405 (defvar *process-status-program* nil) 2406 2407 (defun process-status-program () 2408 (or *process-status-program* 2409 (setq *process-status-program* 2410 (compile-process-status-program)))) 2411 2412 (defun compile-process-status-program () 2413 (let ((infile (system::pick-temporary-file-name 2414 "/tmp/process-status~d~c.c"))) 2415 (with-open-file (stream infile :direction :output :if-exists :supersede) 2416 (format stream " 2417 #include <stdio.h> 2418 #include <stdlib.h> 2419 #include <sys/types.h> 2420 #include <sys/wait.h> 2421 #include <assert.h> 2422 2423 #define FLAG(value) (value ? \"t\" : \"nil\") 2424 2425 int main (int argc, char** argv) { 2426 assert (argc == 2); 2427 { 2428 char* endptr = NULL; 2429 char* arg = argv[1]; 2430 long int status = strtol (arg, &endptr, 10); 2431 assert (endptr != arg && *endptr == '\\0'); 2432 printf (\"(:exited? %s :status %d :signal? %s :signal %d :coredump? %s\" 2433 \" :stopped? %s :stopsig %d)\\n\", 2434 FLAG(WIFEXITED(status)), WEXITSTATUS(status), 2435 FLAG(WIFSIGNALED(status)), WTERMSIG(status), 2436 FLAG(WCOREDUMP(status)), 2437 FLAG(WIFSTOPPED(status)), WSTOPSIG(status)); 2438 fflush (NULL); 2439 return 0; 2440 } 2441 } 2442 ") 2443 (finish-output stream)) 2444 (let* ((outfile (system::pick-temporary-file-name)) 2445 (args (list "cc" "-o" outfile infile))) 2446 (warn "Running cc: ~{~a ~}~%" args) 2447 (call-program args :output t) 2448 (delete-file infile) 2449 outfile))) 2450 2451 ;; FIXME: lisp:unicode-complete introduced in version 20d. 2452 #+#.(slynk-backend:with-symbol 'unicode-complete 'lisp) 2453 (defun match-semi-standard (prefix matchp) 2454 ;; Handle the CMUCL's short character names. 2455 (loop for name in lisp::char-name-alist 2456 when (funcall matchp prefix (car name)) 2457 collect (car name))) 2458 2459 #+#.(slynk-backend:with-symbol 'unicode-complete 'lisp) 2460 (defimplementation character-completion-set (prefix matchp) 2461 (let ((names (lisp::unicode-complete prefix))) 2462 ;; Match prefix against semistandard names. If there's a match, 2463 ;; add it to our list of matches. 2464 (let ((semi-standard (match-semi-standard prefix matchp))) 2465 (when semi-standard 2466 (setf names (append semi-standard names)))) 2467 (setf names (mapcar #'string-capitalize names)) 2468 (loop for n in names 2469 when (funcall matchp prefix n) 2470 collect n))) 2471 2472 (defimplementation codepoint-length (string) 2473 "Return the number of code points in the string. The string MUST be 2474 a valid UTF-16 string." 2475 (do ((len (length string)) 2476 (index 0 (1+ index)) 2477 (count 0 (1+ count))) 2478 ((>= index len) 2479 count) 2480 (multiple-value-bind (codepoint wide) 2481 (lisp:codepoint string index) 2482 (declare (ignore codepoint)) 2483 (when wide (incf index)))))