;;; dump-form.lisp ;;; ;;; Copyright (C) 2004-2007 Peter Graves ;;; $Id$ ;;; ;;; This program is free software; you can redistribute it and/or ;;; modify it under the terms of the GNU General Public License ;;; as published by the Free Software Foundation; either version 2 ;;; of the License, or (at your option) any later version. ;;; ;;; This program is distributed in the hope that it will be useful, ;;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;;; GNU General Public License for more details. ;;; ;;; You should have received a copy of the GNU General Public License ;;; along with this program; if not, write to the Free Software ;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ;;; ;;; As a special exception, the copyright holders of this library give you ;;; permission to link this library with independent modules to produce an ;;; executable, regardless of the license terms of these independent ;;; modules, and to copy and distribute the resulting executable under ;;; terms of your choice, provided that you also meet, for each linked ;;; independent module, the terms and conditions of the license of that ;;; module. An independent module is a module which is not derived from ;;; or based on this library. If you modify this library, you may extend ;;; this exception to your version of the library, but you are not ;;; obligated to do so. If you do not wish to do so, delete this ;;; exception statement from your version. (in-package "SYSTEM") (export '(dump-form dump-uninterned-symbol-index)) (declaim (special *circularity* *circle-counter* *instance-forms*)) (defun get-instance-form (object) (multiple-value-bind (value presence) (gethash object *instance-forms*) (cond (presence value) (t (multiple-value-bind (creation-form initialization-form) (make-load-form object) (if initialization-form (let* ((instance (gensym)) load-form) (setf initialization-form (subst instance object initialization-form)) (setf initialization-form (subst instance (list 'quote instance) initialization-form :test #'equal)) (setf load-form `(progn (let ((,instance ,creation-form)) ,initialization-form ,instance))) (setf (gethash object *instance-forms*) load-form)) (setf (gethash object *instance-forms*) creation-form))))))) (defun df-register-circularity (object) (setf (gethash object *circularity*) (if (gethash object *circularity*) :circular t))) (defun df-check-cons (object) (loop (df-check-object (car object)) (setf object (cdr object)) (when (atom object) (df-check-object object) (return)) (when (null object) (return-from df-check-cons)) (when (eq :circular (df-register-circularity object)) (return)))) (defun df-check-vector (object) (dotimes (index (length object)) (df-check-object (aref object index)))) (defun df-check-instance (object) (df-check-object (get-instance-form object))) (defun df-check-object (object) (unless (eq :circular (df-register-circularity object)) (cond ((consp object) (df-check-cons object)) ((vectorp object) (df-check-vector object)) ((or (structure-object-p object) (standard-object-p object) (java:java-object-p object)) (df-check-instance object))))) (defun df-handle-circularity (object stream within-list) (let ((index (gethash object *circularity*))) (cond ((eq index :circular) (setf index (incf *circle-counter*)) (setf (gethash object *circularity*) index) (when within-list (write-string " . " stream)) (%stream-write-char #\# stream) (write index :stream stream) (%stream-write-char #\= stream) (when within-list (dump-cons object stream) ;; ### *cough* (return-from df-handle-circularity t)) (return-from df-handle-circularity)) ((integerp index) (when within-list (write-string " . " stream)) (%stream-write-char #\# stream) (write index :stream stream) (%stream-write-char #\# stream) (%stream-write-char #\Space stream) (return-from df-handle-circularity t)) (t (unless *prevent-fasl-circle-detection* (assert (or (eq index t) (integerp object)))))))) ;; strictly this should be 'long' (declaim (ftype (function (cons stream) t) dump-cons)) (defun dump-cons (object stream) (cond ((and (eq (car object) 'QUOTE) (proper-list-of-length-p object 2)) (%stream-write-char #\' stream) (dump-object (%cadr object) stream)) (t (%stream-write-char #\( stream) (loop (dump-object (%car object) stream) (setf object (%cdr object)) (when (null object) (return)) ;; escape loop (%stream-write-char #\space stream) (when (atom object) (%stream-write-char #\. stream) (%stream-write-char #\space stream) (dump-object object stream) (return)) (when (df-handle-circularity object stream t) (return)) (when (> (charpos stream) 80) (%stream-terpri stream))) (%stream-write-char #\) stream)))) (declaim (ftype (function (t stream) t) dump-vector)) (defun dump-vector (object stream) (write-string "#(" stream) (let ((length (length object))) (when (> length 0) (dotimes (i (1- length)) (declare (type index i)) (dump-object (aref object i) stream) (when (> (charpos stream) 80) (%stream-terpri stream)) (%stream-write-char #\space stream)) (dump-object (aref object (1- length)) stream)) (%stream-write-char #\) stream))) (declaim (ftype (function (t stream) t) dump-instance)) (defun dump-instance (object stream) (write-string "#." stream) (dump-object (get-instance-form object) stream)) (declaim (ftype (function (symbol) integer) dump-uninterned-symbol-index)) (defun dump-uninterned-symbol-index (symbol) (let ((index (cdr (assoc symbol *fasl-uninterned-symbols*)))) (unless index (setq index (1+ (or (cdar *fasl-uninterned-symbols*) -1))) (setq *fasl-uninterned-symbols* (acons symbol index *fasl-uninterned-symbols*))) index)) (declaim (ftype (function (pathname stream) t) dump-pathname)) (defun dump-pathname (pathname stream) (write-string "#P(" stream) (write-string ":HOST " stream) (dump-form (pathname-host pathname) stream) (write-string " :DEVICE " stream) (dump-form (pathname-device pathname) stream) (write-string " :DIRECTORY " stream) (dump-form (pathname-directory pathname) stream) (write-string " :NAME " stream) (dump-form (pathname-name pathname) stream) (write-string " :TYPE " stream) (dump-form (pathname-type pathname) stream) (write-string " :VERSION " stream) (dump-form (pathname-version pathname) stream) (write-string ")" stream)) (declaim (ftype (function (t stream) t) dump-object)) (defun dump-object (object stream) (unless (df-handle-circularity object stream nil) (cond ((consp object) (dump-cons object stream)) ((stringp object) (%stream-output-object object stream)) ((pathnamep object) (dump-pathname object stream)) ((bit-vector-p object) (%stream-output-object object stream)) ((vectorp object) (dump-vector object stream)) ((or (structure-object-p object) ;; FIXME instance-p (standard-object-p object) (java:java-object-p object)) (dump-instance object stream)) ((and (symbolp object) ;; uninterned symbol (null (symbol-package object))) (write-string "#" stream) (write (dump-uninterned-symbol-index object) :stream stream) (write-string "?" stream)) (t (%stream-output-object object stream))))) (defvar *the-fasl-printer-readtable* (copy-readtable (get-fasl-readtable)) "This variable holds a copy of the FASL readtable which we need to bind below, in order to prevent the current readtable from influencing the content being written to the FASL: the READTABLE-CASE setting influences symbol printing.") (defvar *prevent-fasl-circle-detection* nil) (declaim (ftype (function (t stream) t) dump-form)) (defun dump-form (form stream) (let ((*print-fasl* t) (*print-array* t) (*print-base* 10) (*print-case* :upcase) (*print-circle* nil) (*print-escape* t) (*print-gensym* t) (*print-length* nil) (*print-level* nil) (*print-lines* nil) (*print-pretty* nil) (*print-radix* nil) #+nil ;; XXX Some types (q.v. (UNSIGNED-BYTE 32)) don't have a ;; readable syntax because they don't roundtrip to the same ;; type, but still return a Lisp object that "works", albeit ;; perhaps inefficiently when READ from their DUMP-FORM ;; representation. (*print-readably* t) (*print-right-margin* nil) (*print-structure* t) (*readtable* *the-fasl-printer-readtable*) ;; make sure to write all floats with their exponent marker: ;; the dump-time default may not be the same at load-time (*read-default-float-format* nil) ;; these values are also bound by WITH-STANDARD-IO-SYNTAX, ;; but not used by our reader/printer, so don't bind them, ;; for efficiency reasons. ;; (*read-eval* t) ;; (*read-suppress* nil) ;; (*print-miser-width* nil) ;; (*print-pprint-dispatch* (copy-pprint-dispatch nil)) ;; (*read-base* 10) ;; (*read-default-float-format* 'single-float) ;; (*readtable* (copy-readtable nil)) (*circularity* (make-hash-table :test #'eq)) (*instance-forms* (make-hash-table :test #'eq)) (*circle-counter* 0)) ;; (print form) (unless *prevent-fasl-circle-detection* (df-check-object form)) (dump-object form stream))) (provide 'dump-form)