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removed files left over from "cvs import"

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david
2005-03-13 18:05:37 +00:00
parent d6ca7664f4
commit 3c5ada1d05
29 changed files with 0 additions and 7841 deletions
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17
CLISP.diff
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@ -1,17 +0,0 @@
--- orig/xml/xml-parse.lisp
+++ mod/xml/xml-parse.lisp
@@ -525,7 +525,10 @@
(declaim (type (simple-array rune (*))
*scratch-pad* *scratch-pad-2* *scratch-pad-3* *scratch-pad-4*))
-(defmacro with-scratch-pads (() &body body)
+(defmacro with-scratch-pads (#-clisp ()
+ ;; clisp does not allow () as macro argument list
+ #+clisp (&key &allow-other-keys)
+ &body body)
`(let ((*scratch-pad* (make-array 1024 :element-type 'rune))
(*scratch-pad-2* (make-array 1024 :element-type 'rune))
(*scratch-pad-3* (make-array 1024 :element-type 'rune))

151
NEWS
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@ -1,151 +0,0 @@
Changes to Gilbert Baumann's Code
========================================
(Stand dieser Liste: patch-54)
base-0
Import of Closure's src/xml and src/glisp
Build system
----------------
patch-14
dom-builder.lsp braucht package.lisp
patch-17
xml-parse braucht dom-impl
patch-18
xml-parse braucht encodings
patch-19
xml-parse.lisp needs xml-stream.lisp
Interface changes
----------------
patch-2
export UNPARSE-DOCUMENT
Portability issues
----------------
patch-1
ACL port aktualisiert
patch-8
fixed more mlisp breakage
DOM fixes
----------------
patch-3
add dom:remove-child, dom:import-node
patch-6
fixed dom:remove-child
patch-7
strings->rods in set-attribute, too
patch-21
dom:item und dom:length fuer NodeList implementiert
patch-22
s/remove-atttribute/remove-attribute
patch-23
dom:remove-attribute-node korrigiert
patch-24
neu: dom:remove-attribute
patch-25
dom:normalize implementiert
patch-26
get-elements-by-tag-name fuer Element implementiert
patch-32
s/data/value/ fuer CHARACTER-DATA
patch-33
Aufruf von Setter-Methoden
patch-34
(setf value) nachgetragen
patch-35
(DOM:NODE-VALUE ATTRIBUTE) korrigiert
patch-36
writer fuer DOM:DATA
patch-37
(setf dom:node-value) implementiert
patch-43
hack: implemented CHILD-NODES for ENTITY-REFERENCE
patch-44
ENTITY-REFERENCE-Kinder als read-only markieren
patch-45
DOM-EXCEPTION implementiert
patch-46
fixed special cases in delete-data and replace-data
patch-47
delete-data: Arraytyp korrigiert
patch-48
DOM:INSERT-DATA implementiert
patch-49
bugfix: replace-data for count != (length arg)
patch-50
patch-46 nachgebessert: offset == length ist OK
patch-51
fixed special cases in dom:substring-data
patch-52
fixed patch-36, my (setf dom:data) implementation was bogus
xml-parse.lisp changes
----------------
patch-5
(assert (eql initial-speed 1)) in make-xstream
patch-20
added a forward declaration for *namespace-bindings*
patch-39
fix for thread safety in p/document
patch-41
Warnung ueber (nicht) redefinierte Attribute abschalten koennen
patch-54
call sax:comment; create comment nodes
String-Handling
----------------
patch-4
renamed dom to cdom, added string-dom
patch-38
diverse setter nachgetragen
Misc.
----------------
patch-9
print elements with their tag-name
patch-11
print attributes with name and value
patch-10
(reverted by patch-10)
patch-12
REVERT patch-10
domtest.cl
----------------
patch-27
alle DOM Level 1 CORE Tests uebersetzen koennen (mehr schlecht als recht)
patch-28
so, jetzt kompilieren die DOM-Tests auch (wenngleich zwei drittel noch fehlschlagen)
patch-29
einzelnen Test ausfuehren koennen
patch-30
<length/> workaround
patch-31
<equals/> fuer nicht-Strings
patch-40
?
patch-42
implementationAttribute-Probleme zwar ausgeben, aber kein WARN machen
patch-53
domtest fixes fuer <var/> und <nodeType>
xmlconf.cl
----------------
patch-13
Testfunktion fuer XML Conformance Test Suite
patch-15
run only tests for namespace-aware XML-1.0 parsers
patch-16
mit korrektem OUTPUT abgleichen

161
dom/xml-canonic.lisp
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@ -1,161 +0,0 @@
;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: XML; readtable: runes; Encoding: utf-8; -*-
;;; ---------------------------------------------------------------------------
;;; Title: Dump canonic XML according to J.Clark
;;; Created: 1999-09-09
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; License: LGPL (See file COPYING for details).
;;; ---------------------------------------------------------------------------
;;; © copyright 1999 by Gilbert Baumann
;;; This library is free software; you can redistribute it and/or
;;; modify it under the terms of the GNU Library General Public
;;; License as published by the Free Software Foundation; either
;;; version 2 of the License, or (at your option) any later version.
;;;
;;; This library 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
;;; Library General Public License for more details.
;;;
;;; You should have received a copy of the GNU Library General Public
;;; License along with this library; if not, write to the
;;; Free Software Foundation, Inc., 59 Temple Place - Suite 330,
;;; Boston, MA 02111-1307 USA.
(in-package :xml)
;;
;; | Canonical XML
;; | =============
;; |
;; | This document defines a subset of XML called canonical XML. The
;; | intended use of canonical XML is in testing XML processors, as a
;; | representation of the result of parsing an XML document.
;; |
;; | Every well-formed XML document has a unique structurally equivalent
;; | canonical XML document. Two structurally equivalent XML documents have
;; | a byte-for-byte identical canonical XML document. Canonicalizing an
;; | XML document requires only information that an XML processor is
;; | required to make available to an application.
;; |
;; | A canonical XML document conforms to the following grammar:
;; |
;; | CanonXML ::= Pi* element Pi*
;; | element ::= Stag (Datachar | Pi | element)* Etag
;; | Stag ::= '<' Name Atts '>'
;; | Etag ::= '</' Name '>'
;; | Pi ::= '<?' Name ' ' (((Char - S) Char*)? - (Char* '?>' Char*)) '?>'
;; | Atts ::= (' ' Name '=' '"' Datachar* '"')*
;; | Datachar ::= '&amp;' | '&lt;' | '&gt;' | '&quot;'
;; | | '&#9;'| '&#10;'| '&#13;'
;; | | (Char - ('&' | '<' | '>' | '"' | #x9 | #xA | #xD))
;; | Name ::= (see XML spec)
;; | Char ::= (see XML spec)
;; | S ::= (see XML spec)
;; |
;; | Attributes are in lexicographical order (in Unicode bit order).
;; |
;; | A canonical XML document is encoded in UTF-8.
;; |
;; | Ignorable white space is considered significant and is treated
;; | equivalently to data.
;;
;; -- James Clark (jjc@jclark.com)
(defvar *quux*) ;!!!BIG HACK!!!
(defun unparse-document (doc sink)
(map nil (rcurry #'unparse-node sink) (dom:child-nodes doc)))
(defun unparse-node (node sink)
(cond ((dom:element-p node)
(write-rune #/< sink)
(write-rod (dom:tag-name node) sink)
;; atts
(let ((atts (sort (copy-list (dom:items (dom:attributes node)))
#'rod< :key #'dom:name)))
(dolist (a atts)
(write-rune #/space sink)
(write-rod (dom:name a) sink)
(write-rune #/= sink)
(write-rune #/\" sink)
(let ((*quux* nil))
(map nil (lambda (c) (unparse-datachar c sink)) (dom:value a)))
(write-rune #/\" sink)))
(write-rod '#.(string-rod ">") sink)
(dom:do-node-list (k (dom:child-nodes node))
(unparse-node k sink))
(write-rod '#.(string-rod "</") sink)
(write-rod (dom:tag-name node) sink)
(write-rod '#.(string-rod ">") sink))
((dom:processing-instruction-p node)
(unless (rod-equal (dom:target node) '#.(string-rod "xml"))
(write-rod '#.(string-rod "<?") sink)
(write-rod (dom:target node) sink)
(write-rune #/space sink)
(write-rod (dom:data node) sink)
(write-rod '#.(string-rod "?>") sink) ))
((dom:text-node-p node)
(let ((*quux* nil))
(map nil (lambda (c) (unparse-datachar c sink))
(dom:data node))))
((dom:comment-p node))
(t
(error "Oops in unparse: ~S." node))))
(defun unparse-datachar (c sink)
(cond ((rune= c #/&) (write-rod '#.(string-rod "&amp;") sink))
((rune= c #/<) (write-rod '#.(string-rod "&lt;") sink))
((rune= c #/>) (write-rod '#.(string-rod "&gt;") sink))
((rune= c #/\") (write-rod '#.(string-rod "&quot;") sink))
((rune= c #/U+0009) (write-rod '#.(string-rod "&#9;") sink))
((rune= c #/U+000A) (write-rod '#.(string-rod "&#10;") sink))
((rune= c #/U+000D) (write-rod '#.(string-rod "&#13;") sink))
(t
(write-rune c sink))))
(defun write-rod (rod sink)
(let ((*quux* nil))
(map nil (lambda (c) (write-rune c sink)) rod)))
(defun write-rune (rune sink)
(let ((code (rune-code rune)))
(cond ((<= #xD800 code #xDBFF)
(setf *quux* code))
((<= #xDC00 code #xDFFF)
(let ((q (logior (ash (- *quux* #xD7C0) 10) (- code #xDC00))))
(write-rune-0 q sink))
(setf *quux* nil))
(t
(write-rune-0 code sink)))))
(defun write-rune-0 (code sink)
(labels ((wr (x)
(write-char (code-char x) sink)))
(cond ((<= #x00000000 code #x0000007F)
(wr code))
((<= #x00000080 code #x000007FF)
(wr (logior #b11000000 (ldb (byte 5 6) code)))
(wr (logior #b10000000 (ldb (byte 6 0) code))))
((<= #x00000800 code #x0000FFFF)
(wr (logior #b11100000 (ldb (byte 4 12) code)))
(wr (logior #b10000000 (ldb (byte 6 6) code)))
(wr (logior #b10000000 (ldb (byte 6 0) code))))
((<= #x00010000 code #x001FFFFF)
(wr (logior #b11110000 (ldb (byte 3 18) code)))
(wr (logior #b10000000 (ldb (byte 6 12) code)))
(wr (logior #b10000000 (ldb (byte 6 6) code)))
(wr (logior #b10000000 (ldb (byte 6 0) code))))
((<= #x00200000 code #x03FFFFFF)
(wr (logior #b11111000 (ldb (byte 2 24) code)))
(wr (logior #b10000000 (ldb (byte 6 18) code)))
(wr (logior #b10000000 (ldb (byte 6 12) code)))
(wr (logior #b10000000 (ldb (byte 6 6) code)))
(wr (logior #b10000000 (ldb (byte 6 0) code))))
((<= #x04000000 code #x7FFFFFFF)
(wr (logior #b11111100 (ldb (byte 1 30) code)))
(wr (logior #b10000000 (ldb (byte 6 24) code)))
(wr (logior #b10000000 (ldb (byte 6 18) code)))
(wr (logior #b10000000 (ldb (byte 6 12) code)))
(wr (logior #b10000000 (ldb (byte 6 6) code)))
(wr (logior #b10000000 (ldb (byte 6 0) code)))))))

433
domtest.lisp
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@ -1,433 +0,0 @@
#+(or)
(defpackage :domtest
(:use :cl :xml)
(:alias (:string-dom :dom)))
(defpackage :domtest-tests
(:use))
(in-package :domtest)
(defparameter *directory* "~/src/2001/DOM-Test-Suite/")
;;;; allgemeine Hilfsfunktionen
(defmacro string-case (keyform &rest clauses)
(let ((key (gensym "key")))
`(let ((,key ,keyform))
(declare (ignorable ,key))
(cond
,@(loop
for (keys . forms) in clauses
for test = (etypecase keys
(string `(string= ,key ,keys))
(sequence `(find ,key ,keys :test 'string=))
((eql t) t))
collect
`(,test ,@forms))))))
(defun rcurry (function &rest args)
(lambda (&rest more-args)
(apply function (append more-args args))))
(defmacro for ((&rest clauses) &rest body-forms)
`(%for ,clauses (progn ,@body-forms)))
(defmacro for* ((&rest clauses) &rest body-forms)
`(%for* ,clauses (progn ,@body-forms)))
(defmacro %for ((&rest clauses) body-form &rest finally-forms)
(for-aux 'for clauses body-form finally-forms))
(defmacro %for* ((&rest clauses) body-form &rest finally-forms)
(for-aux 'for* clauses body-form finally-forms))
(defmacro for-finish ()
'(loop-finish))
(eval-when (:compile-toplevel :load-toplevel :execute)
(defun for-aux (kind clauses body-form finally-forms)
` (loop ,@ (loop for firstp = t then nil
for %clauses = clauses then (rest %clauses)
for clause = (first %clauses) then (first %clauses)
while (and %clauses (listp clause))
append (cons (ecase kind
(for (if firstp 'as 'and))
(for* 'as))
(if (= 2 (length clause))
(list (first clause) '= (second clause))
clause))
into result
finally (return (append result %clauses)))
do (progn ,body-form)
finally (progn ,@finally-forms))))
;;;; spezielle Hilfsfunktionen
(defmacro with-attributes ((&rest attributes) element &body body)
(let ((e (gensym "element")))
`(let* ((,e ,element)
,@(mapcar (lambda (var)
`(,var (dom:get-attribute ,e ,(symbol-name var))))
attributes))
,@body)))
(defun map-child-elements (result-type fn element &key name)
(remove '#1=#:void
(map result-type
(lambda (node)
(if (and (eq (dom:node-type node) :element)
(or (null name)
(equal (dom:tag-name node) name)))
(funcall fn node)
'#1#))
(dom:child-nodes element))))
(defmacro do-child-elements ((var element &key name) &body body)
`(block nil
(map-child-elements nil (lambda (,var) ,@body) ,element :name ,name)))
(defun find-child-element (name element)
(do-child-elements (child element :name name)
(return child)))
(defun %intern (name)
(intern name :domtest-tests))
(defun replace-studly-caps (str)
;; s/([A-Z][a-z])/-\1/
(with-output-to-string (out)
(with-input-from-string (in str)
(for ((first = t :then nil)
(c = (read-char in nil nil))
(next = (peek-char nil in nil nil))
:while c)
(when (and (not first) (upper-case-p c) next (lower-case-p next))
(write-char #\- out))
(write-char (char-downcase c) out)))))
(defun intern-dom (name)
(intern (replace-studly-caps name) :dom))
(defun child-elements (element)
(map-child-elements 'list #'identity element))
(defun parse-java-literal (str)
(cond
((null str) nil) ;?
((equal str "true")
t)
((equal str "false")
nil)
((digit-char-p (char str 0))
(parse-integer str))
((char= (char str 0) #\")
(let ((end (1- (length str))))
(assert (char= (char str end) #\"))
(subseq str 1 end)))
(t
(%intern str))))
(defmacro maybe-setf (place form)
(if place
`(setf ,place ,form)
form))
;;;; dom1-interfaces.xml auslesen
(defvar *methods* '())
(defvar *fields* '())
(defun read-members (&optional (directory *directory*))
(let* ((pathname (merge-pathnames "patches/dom1-interfaces.xml" directory))
(library (dom:document-element (xml:parse-file pathname)))
(methods '())
(fields '()))
(do-child-elements (interface library :name "interface")
(do-child-elements (method interface :name "method")
(let ((parameters (find-child-element "parameters" method)))
(push (cons (dom:get-attribute method "name")
(map-child-elements 'list
(rcurry #'dom:get-attribute "name")
parameters
:name "param"))
methods)))
(do-child-elements (attribute interface :name "attribute")
(push (dom:get-attribute attribute "name") fields)))
(values methods fields)))
;;;; Conditions uebersetzen
(defun translate-condition (element)
(string-case (dom:tag-name element)
("equals" (translate-equals element))
("contentType" (translate-content-type element))
("implementationAttribute" (assert-have-implementation-attribute element))
("isNull" (translate-is-null element))
("not" (translate-is-null element))
("notNull" (translate-not-null element))
("same" (translate-same element))
(t (error "unknown condition: ~A" element))))
(defun translate-equals (element)
(with-attributes (|actual| |expected| |ignoreCase|) element
`(,(if (parse-java-literal |ignoreCase|) 'string-equal 'string=)
,(%intern actual)
,(parse-java-literal expected))))
(defun translate-same (element)
(with-attributes (|actual| |expected|) element
`(eql ,(%intern actual) ,(parse-java-literal expected))))
(defun translate-instance-of (element)
(with-attributes (|obj| |type|) element
`(typep ,(%intern |obj|) ,(intern-dom |type|))))
(defun translate-is-null (element)
(with-attributes (|obj|) element
`(null ,(%intern |obj|))))
(defun translate-not-null (element)
(with-attributes (|obj|) element
(%intern |obj|)))
(defun translate-content-type (element) ;XXX verstehe ich nicht
(with-attributes (|type|) element
`(equal ,(parse-java-literal |type|) "text/xml")))
(defun translate-uri-equals (element)
(with-attributes
(|actual|
|scheme| |path| |host| |file| |name| |query| |fragment| |isAbsolute|)
element
|isAbsolute|
`(let ((uri ,(%intern |actual|)))
(and (string-equalp ,|scheme| (net.uri:uri-scheme uri))
(equal ,|host| (net.uri:uri-host uri))
(equal ,|path| (net.uri:uri-path uri))
(equal ,|file| "???")
(equal ,|name| "???")
(equal ,|query| (net.uri:uri-query uri))
(equal ,|fragment| (net.uri:uri-fragment uri))
;; isabsolute
nil))))
;;;; Statements uebersetzen
(defun translate-statement (element)
(string-case (dom:tag-name element)
("append" (translate-append element))
("assertDOMException" (translate-assert-domexception element))
("assertEquals" (translate-assert-equals element))
("assertNotNull" (translate-assert-not-null element))
("assertInstanceOf" (translate-assert-instance-of element))
("assertNull" (translate-assert-null element))
("assertSame" (translate-assert-same element))
("assertSize" (translate-assert-size element))
("assertTrue" (translate-assert-true element))
("assertFalse" (translate-assert-true element))
("assertURIEquals" (translate-assert-uri-equals element))
("for-each" (translate-for-each element))
("fail" (translate-fail element))
("if" (translate-if element))
("increment" (translate-unary-assignment '+ element))
("decrement" (translate-unary-assignment '- element))
("load" (translate-load element))
("plus" (translate-binary-assignment '+ element))
("try" (translate-try element))
("while" (translate-while element))
(t (translate-member element))))
(defun translate-binary-assignment (fn element)
(with-attributes (|var| |op1| |op2|) element
`(maybe-setf ,(%intern |var|) (,fn ,(%intern |op1|) ,(%intern |op2|)))))
(defun translate-unary-assignment (fn element)
(with-attributes (|var| |value|) element
`(maybe-setf ,(%intern |var|)
(,fn ,(%intern |var|) ,(parse-java-literal |value|)))))
(defun translate-load (load)
(with-attributes (|var| |href| |willBeModified|) load
`(maybe-setf ,(%intern |var|)
(load-file ,|href| ,(parse-java-literal |willBeModified|)))))
(defun translate-call (call method)
(let ((name (car method))
(args (mapcar (lambda (name)
(parse-java-literal (dom:get-attribute call name)))
(cdr method))))
(with-attributes (|var| |obj|) call
`(maybe-setf ,(%intern |var|) (,(intern-dom name) ,|obj| ,@args)))))
(defun translate-get (call name)
(with-attributes (|var| |obj|) call
`(maybe-setf ,(%intern |var|) (,(intern-dom name) ,|obj|))))
(defun translate-fail (element)
(declare (ignore element))
`(error "failed"))
(defun translate-member (element)
(let* ((name (dom:tag-name element))
(method (find name *methods* :key #'car :test #'equal))
(field (find name *fields* :test #'equal)))
(cond
(method (translate-call element method))
(field (translate-get element field))
(t (error "unknown element ~A" element)))))
(defun translate-assert-equals (element)
`(assert ,(translate-equals element)))
(defun translate-assert-same (element)
`(assert ,(translate-same element)))
(defun translate-assert-null (element)
(with-attributes (|actual|) element
`(assert (null ,(%intern |actual|)))))
(defun translate-assert-not-null (element)
(with-attributes (|actual|) element
`(assert ,(%intern |actual|))))
(defun translate-assert-size (element)
(with-attributes (|collection| |size|) element
`(assert (eql (length ,(%intern |collection|)) ,(%intern |size|)))))
(defun translate-assert-instance-of (element)
`(assert ,(translate-instance-of element)))
(defun translate-if (element)
(destructuring-bind (condition &rest rest)
(child-elements element)
(let (then else)
(dolist (r rest)
(when (equal (dom:tag-name r) "else")
(setf else (child-elements r))
(return))
(push r then))
`(cond
(,(translate-condition condition)
,@(mapcar #'translate-statement (reverse then)))
(t
,@(mapcar #'translate-statement else))))))
(defun translate-while (element)
(destructuring-bind (condition &rest body)
(child-elements element)
`(loop
while ,(translate-condition condition)
do (progn ,@(mapcar #'translate-statement body)))))
(defun translate-assert-domexception (element)
(do-child-elements (c element)
(unless (equal (dom:tag-name c) "metadata")
(return
`(progn
,@(translate-body c)
;; XXX haben noch keine Exceptions
(error "expected exception ~A" (dom:tag-name element)))))))
(defun translate-try (element)
(map-child-elements 'list
(lambda (c)
(if (equal (dom:tag-name c) "catch")
nil
(translate-statement c)))
element)
;; XXX haben noch keine Exceptions
)
(defun translate-append (element)
(with-attributes (|collection| |item|) element
(let ((c (%intern |collection|))
(i (%intern |item|)))
`(maybe-setf ,c (append ,c (list ,i))))))
(defun translate-assert-true (element)
(with-attributes (|actual|) element
`(assert ,(%intern |actual|))))
(defun translate-assert-false (element)
(with-attributes (|actual|) element
`(assert (not ,(%intern |actual|)))))
(defun translate-assert-uri-equals (element)
`(assert ,(translate-uri-equals element)))
;;;; Tests uebersetzen
(defun translate-body (element)
(map-child-elements 'list #'translate-statement element))
(defun translate-for-each (element)
(with-attributes (|collection| |member|) element
`(dolist (,(%intern |member|) ,(%intern |collection|))
,@(translate-body element))))
(defun test (name &optional (directory *directory*))
(let* ((test-directory (merge-pathnames "tests/level1/core/" directory)))
(slurp-test
(make-pathname :name name :type "xml" :defaults test-directory))))
(defun assert-have-implementation-attribute (element)
(string-case (dom:get-attribute element "name")
(t
(warn "implementationAttribute ~A not supported, skipping test"
(dom:get-attribute element "name"))
(throw 'give-up nil))))
(defun slurp-test (pathname)
(unless *fields*
(multiple-value-setq (*methods* *fields*) (read-members *directory*)))
(catch 'give-up
(let* ((test (dom:document-element (xml:parse-file pathname)))
title
(variables '())
(code '()))
(do-child-elements (e test)
(string-case (dom:tag-name e)
("metadata"
(let ((title-element (find-child-element "title" e)))
(setf title (dom:data (dom:first-child title-element)))))
("var"
(push (%intern (dom:get-attribute e "name")) variables))
("implementationAttribute"
(assert-have-implementation-attribute e))
(t
(push (translate-statement e) code))))
`(defun ,(%intern (concatenate 'string "test-" title)) ()
(let (,@variables)
,@(reverse code))))))
(defun test2 (&optional verbose)
(let* ((test-directory (merge-pathnames "tests/level1/core/" *directory*))
(suite
(dom:document-element
(xml:parse-file (merge-pathnames "alltests.xml" test-directory))))
(n 0)
(i 0))
(do-child-elements (member suite)
(declare (ignore member))
(incf n))
(do-child-elements (member suite)
(let ((href (dom:get-attribute member "href")))
(format t "~&~D/~D ~A~%" i n href)
(let ((lisp (slurp-test (merge-pathnames href test-directory))))
(when verbose
(print lisp))))
(incf i))))
#+(or)
(test "attrname")
#+(or)
(read-methods)
#+(or)
(test2)

521
glisp/COPYING
View File

@ -1,521 +0,0 @@
Preamble to the Gnu Lesser General Public License
Copyright (c) 2000 Franz Incorporated, Berkeley, CA 94704
The concept of the GNU Lesser General Public License version 2.1
("LGPL") has been adopted to govern the use and distribution of
above-mentioned application. However, the LGPL uses terminology that is
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End of Document
------------------------------------------------------------------------
GNU LESSER GENERAL PUBLIC LICENSE
Version 2.1, February 1999
Copyright (C) 1991, 1999 Free Software Foundation, Inc.
59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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END OF TERMS AND CONDITIONS

132
glisp/characters.lisp
View File

@ -1,132 +0,0 @@
;;; copyright (c) 2004 knowledgeTools Int. GmbH
;;; Author of this version: David Lichteblau <david@knowledgetools.de>
;;;
;;; License: LGPL (See file COPYING for details).
;;;
;;; derived from runes.lisp, (c) copyright 1998,1999 by Gilbert Baumann
(in-package :glisp)
(deftype rune () 'base-char)
(deftype rod () 'base-string)
(deftype simple-rod () 'simple-string)
(defsubst rune (rod index)
(char rod index))
(defun (setf rune) (new rod index)
(setf (char rod index) new))
(defsubst %rune (rod index)
(aref (the simple-string rod) (the fixnum index)))
(defsubst (setf %rune) (new rod index)
(setf (aref (the simple-string rod) (the fixnum index)) new))
(defun rod-capitalize (rod)
(string-upcase rod))
(defsubst code-rune (x) (code-char x))
(defsubst rune-code (x) (char-code x))
(defsubst rune= (x y)
(char= x y))
(defun rune-downcase (rune)
(char-downcase rune))
(defsubst rune-upcase (rune)
(char-upcase rune))
(defun rune-upper-case-letter-p (rune)
(upper-case-p rune))
(defun rune-lower-case-letter-p (rune)
(lower-case-p rune))
(defun rune-equal (x y)
(char-equal x y))
(defun rod-downcase (rod)
(string-downcase rod))
(defun rod-upcase (rod)
(string-upcase rod))
(defsubst white-space-rune-p (char)
(or (char= char #\tab)
(char= char #.(code-char 10)) ;Linefeed
(char= char #.(code-char 13)) ;Carriage Return
(char= char #\space)))
(defsubst digit-rune-p (char &optional (radix 10))
(digit-char-p char radix))
(defun rod (x)
(cond
((stringp x) x)
((symbolp x) (string x))
((characterp x) (string x))
((vectorp x) (coerce x 'string))
((integerp x) (string (code-char x)))
(t (error "Cannot convert ~S to a ~S" x 'rod))))
(defun runep (x)
(characterp x))
(defun sloopy-rod-p (x)
(stringp x))
(defun rod= (x y)
(string= x y))
(defun rod-equal (x y)
(string-equal x y))
(defsubst make-rod (size)
(make-string size))
(defun char-rune (char)
char)
(defun rune-char (rune &optional default)
(declare (ignore default))
rune)
(defun rod-string (rod &optional (default-char #\?))
(declare (ignore default-char))
rod)
(defun string-rod (string)
string)
;;;;
(defun rune<= (rune &rest more-runes)
(loop
for (a b) on (cons rune more-runes)
while b
always (char<= a b)))
(defun rune>= (rune &rest more-runes)
(loop
for (a b) on (cons rune more-runes)
while b
always (char>= a b)))
(defun rodp (object)
(stringp object))
(defun really-rod-p (object)
(stringp object))
(defun rod-subseq (source start &optional (end (length source)))
(unless (stringp source)
(error "~S is not of type ~S." source 'rod))
(subseq source start end))
(defun rod-subseq* (source start &optional (end (length source)))
(rod-subseq source start end))
(defun rod< (rod1 rod2)
(string< rod1 rod2))

127
glisp/dep-acl.lisp
View File

@ -1,127 +0,0 @@
;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: GLISP; -*-
;;; ---------------------------------------------------------------------------
;;; Title: ACL-4.3 dependent stuff + fixups
;;; Created: 1999-05-25 22:33
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; License: GPL (See file COPYING for details).
;;; ---------------------------------------------------------------------------
;;; (c) copyright 1998,1999 by Gilbert Baumann
;;; 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
(export 'glisp::read-byte-sequence :glisp)
(export 'glisp::read-char-sequence :glisp)
(export 'glisp::run-unix-shell-command :glisp)
(export 'glisp::mp/process-run-function :glisp)
(export 'glisp::mp/process-kill :glisp)
(export 'glisp::mp/seize-lock :glisp)
(export 'glisp::mp/release-lock :glisp)
(export 'glisp::mp/transfer-lock-owner :glisp)
(export 'glisp::mp/current-process :glisp)
(export 'glisp::mp/process-yield :glisp)
(export 'glisp::mp/process-wait :glisp)
(export 'glisp::getenv :glisp)
(defun glisp::read-byte-sequence (&rest ap)
(apply #'read-sequence ap))
(defun glisp::read-char-sequence (&rest ap)
(apply #'read-sequence ap))
#+ALLEGRO-V5.0
(defun glisp::open-inet-socket (hostname port)
(values
(socket:make-socket :remote-host hostname
:remote-port port
:format :binary)
:byte))
#-ALLEGRO-V5.0
(defun glisp::open-inet-socket (hostname port)
(values
(ipc:open-network-stream :host hostname
:port port
:element-type '(unsigned-byte 8)
:class 'EXCL::BIDIRECTIONAL-BINARY-SOCKET-STREAM)
:byte))
#||
(defun glisp::make-server-socket (port &key (element-type '(unsigned-byte 8)))
)
||#
(defun glisp::mp/make-lock (&key name)
(mp:make-process-lock :name name))
(defmacro glisp::mp/with-lock ((lock) &body body)
`(mp:with-process-lock (,lock)
,@body))
(defmacro glisp::with-timeout ((&rest options) &body body)
`(mp:with-timeout ,options . ,body))
(defun glisp::g/make-string (length &rest options)
(apply #'make-array length :element-type 'base-char options))
(defun glisp:run-unix-shell-command (cmd)
(excl:shell cmd))
(defun glisp:mp/process-run-function (name fn &rest args)
(apply #'mp:process-run-function name fn args))
(defun glisp:mp/process-kill (proc)
(mp:process-kill proc))
(defun glisp:mp/current-process ()
sys:*current-process*)
(defun glisp::mp/seize-lock (lock &key whostate)
whostate
(mp:process-lock lock))
(defun glisp::mp/transfer-lock-owner (lock old-process new-process)
(assert (eql (mp:process-lock-locker lock) old-process))
(setf (mp:process-lock-locker lock) new-process)
)
(defun glisp::mp/release-lock (lock)
(mp:process-unlock lock))
(defun glisp::mp/process-yield (&optional process-to-run)
(mp:process-allow-schedule process-to-run))
(defun glisp::mp/process-wait (whostate predicate)
(mp:process-wait whostate predicate))
;; ACL is incapable to define compiler macros on (setf foo)
;; Unfortunately it is also incapable to declaim such functions inline.
;; So we revoke the DEFUN hack from dep-gcl here.
(defmacro glisp::defsubst (fun args &body body)
(if (and (consp fun) (eq (car fun) 'setf))
(let ((fnam (intern (concatenate 'string "(SETF " (symbol-name (cadr fun)) ")")
(symbol-package (cadr fun)))))
`(progn
(defsetf ,(cadr fun) (&rest ap) (new-value) (list* ',fnam new-value ap))
(glisp::defsubst ,fnam ,args .,body)))
`(progn
(defun ,fun ,args .,body)
(define-compiler-macro ,fun (&rest .args.)
(cons '(lambda ,args .,body)
.args.)))))
(defun glisp::getenv (string)
(sys:getenv string))

162
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@ -1,162 +0,0 @@
;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: CL-USER; Encoding: utf-8; -*-
;;; ---------------------------------------------------------------------------
;;; Title: ACL-5.0 dependent stuff + fixups
;;; Created: 1999-05-25 22:32
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; License: GPL (See file COPYING for details).
;;; ---------------------------------------------------------------------------
;;; (c) copyright 1998,1999 by Gilbert Baumann
;;; 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
;;; Changes
;;; =======
;;; When Who What
;;; ---------------------------------------------------------------------------
;;; 2002-01-04 GB spend BLOCK for DEFSUBST
;;; 1999-08-31 SES Stig Erik Sandø <stig@ii.uib.no>
;;;
;;; Changed #+allegro-v5.0 to
;;; #+(and allegro-version>= (version>= 5))
;;;
(export 'glisp::read-byte-sequence :glisp)
(export 'glisp::read-char-sequence :glisp)
(export 'glisp::run-unix-shell-command :glisp)
(export 'glisp::mp/process-run-function :glisp)
(export 'glisp::mp/process-kill :glisp)
(export 'glisp::mp/current-process :glisp)
(export 'glisp::mp/seize-lock :glisp)
(export 'glisp::mp/release-lock :glisp)
(export 'glisp::mp/process-yield :glisp)
(export 'glisp::mp/process-wait :glisp)
(export 'glisp::getenv :glisp)
(export 'glisp::make-server-socket :glisp)
(defun glisp::mp/seize-lock (lock &key whostate)
whostate
(mp:process-lock lock))
(defun glisp::mp/release-lock (lock)
(mp:process-unlock lock))
(defun glisp::read-byte-sequence (&rest ap)
(apply #'read-sequence ap))
(defun glisp::read-char-sequence (&rest ap)
(apply #'read-sequence ap))
#+(and allegro-version>= (version>= 5))
(defun glisp::open-inet-socket (hostname port)
(values
(socket:make-socket :remote-host hostname
:remote-port port
:format :binary)
:byte))
(defun glisp::make-server-socket (port &key (element-type '(unsigned-byte 8)))
(socket:make-socket :connect :passive
:local-port port
:format (cond ((subtypep element-type '(unsigned-byte 8))
:binary)
((subtypep element-type 'character)
:text)
(t
(error "Unknown element type: ~S." element-type)))))
(defun glisp::accept-connection/low (socket)
(values
(socket:accept-connection socket :wait t)
:byte))
#-(and allegro-version>= (version>= 5))
(defun glisp::open-inet-socket (hostname port)
(values
(ipc:open-network-stream :host hostname
:port port
:element-type '(unsigned-byte 8)
:class 'EXCL::BIDIRECTIONAL-BINARY-SOCKET-STREAM)
:byte))
(defun glisp::mp/make-lock (&key name)
(mp:make-process-lock :name name))
(defmacro glisp::mp/with-lock ((lock) &body body)
`(mp:with-process-lock (,lock)
,@body))
(defmacro glisp::with-timeout ((&rest options) &body body)
`(mp:with-timeout ,options . ,body))
(defun glisp::g/make-string (length &rest options)
(apply #'make-array length :element-type 'base-char options))
(defun glisp:run-unix-shell-command (cmd)
(excl:shell cmd))
(defparameter glisp::*inherited-vars*
'(*terminal-io* *standard-input* *standard-output* *error-output* *trace-output* *query-io* *debug-io*))
(defparameter glisp::*inherited-vars* nil)
(defun glisp:mp/process-run-function (name fn &rest args)
(mp:process-run-function
name
(lambda (vars vals fn args)
(progv vars vals
(apply fn args)))
glisp::*inherited-vars* (mapcar #'symbol-value glisp::*inherited-vars*)
fn args))
(defun glisp:mp/current-process ()
sys:*current-process*)
(defun glisp::mp/process-yield (&optional process-to-run)
(mp:process-allow-schedule process-to-run))
(defun glisp::mp/process-wait (whostate predicate)
(mp:process-wait whostate predicate))
(defun glisp::mp/process-kill (proc)
(mp:process-kill proc))
;; ACL is incapable to define compiler macros on (setf foo)
;; Unfortunately it is also incapable to declaim such functions inline.
;; So we revoke the DEFUN hack from dep-gcl here.
(defmacro glisp::defsubst (fun args &body body)
(if (and (consp fun) (eq (car fun) 'setf))
(let ((fnam (intern (concatenate 'string "(SETF " (symbol-name (cadr fun)) ")")
(symbol-package (cadr fun)))))
`(progn
(defsetf ,(cadr fun) (&rest ap) (new-value) (list* ',fnam new-value ap))
(glisp::defsubst ,fnam ,args .,body)))
(labels ((declp (x)
(and (consp x) (eq (car x) 'declare))))
`(progn
(defun ,fun ,args .,body)
(define-compiler-macro ,fun (&rest .args.)
(cons '(lambda ,args
,@(remove-if-not #'declp body)
(block ,fun
,@(remove-if #'declp body)))
.args.))))))
(defun glisp::getenv (string)
(sys:getenv string))

176
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@ -1,176 +0,0 @@
;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: CL-USER; -*-
;;; ---------------------------------------------------------------------------
;;; Title: CLISP dependent stuff + fixups
;;; Created: 1999-05-25 22:32
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; License: GPL (See file COPYING for details).
;;; ---------------------------------------------------------------------------
;;; (c) copyright 1999 by Gilbert Baumann
;;; 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
(in-package :CL-USER)
(eval-when (compile load eval)
(if (fboundp 'cl::define-compiler-macro)
(pushnew 'define-compiler-macro *features*)))
(setq lisp:*load-paths* '(#P"./"))
(import 'lisp:read-byte-sequence :glisp)
(export 'lisp:read-byte-sequence :glisp)
(import 'lisp:read-char-sequence :glisp)
(export 'lisp:read-char-sequence :glisp)
(export 'glisp::compile-file :glisp)
(export 'glisp::run-unix-shell-command :glisp)
(export 'glisp::make-server-socket :glisp)
#||
(export 'glisp::read-byte-sequence :glisp)
(defun glisp::read-byte-sequence (sequence input &key (start 0) (end (length sequence)))
(let (c (i start))
(loop
(cond ((= i end) (return i)))
(setq c (read-byte input nil :eof))
(cond ((eql c :eof) (return i)))
(setf (aref sequence i) c)
(incf i) )))
||#
(defun glisp::compile-file (&rest ap)
(and (apply #'compile-file ap)
(apply #'compile-file-pathname ap)))
(defmacro glisp::with-timeout ((&rest ignore) &body body)
(declare (ignore ignore))
`(progn
,@body))
(defun glisp::open-inet-socket (hostname port)
(values
(lisp:socket-connect port hostname)
:byte))
(defun glisp:make-server-socket (port)
(lisp:socket-server port))
(defun glisp::accept-connection/low (socket)
(let ((stream (lisp:socket-accept socket)))
(setf (stream-element-type stream) '(unsigned-byte 8))
(values
stream
:byte)))
(defun glisp::g/make-string (length &rest options)
(apply #'make-array length
:element-type
'#.(cond ((stringp (make-array 1 :element-type 'string-char))
'string-char)
((stringp (make-array 1 :element-type 'base-char))
'base-char)
(t
(error "What is the string element type of the day?")))
options))
(defun glisp:run-unix-shell-command (command)
(lisp:shell command))
#+DEFINE-COMPILER-MACRO
(cl:define-compiler-macro ldb (bytespec value &whole whole)
(let (pos size)
(cond ((and (consp bytespec)
(= (length bytespec) 3)
(eq (car bytespec) 'byte)
(constantp (setq size (second bytespec)))
(constantp (setq pos (third bytespec))))
`(logand ,(if (eql pos 0) value `(ash ,value (- ,pos)))
(1- (ash 1 ,size))))
(t
whole))))
#-DEFINE-COMPILER-MACRO
(progn
(export 'glisp::define-compiler-macro :glisp)
(defmacro glisp::define-compiler-macro (name args &body body)
(declare (ignore args body))
`(progn
',name)))
#||
(defun xlib:draw-glyph (drawable gcontext x y elt &rest more)
(apply #'xlib:draw-glyphs drawable gcontext x y (vector elt) more))
||#
(defmacro glisp::defsubst (name args &body body)
`(progn
(declaim (inline ,name))
(defun ,name ,args .,body)))
(export 'glisp::getenv :glisp)
(defun glisp::getenv (var)
(sys::getenv var))
(export 'glisp::mp/process-run-function :glisp)
(defun glisp:mp/process-run-function (name fn &rest args)
(apply #'mp:process-run-function name fn args))
(export 'glisp::mp/process-kill :glisp)
(defun glisp:mp/process-kill (proc)
(mp:process-kill proc))
(export 'glisp::mp/current-process :glisp)
(defun glisp:mp/current-process ()
(mp:current-process))
(export 'glisp::mp/seize-lock :glisp)
(defun glisp::mp/seize-lock (lock &key whostate)
whostate
(mp:process-lock lock))
(export 'glisp::mp/release-lock :glisp)
(defun glisp::mp/release-lock (lock)
(mp:process-unlock lock))
(export 'glisp::mp/process-yield :glisp)
(defun glisp::mp/process-yield (&optional process-to-run)
process-to-run
(mp:process-allow-schedule))
(export 'glisp::mp/process-wait :glisp)
(defun glisp::mp/process-wait (whostate predicate)
(mp::process-wait whostate predicate))
(defmacro glisp::mp/with-lock ((lock) &body body)
`(mp:with-process-lock (,lock)
,@body))
(defun glisp::mp/make-lock (&key name)
(mp:make-process-lock :name name))

212
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@ -1,212 +0,0 @@
;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: CL-USER; -*-
;;; ---------------------------------------------------------------------------
;;; Title: CMUCL dependent stuff + fixups
;;; Created: 1999-05-25 22:32
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; License: GPL (See file COPYING for details).
;;; ---------------------------------------------------------------------------
;;; (c) copyright 1999 by Gilbert Baumann
;;; 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
(export 'glisp::read-byte-sequence :glisp)
(export 'glisp::read-char-sequence :glisp)
(export 'glisp::run-unix-shell-command :glisp)
(export 'glisp::getenv :glisp)
(defun glisp::read-byte-sequence (&rest ap)
(apply #'read-sequence ap))
(defun glisp::read-char-sequence (&rest ap)
(apply #'read-sequence ap))
(defun glisp::read-byte-sequence (sequence input &key (start 0) (end (length sequence)))
(let (c (i start))
(loop
(cond ((= i end) (return i)))
(setq c (read-byte input nil :eof))
(cond ((eql c :eof) (return i)))
(setf (aref sequence i) c)
(incf i) )))
(defun glisp::read-byte-sequence (sequence input &key (start 0) (end (length sequence)))
(let ((r (read-sequence sequence input :start start :end end)))
(cond ((and (= r start) (> end start))
(let ((byte (read-byte input nil :eof)))
(cond ((eq byte :eof)
r)
(t
(setf (aref sequence start) byte)
(incf start)
(if (> end start)
(glisp::read-byte-sequence sequence input :start start :end end)
start)))))
(t
r))))
#||
(defun glisp::read-char-sequence (sequence input &key (start 0) (end (length sequence)))
(let (c (i start))
(loop
(cond ((= i end) (return i)))
(setq c (read-byte input nil :eof))
(cond ((eql c :eof) (return i)))
(setf (aref sequence i) c)
(incf i) )))
||#
(defmacro glisp::with-timeout ((&rest ignore) &body body)
(declare (ignore ignore))
`(progn
,@body))
(defun glisp::open-inet-socket (hostname port)
(let ((fd (extensions:connect-to-inet-socket hostname port)))
(values
(sys:make-fd-stream fd
:input t
:output t
:element-type '(unsigned-byte 8)
:name (format nil "Network connection to ~A:~D" hostname port))
:byte)))
(defun glisp::g/make-string (length &rest options)
(apply #'make-array length :element-type 'base-char options))
#||
RUN-PROGRAM is an external symbol in the EXTENSIONS package.
Function: #<Function RUN-PROGRAM {12E7B79}>
Function arguments:
(program args &key (env *environment-list*) (wait t) pty input
if-input-does-not-exist output (if-output-exists :error) (error :output)
(if-error-exists :error) status-hook)
Function documentation:
Run-program creates a new process and runs the unix progam in the
file specified by the simple-string program. Args are the standard
arguments that can be passed to a Unix program, for no arguments
use NIL (which means just the name of the program is passed as arg 0).
Run program will either return NIL or a PROCESS structure. See the CMU
Common Lisp Users Manual for details about the PROCESS structure.
The keyword arguments have the following meanings:
:env -
An A-LIST mapping keyword environment variables to simple-string
values.
:wait -
If non-NIL (default), wait until the created process finishes. If
NIL, continue running Lisp until the program finishes.
:pty -
Either T, NIL, or a stream. Unless NIL, the subprocess is established
under a PTY. If :pty is a stream, all output to this pty is sent to
this stream, otherwise the PROCESS-PTY slot is filled in with a stream
connected to pty that can read output and write input.
:input -
Either T, NIL, a pathname, a stream, or :STREAM. If T, the standard
input for the current process is inherited. If NIL, /dev/null
is used. If a pathname, the file so specified is used. If a stream,
all the input is read from that stream and send to the subprocess. If
:STREAM, the PROCESS-INPUT slot is filled in with a stream that sends
its output to the process. Defaults to NIL.
:if-input-does-not-exist (when :input is the name of a file) -
can be one of:
:error - generate an error.
:create - create an empty file.
nil (default) - return nil from run-program.
:output -
Either T, NIL, a pathname, a stream, or :STREAM. If T, the standard
output for the current process is inherited. If NIL, /dev/null
is used. If a pathname, the file so specified is used. If a stream,
all the output from the process is written to this stream. If
:STREAM, the PROCESS-OUTPUT slot is filled in with a stream that can
be read to get the output. Defaults to NIL.
:if-output-exists (when :input is the name of a file) -
can be one of:
:error (default) - generates an error if the file already exists.
:supersede - output from the program supersedes the file.
:append - output from the program is appended to the file.
nil - run-program returns nil without doing anything.
:error and :if-error-exists -
Same as :output and :if-output-exists, except that :error can also be
specified as :output in which case all error output is routed to the
same place as normal output.
:status-hook -
This is a function the system calls whenever the status of the
process changes. The function takes the process as an argument.
Its defined argument types are:
(T T &KEY (:ENV T) (:WAIT T) (:PTY T) (:INPUT T) (:IF-INPUT-DOES-NOT-EXIST T)
(:OUTPUT T) (:IF-OUTPUT-EXISTS T) (:ERROR T) (:IF-ERROR-EXISTS T)
(:STATUS-HOOK T))
Its result type is:
(OR EXTENSIONS::PROCESS NULL)
On Wednesday, 7/1/98 12:48:51 pm [-1] it was compiled from:
target:code/run-program.lisp
Created: Saturday, 6/20/98 07:13:08 pm [-1]
Comment: $Header: /home/david/gitconversion/cvsroot/cxml/glisp/Attic/dep-cmucl-dtc.lisp,v 1.1 2005-03-13 18:02:10 david Exp $
||#
;; (process-exit-code (run-program "/bin/sh" (list "-c" "ls") :wait t :input nil :output nil))
(defun glisp:run-unix-shell-command (command)
(ext:process-exit-code (ext:run-program "/bin/sh" (list "-c" command) :wait t :input nil :output nil)))
(defmacro glisp::defsubst (name args &body body)
`(progn
(declaim (inline ,name))
(defun ,name ,args .,body)))
;;; MP
(export 'glisp::mp/process-yield :glisp)
(export 'glisp::mp/process-wait :glisp)
(export 'glisp::mp/process-run-function :glisp)
(export 'glisp::mp/make-lock :glisp)
(export 'glisp::mp/current-process :glisp)
(export 'glisp::mp/process-kill :glisp)
(defun glisp::mp/make-lock (&key name)
(pthread::make-lock name))
(defmacro glisp::mp/with-lock ((lock) &body body)
`(pthread::with-lock-held (,lock)
,@body))
(defun glisp::mp/process-yield (&optional process-to-run)
(declare (ignore process-to-run))
(PTHREAD:SCHED-YIELD))
(defun glisp::mp/process-wait (whostate predicate)
(do ()
((funcall predicate))
(sleep .1)))
(defun glisp::mp/process-run-function (name fun &rest args)
(pthread::thread-create
(lambda ()
(apply fun args))
:name name))
(defun glisp::mp/current-process ()
'blah)
(defun glisp::mp/process-kill (process)
(warn "*** Define GLISP:MP/PROCESS-KILL for CMUCL."))
(defun glisp::getenv (string)
(cdr (assoc string ext:*environment-list* :test #'string-equal)))

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;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: CL-USER; -*-
;;; ---------------------------------------------------------------------------
;;; Title: CMUCL dependent stuff + fixups
;;; Created: 1999-05-25 22:32
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; License: GPL (See file COPYING for details).
;;; ---------------------------------------------------------------------------
;;; (c) copyright 1999 by Gilbert Baumann
;;; 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
(export 'glisp::read-byte-sequence :glisp)
(export 'glisp::read-char-sequence :glisp)
(export 'glisp::run-unix-shell-command :glisp)
(export 'glisp::getenv :glisp)
(export 'glisp::make-server-socket :glisp)
(export 'glisp::close-server-socket :glisp)
(defun glisp::read-byte-sequence (&rest ap)
(apply #'read-sequence ap))
(defun glisp::read-char-sequence (&rest ap)
(apply #'read-sequence ap))
(defun glisp::read-byte-sequence (sequence input &key (start 0) (end (length sequence)))
(let (c (i start))
(loop
(cond ((= i end) (return i)))
(setq c (read-byte input nil :eof))
(cond ((eql c :eof) (return i)))
(setf (aref sequence i) c)
(incf i) )))
(defun glisp::read-byte-sequence (sequence input &key (start 0) (end (length sequence)))
(let ((r (read-sequence sequence input :start start :end end)))
(cond ((and (= r start) (> end start))
(let ((byte (read-byte input nil :eof)))
(cond ((eq byte :eof)
r)
(t
(setf (aref sequence start) byte)
(incf start)
(if (> end start)
(glisp::read-byte-sequence sequence input :start start :end end)
start)))))
(t
r))))
#||
(defun glisp::read-char-sequence (sequence input &key (start 0) (end (length sequence)))
(let (c (i start))
(loop
(cond ((= i end) (return i)))
(setq c (read-byte input nil :eof))
(cond ((eql c :eof) (return i)))
(setf (aref sequence i) c)
(incf i) )))
||#
(defmacro glisp::with-timeout ((&rest ignore) &body body)
(declare (ignore ignore))
`(progn
,@body))
(defun glisp::open-inet-socket (hostname port)
(let ((fd (extensions:connect-to-inet-socket hostname port)))
(values
(sys:make-fd-stream fd
:input t
:output t
:element-type '(unsigned-byte 8)
:name (format nil "Network connection to ~A:~D" hostname port))
:byte)))
(defstruct (server-socket (:constructor make-server-socket-struct))
fd
element-type
port)
(defun glisp::make-server-socket (port &key (element-type '(unsigned-byte 8)))
(make-server-socket-struct :fd (ext:create-inet-listener port)
:element-type element-type
:port port))
(defun glisp::accept-connection/low (socket)
(mp:process-wait-until-fd-usable (server-socket-fd socket) :input)
(values
(sys:make-fd-stream (ext:accept-tcp-connection (server-socket-fd socket))
:input t :output t
:element-type (server-socket-element-type socket))
(cond ((subtypep (server-socket-element-type socket) 'integer)
:byte)
(t
:char))))
(defun glisp::close-server-socket (socket)
(unix:unix-close (server-socket-fd socket)))
;;;;;;
(defun glisp::g/make-string (length &rest options)
(apply #'make-array length :element-type 'base-char options))
#||
RUN-PROGRAM is an external symbol in the EXTENSIONS package.
Function: #<Function RUN-PROGRAM {12E7B79}>
Function arguments:
(program args &key (env *environment-list*) (wait t) pty input
if-input-does-not-exist output (if-output-exists :error) (error :output)
(if-error-exists :error) status-hook)
Function documentation:
Run-program creates a new process and runs the unix progam in the
file specified by the simple-string program. Args are the standard
arguments that can be passed to a Unix program, for no arguments
use NIL (which means just the name of the program is passed as arg 0).
Run program will either return NIL or a PROCESS structure. See the CMU
Common Lisp Users Manual for details about the PROCESS structure.
The keyword arguments have the following meanings:
:env -
An A-LIST mapping keyword environment variables to simple-string
values.
:wait -
If non-NIL (default), wait until the created process finishes. If
NIL, continue running Lisp until the program finishes.
:pty -
Either T, NIL, or a stream. Unless NIL, the subprocess is established
under a PTY. If :pty is a stream, all output to this pty is sent to
this stream, otherwise the PROCESS-PTY slot is filled in with a stream
connected to pty that can read output and write input.
:input -
Either T, NIL, a pathname, a stream, or :STREAM. If T, the standard
input for the current process is inherited. If NIL, /dev/null
is used. If a pathname, the file so specified is used. If a stream,
all the input is read from that stream and send to the subprocess. If
:STREAM, the PROCESS-INPUT slot is filled in with a stream that sends
its output to the process. Defaults to NIL.
:if-input-does-not-exist (when :input is the name of a file) -
can be one of:
:error - generate an error.
:create - create an empty file.
nil (default) - return nil from run-program.
:output -
Either T, NIL, a pathname, a stream, or :STREAM. If T, the standard
output for the current process is inherited. If NIL, /dev/null
is used. If a pathname, the file so specified is used. If a stream,
all the output from the process is written to this stream. If
:STREAM, the PROCESS-OUTPUT slot is filled in with a stream that can
be read to get the output. Defaults to NIL.
:if-output-exists (when :input is the name of a file) -
can be one of:
:error (default) - generates an error if the file already exists.
:supersede - output from the program supersedes the file.
:append - output from the program is appended to the file.
nil - run-program returns nil without doing anything.
:error and :if-error-exists -
Same as :output and :if-output-exists, except that :error can also be
specified as :output in which case all error output is routed to the
same place as normal output.
:status-hook -
This is a function the system calls whenever the status of the
process changes. The function takes the process as an argument.
Its defined argument types are:
(T T &KEY (:ENV T) (:WAIT T) (:PTY T) (:INPUT T) (:IF-INPUT-DOES-NOT-EXIST T)
(:OUTPUT T) (:IF-OUTPUT-EXISTS T) (:ERROR T) (:IF-ERROR-EXISTS T)
(:STATUS-HOOK T))
Its result type is:
(OR EXTENSIONS::PROCESS NULL)
On Wednesday, 7/1/98 12:48:51 pm [-1] it was compiled from:
target:code/run-program.lisp
Created: Saturday, 6/20/98 07:13:08 pm [-1]
Comment: $Header: /home/david/gitconversion/cvsroot/cxml/glisp/Attic/dep-cmucl.lisp,v 1.1 2005-03-13 18:02:10 david Exp $
||#
;; (process-exit-code (run-program "/bin/sh" (list "-c" "ls") :wait t :input nil :output nil))
(defun glisp:run-unix-shell-command (command)
(ext:process-exit-code (ext:run-program "/bin/sh" (list "-c" command) :wait t :input nil :output nil)))
(defmacro glisp::defsubst (name args &body body)
`(progn
(declaim (inline ,name))
(defun ,name ,args .,body)))
;;; MP
(export 'glisp::mp/process-yield :glisp)
(export 'glisp::mp/process-wait :glisp)
(export 'glisp::mp/process-run-function :glisp)
(export 'glisp::mp/make-lock :glisp)
(export 'glisp::mp/current-process :glisp)
(export 'glisp::mp/process-kill :glisp)
(defun glisp::mp/make-lock (&key name)
(mp:make-lock name))
(defmacro glisp::mp/with-lock ((lock) &body body)
`(mp:with-lock-held (,lock)
,@body))
(defun glisp::mp/process-yield (&optional process-to-run)
(declare (ignore process-to-run))
(mp:process-yield))
(defun glisp::mp/process-wait (whostate predicate)
(mp:process-wait whostate predicate))
(defun glisp::mp/process-run-function (name fun &rest args)
(mp:make-process
(lambda ()
(apply fun args))
:name name))
(defun glisp::mp/current-process ()
mp:*current-process*)
(defun glisp::mp/process-kill (process)
(mp:destroy-process process))
(defun glisp::getenv (string)
(cdr (assoc string ext:*environment-list* :test #'string-equal)))

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;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: GLISP; -*-
;;; ---------------------------------------------------------------------------
;;; Title: Second part of GCL dependent stuff
;;; Created: 1999-05-25 22:31
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; License: GPL (See file COPYING for details).
;;; ---------------------------------------------------------------------------
;;; (c) copyright 1999 by Gilbert Baumann
;;; 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
(in-package :GLISP)
(lisp::clines
"#include <stdio.h>"
"#include <unistd.h>"
"#include <sys/stat.h>"
"#include <sys/socket.h>"
"#include <netinet/in.h>"
"#include <stdlib.h>"
"#include <fcntl.h>"
"#include <resolv.h>"
)
(lisp::defcfun "static object open_inet_socket_aux (object x, object y, char *hostname, int port)" 2
"FILE *fp;"
"object stream;"
"struct hostent *hostinfo;"
"struct sockaddr_in addr;"
"int sock;"
"vs_mark;"
"hostinfo = gethostbyname (hostname);"
"if (hostinfo == 0)"
"{"
" return Cnil;"
"}"
"addr.sin_family = AF_INET;"
"addr.sin_port = htons (port);"
"addr.sin_addr = *(struct in_addr*) hostinfo->h_addr;"
""
"sock = socket (PF_INET, SOCK_STREAM, 0);"
"if (sock < 0)"
" return Cnil;"
""
"if (connect (sock, (struct sockaddr *) &addr, sizeof (addr)) != 0)"
"{"
" close (sock);"
" return Cnil;"
"}"
"fp = fdopen (sock, \"rb+\");"
"stream = (object) alloc_object(t_stream);"
"stream->sm.sm_mode = (short)smm_io;"
"stream->sm.sm_fp = fp;"
"stream->sm.sm_object0 = x;"
"stream->sm.sm_object1 = y;"
"stream->sm.sm_int0 = stream->sm.sm_int1 = 0;"
"vs_push(stream);"
"setup_stream_buffer(stream);"
"vs_reset;"
"return stream;"
)
(lisp::defentry open-inet-socket-aux (lisp::object lisp::object lisp::string lisp::int)
(lisp::object "open_inet_socket_aux"))
(lisp::defentry unix/system (lisp::string)
(lisp::int "system"))
(defun open-inet-socket (hostname port)
(values (or (open-inet-socket-aux '(unsigned-byte 8)
(format nil "Network connection to ~A:~D" hostname port)
hostname port)
(error "Cannot connect to `~A' on port ~D."
hostname port))
:byte))

344
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@ -1,344 +0,0 @@
;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: CL-USER; -*-
;;; ---------------------------------------------------------------------------
;;; Title: GCL dependent stuff + fixups
;;; Created: 1999-05-25 22:31
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; License: GPL (See file COPYING for details).
;;; ---------------------------------------------------------------------------
;;; (c) copyright 1999 by Gilbert Baumann
;;; 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
(shadow '(make-pathname pathname-directory) :glisp)
(export '(glisp::defun
glisp::read-byte-sequence
glisp::read-char-sequence
glisp::define-compiler-macro
glisp::formatter
glisp::destructuring-bind
glisp::parse-macro
glisp::loop
glisp::*print-readably*
glisp::compile-file-pathname
glisp::ignore-errors
glisp::pathname-directory
glisp::make-pathname
glisp::run-unix-shell-command)
:glisp)
(defmacro glisp::defun (name args &body body)
(cond ((and (consp name)
(eq (car name) 'setf))
(let ((fnam (intern (concatenate 'string "(SETF " (symbol-name (cadr name)) ")")
(symbol-package (cadr name)))))
`(progn
(defsetf ,(cadr name) (&rest ap) (new-value) (list* ',fnam new-value ap))
(defun ,fnam ,args .,body))))
(t
`(defun ,name ,args .,body)) ))
(defun glisp::read-byte-sequence (sequence input &key (start 0) (end (length sequence)))
(let (c (i start))
(loop
(cond ((= i end) (return i)))
(setq c (read-byte input nil :eof))
(cond ((eql c :eof) (return i)))
(setf (aref sequence i) c)
(incf i) )))
(defun glisp::read-char-sequence (sequence input &key (start 0) (end (length sequence)))
(let (c (i start))
(loop
(cond ((= i end) (return i)))
(setq c (read-char input nil :eof))
(cond ((eql c :eof) (return i)))
(setf (aref sequence i) c)
(incf i) )))
(defmacro glisp::define-compiler-macro (&rest ignore)
ignore
nil)
(defun glisp::formatter (string)
#'(lambda (sink &rest ap)
(apply #'format sink string ap)))
(defmacro lambda (&rest x)
`#'(lambda .,x))
(defun glisp::row-major-aref (array index)
;; Wir sollten hier wirklich was effizienteres haben
(aref (make-array (array-total-size array)
:displaced-to array
:element-type (array-element-type array))
index))
(glisp::defun (setf glisp::row-major-aref) (value array index)
;; Wir sollten hier wirklich was effizienteres haben
(setf (aref (make-array (array-total-size array)
:displaced-to array
:element-type (array-element-type array))
index)
value))
(defun glisp::mp/make-lock (&key name)
name
nil)
(defmacro glisp::mp/with-lock ((lock) &body body)
(declare (ignore lock))
`(progn
,@body))
(defmacro glisp::with-timeout ((&rest ignore) &body body)
(declare (ignore ignore))
`(progn
,@body))
(defvar glisp::*print-readably* nil)
(defun glisp::g/make-string (length &rest options)
(apply #'make-array length :element-type 'string-char options))
(defun parse-macro-lambda-list (name lambda-list whole &optional environment-value (real-whole whole))
"The work horse for destructing-bind and parse-macro."
(let ((orig-lambda-list lambda-list)
required optionals rest-var keys aux-vars whole-var env-var
allow-other-keys-p
(my-lambda-list-keywords '(&OPTIONAL &REST &KEY &AUX &BODY)))
(labels ((COLLECT (&optional on-keys-p)
(let (result)
(do ()
((or (atom lambda-list) (member (car lambda-list) my-lambda-list-keywords))
(nreverse result))
(cond ((eq (car lambda-list) '&WHOLE)
(push (cadr lambda-list) whole-var)
(setf lambda-list (cddr lambda-list)))
((eq (car lambda-list) '&ENVIRONMENT)
(push (cadr lambda-list) env-var)
(setf lambda-list (cddr lambda-list)))
((eq (car lambda-list) '&ALLOW-OTHER-KEYS)
(unless on-keys-p
(cerror "Ignore this syntax restriction and set the allow-other-keys-p flag."
"In lambda list of macro ~S: &ALLOW-OTHER-KEYS may only be specified ~
in the &KEYS section: ~S"
name orig-lambda-list))
(setq allow-other-keys-p T lambda-list (cdr lambda-list)))
(T (push (pop lambda-list) result)) ))) )
(CHECK-ONLY-ONE (kind lst)
(unless (<= (length lst) 1)
(error "In lambda list of macro ~S: You may only specify one ~S parameter, but I got ~S.~%~
Lambda list: ~S."
name kind lst orig-lambda-list))
(car lst)) )
;; Now collect the various elements of the lambda-list
(setq required (collect))
(when (and (consp lambda-list) (eq (car lambda-list) '&OPTIONAL)) (pop lambda-list) (setq optionals (collect)))
(when (and (consp lambda-list) (member (car lambda-list) '(&REST &BODY))) (pop lambda-list) (setq rest-var (collect)))
(when (and (consp lambda-list) (eq (car lambda-list) '&KEY)) (pop lambda-list) (setq keys (collect T)))
(when (and (consp lambda-list) (eq (car lambda-list) '&AUX)) (pop lambda-list) (setq aux-vars (collect)))
;; Inspect the remaining value of lambda-list
(cond ((consp lambda-list)
;; Not all was parsed correctly ...
(error "In lambda list of macro ~S: Found lambda list keyword ~S out of order;~%~
The order must be &OPTIONAL, &REST/&BODY, &KEY, &AUX; &WHOLE and &ENVIRONMENT may apear anywhere.~%~
Lambda list: ~S."
name (car lambda-list) orig-lambda-list))
((null lambda-list)) ; Everything is just fine.
((symbolp lambda-list)
;; Dotted with a symbol = specification of a rest-var
(push lambda-list rest-var))
(T
;; List is odd-ly dotted.
(error "In lambda list of macro ~S: A lambda list may only be dotted with a symbol.~%~
Lambda list: ~S."
name orig-lambda-list)) )
;; Now check for rest-var, whole-var and env-var, which may all specify only one variable ...
(setf rest-var (check-only-one '&REST rest-var))
(setf whole-var (check-only-one '&WHOLE whole-var))
(when (and env-var (not environment-value))
(cerror "Ignore the &ENVIRONMENT parameter."
"In lambda list of macro ~S: An &ENVIRONMENT parameter may only be specified on the top-level lambda list.~%~
Lambda list: ~S."
name orig-lambda-list)
(setq env-var nil))
(setf env-var (check-only-one '&ENVIRONMENT env-var))
(when (and (null rest-var) keys)
(setf rest-var (gensym)))
;; Build up the bindings
(let ((bindings nil) (constraints nil) (w whole))
(labels ((add-one (x) (add (list x)))
(add-bind (spec val)
(if (consp spec)
(let ((gsym (gensym)))
(add-one `(,gsym ,val))
(multiple-value-bind (bndngs cnstrnts) (parse-macro-lambda-list name spec gsym)
(add bndngs)
(setq contraints (nconc constraints cnstrnts))) )
(add-one `(,spec ,val))))
(add (x) (setf bindings (nconc bindings x))))
(when whole-var
(add-one `(,whole-var ,real-whole))
(when (eq whole real-whole) (setq w whole-var)))
;; Calculate the constraints ...
(let ((min nil)
(max nil))
(when (or required optionals rest-var) (setq min (length required)))
(when (and (null rest-var) (or required optionals))
(setq max (+ (length required) (length optionals))))
(cond ((and (null min) (null max)))
((eql min max)
(push `(listp ,w) constraints)
(push `(= (length ,w) ,min) constraints))
(T
(push `(listp ,w) constraints)
(when (and min (> min 0)) (push `(>= (length ,w) ,min) constraints))
(when max (push `(<= (length ,w) ,max) constraints))) ))
(setq constraints (nreverse constraints))
(dolist (spec required)
(add-bind spec `(CAR ,w))
(setf w (list 'cdr w)))
(dolist (spec optionals)
;; CHECK
(cond ((consp spec)
(when (caddr spec) ;svar
(add-one `(,(caddr spec) (NOT (NULL ,w)))))
(add-bind (car spec) `(if (NOT (NULL ,w)) (CAR ,w) ,(cadr spec))))
(T
(add-one `(,spec (CAR ,w)))) )
(setf w (list 'cdr w)))
(when rest-var (add-one `(,rest-var ,w)))
(dolist (spec keys)
;; CHECK
(let (kw var svar default)
(cond ((consp spec)
(setq var (car spec) default (cadr spec) svar (caddr spec))
(when (consp var) (setq kw (car var) var (cadr var))))
(T (setq var spec default nil svar nil)))
;; SVAR
(unless kw (setq kw (intern (symbol-name var) :keyword)))
(add-bind var `(getf ,rest-var ,kw ,default)) ))
(dolist (spec aux-vars) (add-one spec))
(when env-var
(add-one `(,env-var ,environment-value)))
(values bindings constraints env-var)) ))))
(defun glisp::parse-macro (name lambda-list body &optional env)
"This is used to process a macro definition in the same way as defmacro and
macrolet. It returns a lambda-expression that accepts two arguments, a form
and an environment. The name, lambda-list, and body arguments correspond to
the parts of a defmacro or macrolet definition.
The lambda-list argument may inclue &environment and &whole and may include
destructing. The name argument is used to enclose the body in an implicat
block and might also be used for implementation-depend purposes (such as
including the name of the macro in error messages if the form does not match
the lambda-list)."
(let ((call (gensym)) (env (gensym)))
(multiple-value-bind (bindings constraints)
(parse-macro-lambda-list name lambda-list `(CDR call) env call)
`(lambda (,call ,env)
(block ,name
(let* ,bindings
(unless (and ,@constraints)
(error "Macro ~S called with wrong number/nesting of arguments: ~S"
',name ,call))
,@body))) )) )
(defmacro glisp::destructuring-bind (lambda-list expression &body body)
"This macro binds the variables specified in lambda-list to the corresponding
values in the tree structure resulting from evaluating the expression, then
executes the forms as an implicit progn.
A destructing-bind lambda-list may contain the lambda-list keywords &optional,
&rest, &key, &allow-other-keys, and &aux; &body and &whole may also be used as
they are in defmacro, but &environment may not be used. Nested and dotted
lambda-lists are also permitted as for defmacro. The idea is that a
destructing-bind lambda-list has the same format as inner levels of a defmacro
lambda-list.
If the result of evaluating the expressions does not match the destructuring
pattern, an error should be signaled."
(let ((call (gensym)))
(multiple-value-bind (bindings constraints)
(parse-macro-lambda-list nil lambda-list call)
`(let* ((,call ,expression) ,@bindings)
(unless (and ,@constraints)
(error "DESTRUCTING-BIND with wrong number/nesting of arguments: ~S~%~
Lambda list to match with: ~S." ,call ',lambda-list))
(locally ,@body)) )) )
(defmacro glisp::loop (&rest args)
`(sloop:sloop ,@args))
(defun glisp:compile-file-pathname (filename &rest options)
(declare (ignore options))
(merge-pathnames (make-pathname :type "o") filename))
(defmacro glisp:ignore-errors (&rest body)
`(IGNORE-ERRORS-FN #'(LAMBDA () ,@body)))
(defun ignore-errors-fn (cont)
(let ((old (symbol-function 'system:universal-error-handler)))
(block foo
(unwind-protect
(progn
(setf (symbol-function 'system:universal-error-handler)
#'(lambda (&rest x)
(return-from foo (values nil x))))
(funcall cont) )
(setf (symbol-function 'system:universal-error-handler) old) ))))
(defun glisp::make-pathname (&rest args &key directory &allow-other-keys)
(cond ((eq (car directory) :relative)
(apply #'lisp:make-pathname :directory (cdr directory) args))
((eq (car directory) :absolute)
(apply #'lisp:make-pathname :directory (cons :root (cdr directory)) args))
(t
(apply #'lisp:make-pathname args))))
(defun glisp::pathname-directory (pathname)
(let ((d (lisp:pathname-directory pathname)))
(cond ((eq (car d) :root)
(cons :absolute (cdr d)))
(t
(cons :relative d)))))
(defun glisp::run-unix-shell-command (cmd)
(glisp::unix/system cmd))

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@ -1,141 +0,0 @@
;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: CL-USER; -*-
;;; ---------------------------------------------------------------------------
;;; Title: SBCL dependent stuff + fixups
;;; Created: 1999-05-25 22:32
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; License: GPL (See file COPYING for details).
;;; ---------------------------------------------------------------------------
;;; (c) copyright 1999 by Gilbert Baumann
;;; 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
(export 'glisp::read-byte-sequence :glisp)
(export 'glisp::read-char-sequence :glisp)
(export 'glisp::run-unix-shell-command :glisp)
(export 'glisp::getenv :glisp)
(export 'glisp::make-server-socket :glisp)
(export 'glisp::close-server-socket :glisp)
(defun glisp::read-byte-sequence (&rest ap)
(apply #'read-sequence ap))
(defun glisp::read-char-sequence (&rest ap)
(apply #'read-sequence ap))
(defmacro glisp::with-timeout ((&rest options) &body body)
(declare (ignore ignore))
`(progn
,@body))
(defun glisp::open-inet-socket (hostname port)
(values
(sb-bsd-sockets:socket-make-stream
(let ((host (car (sb-bsd-sockets:host-ent-addresses
(sb-bsd-sockets:get-host-by-name hostname)))))
(when host
(let ((s (make-instance 'sb-bsd-sockets:inet-socket
:type :stream :protocol :tcp)))
(sb-bsd-sockets:socket-connect s host port)
s)))
:element-type '(unsigned-byte 8)
:input t :output t)
:byte))
(defstruct (server-socket (:constructor make-server-socket-struct))
fd
element-type
port)
#||
(defun glisp::make-server-socket (port &key (element-type '(unsigned-byte 8)))
(make-server-socket-struct :fd (ext:create-inet-listener port)
:element-type element-type
:port port))
(defun glisp::accept-connection/low (socket)
(mp:process-wait-until-fd-usable (server-socket-fd socket) :input)
(values
(sys:make-fd-stream (ext:accept-tcp-connection (server-socket-fd socket))
:input t :output t
:element-type (server-socket-element-type socket))
(cond ((subtypep (server-socket-element-type socket) 'integer)
:byte)
(t
:char))))
(defun glisp::close-server-socket (socket)
(unix:unix-close (server-socket-fd socket)))
||#
;;;;;;
(defun glisp::g/make-string (length &rest options)
(apply #'make-array length :element-type 'base-char options))
(defun glisp::run-unix-shell-command (command)
(sb-impl::process-exit-code
(sb-ext:run-program "/bin/sh" (list "-c" command) :wait t :input nil
:output nil)))
(defmacro glisp::defsubst (name args &body body)
`(progn
(declaim (inline ,name))
(defun ,name ,args .,body)))
;;; MP
(export 'glisp::mp/process-yield :glisp)
(export 'glisp::mp/process-wait :glisp)
(export 'glisp::mp/process-run-function :glisp)
(export 'glisp::mp/make-lock :glisp)
(export 'glisp::mp/current-process :glisp)
(export 'glisp::mp/process-kill :glisp)
(defun glisp::mp/make-lock (&key name)
(clim-sys::make-lock name))
(defmacro glisp::mp/with-lock ((lock) &body body)
`(clim-sys:with-lock-held (,lock)
,@body))
(defun glisp::mp/process-yield (&optional process-to-run)
(declare (ignore process-to-run))
(clim-sys:process-yield))
(defun glisp::mp/process-wait (whostate predicate)
(clim-sys:process-wait whostate predicate))
(defun glisp::mp/process-run-function (name fun &rest args)
(clim-sys:make-process
(lambda ()
(apply fun args))
:name name))
(defun glisp::mp/current-process ()
(clim-sys:current-process))
(defun glisp::mp/process-kill (process)
(clim-sys:destroy-process process))
(defun glisp::getenv (string)
(sb-ext:posix-getenv string))

427
glisp/gendep.lisp
View File

@ -1,427 +0,0 @@
;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: CL-USER; -*-
;;; ---------------------------------------------------------------------------
;;; Title: Generating a sane DEFPACKAGE for GLISP
;;; Created: 1999-05-25 22:30
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; ---------------------------------------------------------------------------
;;; (c) copyright 1999 by Gilbert Baumann
(defparameter *all-ansi-symbols*
'("&ALLOW-OTHER-KEYS" "&AUX" "&BODY" "&ENVIRONMENT" "&KEY" "&OPTIONAL" "&REST" "&WHOLE" "*"
"**" "***" "*BREAK-ON-SIGNALS*" "*COMPILE-FILE-PATHNAME*" "*COMPILE-FILE-TRUENAME*"
"*COMPILE-PRINT*" "*COMPILE-VERBOSE*" "*DEBUG-IO*" "*DEBUGGER-HOOK*"
"*DEFAULT-PATHNAME-DEFAULTS*" "*ERROR-OUTPUT*" "*FEATURES*" "*GENSYM-COUNTER*"
"*LOAD-PATHNAME*" "*LOAD-PRINT*" "*LOAD-TRUENAME*" "*LOAD-VERBOSE*" "*MACROEXPAND-HOOK*"
"*MODULES*" "*PACKAGE*" "*PRINT-ARRAY*" "*PRINT-BASE*" "*PRINT-CASE*" "*PRINT-CIRCLE*"
"*PRINT-ESCAPE*" "*PRINT-GENSYM*" "*PRINT-LENGTH*" "*PRINT-LEVEL*" "*PRINT-LINES*"
"*PRINT-MISER-WIDTH*" "*PRINT-PPRINT-DISPATCH*" "*PRINT-PRETTY*" "*PRINT-RADIX*"
"*PRINT-READABLY*" "*PRINT-RIGHT-MARGIN*" "*QUERY-IO*" "*RANDOM-STATE*" "*READ-BASE*"
"*READ-DEFAULT-FLOAT-FORMAT*" "*READ-EVAL*" "*READ-SUPPRESS*" "*READTABLE*"
"*STANDARD-INPUT*" "*STANDARD-OUTPUT*" "*TERMINAL-IO*" "*TRACE-OUTPUT*" "+" "++" "+++" "-"
"/" "//" "///" "/=" "1+" "1-" "<" "<=" "=" ">" ">=" "ABORT" "ABS" "ACONS" "ACOS" "ACOSH"
"ADD-METHOD" "ADJOIN" "ADJUST-ARRAY" "ADJUSTABLE-ARRAY-P" "ALLOCATE-INSTANCE"
"ALPHA-CHAR-P" "ALPHANUMERICP" "AND" "APPEND" "APPLY" "APROPOS" "APROPOS-LIST" "AREF"
"ARITHMETIC-ERROR" "ARITHMETIC-ERROR-OPERANDS" "ARITHMETIC-ERROR-OPERATION" "ARRAY"
"ARRAY-DIMENSION" "ARRAY-DIMENSION-LIMIT" "ARRAY-DIMENSIONS" "ARRAY-DISPLACEMENT"
"ARRAY-ELEMENT-TYPE" "ARRAY-HAS-FILL-POINTER-P" "ARRAY-IN-BOUNDS-P" "ARRAY-RANK"
"ARRAY-RANK-LIMIT" "ARRAY-ROW-MAJOR-INDEX" "ARRAY-TOTAL-SIZE" "ARRAY-TOTAL-SIZE-LIMIT"
"ARRAYP" "ASH" "ASIN" "ASINH" "ASSERT" "ASSOC" "ASSOC-IF" "ASSOC-IF-NOT" "ATAN" "ATANH"
"ATOM" "BASE-CHAR" "BASE-STRING" "BIGNUM" "BIT" "BIT-AND" "BIT-ANDC1" "BIT-ANDC2"
"BIT-EQV" "BIT-IOR" "BIT-NAND" "BIT-NOR" "BIT-NOT" "BIT-ORC1" "BIT-ORC2" "BIT-VECTOR"
"BIT-VECTOR-P" "BIT-XOR" "BLOCK" "BOOLE" "BOOLE-1" "BOOLE-2" "BOOLE-AND" "BOOLE-ANDC1"
"BOOLE-ANDC2" "BOOLE-C1" "BOOLE-C2" "BOOLE-CLR" "BOOLE-EQV" "BOOLE-IOR" "BOOLE-NAND"
"BOOLE-NOR" "BOOLE-ORC1" "BOOLE-ORC2" "BOOLE-SET" "BOOLE-XOR" "BOOLEAN" "BOTH-CASE-P"
"BOUNDP" "BREAK" "BROADCAST-STREAM" "BROADCAST-STREAM-STREAMS" "BUILT-IN-CLASS" "BUTLAST"
"BYTE" "BYTE-POSITION" "BYTE-SIZE" "CAAAAR" "CAAADR" "CAAAR" "CAADAR" "CAADDR" "CAADR"
"CAAR" "CADAAR" "CADADR" "CADAR" "CADDAR" "CADDDR" "CADDR" "CADR" "CALL-ARGUMENTS-LIMIT"
"CALL-METHOD" "CALL-NEXT-METHOD" "CAR" "CASE" "CATCH" "CCASE" "CDAAAR" "CDAADR" "CDAAR"
"CDADAR" "CDADDR" "CDADR" "CDAR" "CDDAAR" "CDDADR" "CDDAR" "CDDDAR" "CDDDDR" "CDDDR"
"CDDR" "CDR" "CEILING" "CELL-ERROR" "CELL-ERROR-NAME" "CERROR" "CHANGE-CLASS" "CHAR"
"CHAR-CODE" "CHAR-CODE-LIMIT" "CHAR-DOWNCASE" "CHAR-EQUAL" "CHAR-GREATERP" "CHAR-INT"
"CHAR-LESSP" "CHAR-NAME" "CHAR-NOT-EQUAL" "CHAR-NOT-GREATERP" "CHAR-NOT-LESSP"
"CHAR-UPCASE" "CHAR/=" "CHAR<" "CHAR<=" "CHAR=" "CHAR>" "CHAR>=" "CHARACTER" "CHARACTERP"
"CHECK-TYPE" "CIS" "CLASS" "CLASS-NAME" "CLASS-OF" "CLEAR-INPUT" "CLEAR-OUTPUT" "CLOSE"
"CLRHASH" "CODE-CHAR" "COERCE" "COMPILATION-SPEED" "COMPILE" "COMPILE-FILE"
"COMPILE-FILE-PATHNAME" "COMPILED-FUNCTION" "COMPILED-FUNCTION-P" "COMPILER-MACRO"
"COMPILER-MACRO-FUNCTION" "COMPLEMENT" "COMPLEX" "COMPLEXP" "COMPUTE-APPLICABLE-METHODS"
"COMPUTE-RESTARTS" "CONCATENATE" "CONCATENATED-STREAM" "CONCATENATED-STREAM-STREAMS"
"COND" "CONDITION" "CONJUGATE" "CONS" "CONSP" "CONSTANTLY" "CONSTANTP" "CONTINUE"
"CONTROL-ERROR" "COPY-ALIST" "COPY-LIST" "COPY-PPRINT-DISPATCH" "COPY-READTABLE"
"COPY-SEQ" "COPY-STRUCTURE" "COPY-SYMBOL" "COPY-TREE" "COS" "COSH" "COUNT" "COUNT-IF"
"COUNT-IF-NOT" "CTYPECASE" "DEBUG" "DECF" "DECLAIM" "DECLARATION" "DECLARE" "DECODE-FLOAT"
"DECODE-UNIVERSAL-TIME" "DEFCLASS" "DEFCONSTANT" "DEFGENERIC" "DEFINE-COMPILER-MACRO"
"DEFINE-CONDITION" "DEFINE-METHOD-COMBINATION" "DEFINE-MODIFY-MACRO"
"DEFINE-SETF-EXPANDER" "DEFINE-SYMBOL-MACRO" "DEFMACRO" "DEFMETHOD" "DEFPACKAGE"
"DEFPARAMETER" "DEFSETF" "DEFSTRUCT" "DEFTYPE" "DEFUN" "DEFVAR" "DELETE"
"DELETE-DUPLICATES" "DELETE-FILE" "DELETE-IF" "DELETE-IF-NOT" "DELETE-PACKAGE"
"DENOMINATOR" "DEPOSIT-FIELD" "DESCRIBE" "DESCRIBE-OBJECT" "DESTRUCTURING-BIND"
"DIGIT-CHAR" "DIGIT-CHAR-P" "DIRECTORY" "DIRECTORY-NAMESTRING" "DISASSEMBLE"
"DIVISION-BY-ZERO" "DO" "DO*" "DO-ALL-SYMBOLS" "DO-EXTERNAL-SYMBOLS" "DO-SYMBOLS"
"DOCUMENTATION" "DOLIST" "DOTIMES" "DOUBLE-FLOAT" "DOUBLE-FLOAT-EPSILON"
"DOUBLE-FLOAT-NEGATIVE-EPSILON" "DPB" "DRIBBLE" "DYNAMIC-EXTENT" "ECASE" "ECHO-STREAM"
"ECHO-STREAM-INPUT-STREAM" "ECHO-STREAM-OUTPUT-STREAM" "ED" "EIGHTH" "ELT"
"ENCODE-UNIVERSAL-TIME" "END-OF-FILE" "ENDP" "ENOUGH-NAMESTRING"
"ENSURE-DIRECTORIES-EXIST" "ENSURE-GENERIC-FUNCTION" "EQ" "EQL" "EQUAL" "EQUALP" "ERROR"
"ETYPECASE" "EVAL" "EVAL-WHEN" "EVENP" "EVERY" "EXP" "EXPORT" "EXPT" "EXTENDED-CHAR"
"FBOUNDP" "FCEILING" "FDEFINITION" "FFLOOR" "FIFTH" "FILE-AUTHOR" "FILE-ERROR"
"FILE-ERROR-PATHNAME" "FILE-LENGTH" "FILE-NAMESTRING" "FILE-POSITION" "FILE-STREAM"
"FILE-STRING-LENGTH" "FILE-WRITE-DATE" "FILL" "FILL-POINTER" "FIND" "FIND-ALL-SYMBOLS"
"FIND-CLASS" "FIND-IF" "FIND-IF-NOT" "FIND-METHOD" "FIND-PACKAGE" "FIND-RESTART"
"FIND-SYMBOL" "FINISH-OUTPUT" "FIRST" "FIXNUM" "FLET" "FLOAT" "FLOAT-DIGITS"
"FLOAT-PRECISION" "FLOAT-RADIX" "FLOAT-SIGN" "FLOATING-POINT-INEXACT"
"FLOATING-POINT-INVALID-OPERATION" "FLOATING-POINT-OVERFLOW" "FLOATING-POINT-UNDERFLOW"
"FLOATP" "FLOOR" "FMAKUNBOUND" "FORCE-OUTPUT" "FORMAT" "FORMATTER" "FOURTH" "FRESH-LINE"
"FROUND" "FTRUNCATE" "FTYPE" "FUNCALL" "FUNCTION" "FUNCTION-KEYWORDS"
"FUNCTION-LAMBDA-EXPRESSION" "FUNCTIONP" "GCD" "GENERIC-FUNCTION" "GENSYM" "GENTEMP" "GET"
"GET-DECODED-TIME" "GET-DISPATCH-MACRO-CHARACTER" "GET-INTERNAL-REAL-TIME"
"GET-INTERNAL-RUN-TIME" "GET-MACRO-CHARACTER" "GET-OUTPUT-STREAM-STRING" "GET-PROPERTIES"
"GET-SETF-EXPANSION" "GET-UNIVERSAL-TIME" "GETF" "GETHASH" "GO" "GRAPHIC-CHAR-P"
"HANDLER-BIND" "HANDLER-CASE" "HASH-TABLE" "HASH-TABLE-COUNT" "HASH-TABLE-P"
"HASH-TABLE-REHASH-SIZE" "HASH-TABLE-REHASH-THRESHOLD" "HASH-TABLE-SIZE" "HASH-TABLE-TEST"
"HOST-NAMESTRING" "IDENTITY" "IF" "IGNORABLE" "IGNORE" "IGNORE-ERRORS" "IMAGPART" "IMPORT"
"IN-PACKAGE" "INCF" "INITIALIZE-INSTANCE" "INLINE" "INPUT-STREAM-P" "INSPECT" "INTEGER"
"INTEGER-DECODE-FLOAT" "INTEGER-LENGTH" "INTEGERP" "INTERACTIVE-STREAM-P" "INTERN"
"INTERNAL-TIME-UNITS-PER-SECOND" "INTERSECTION" "INVALID-METHOD-ERROR" "INVOKE-DEBUGGER"
"INVOKE-RESTART" "INVOKE-RESTART-INTERACTIVELY" "ISQRT" "KEYWORD" "KEYWORDP" "LABELS"
"LAMBDA" "LAMBDA-LIST-KEYWORDS" "LAMBDA-PARAMETERS-LIMIT" "LAST" "LCM" "LDB" "LDB-TEST"
"LDIFF" "LEAST-NEGATIVE-DOUBLE-FLOAT" "LEAST-NEGATIVE-LONG-FLOAT"
"LEAST-NEGATIVE-NORMALIZED-DOUBLE-FLOAT" "LEAST-NEGATIVE-NORMALIZED-LONG-FLOAT"
"LEAST-NEGATIVE-NORMALIZED-SHORT-FLOAT" "LEAST-NEGATIVE-NORMALIZED-SINGLE-FLOAT"
"LEAST-NEGATIVE-SHORT-FLOAT" "LEAST-NEGATIVE-SINGLE-FLOAT" "LEAST-POSITIVE-DOUBLE-FLOAT"
"LEAST-POSITIVE-LONG-FLOAT" "LEAST-POSITIVE-NORMALIZED-DOUBLE-FLOAT"
"LEAST-POSITIVE-NORMALIZED-LONG-FLOAT" "LEAST-POSITIVE-NORMALIZED-SHORT-FLOAT"
"LEAST-POSITIVE-NORMALIZED-SINGLE-FLOAT" "LEAST-POSITIVE-SHORT-FLOAT"
"LEAST-POSITIVE-SINGLE-FLOAT" "LENGTH" "LET" "LET*" "LISP-IMPLEMENTATION-TYPE"
"LISP-IMPLEMENTATION-VERSION" "LIST" "LIST*" "LIST-ALL-PACKAGES" "LIST-LENGTH" "LISTEN"
"LISTP" "LOAD" "LOAD-LOGICAL-PATHNAME-TRANSLATIONS" "LOAD-TIME-VALUE" "LOCALLY" "LOG"
"LOGAND" "LOGANDC1" "LOGANDC2" "LOGBITP" "LOGCOUNT" "LOGEQV" "LOGICAL-PATHNAME"
"LOGICAL-PATHNAME-TRANSLATIONS" "LOGIOR" "LOGNAND" "LOGNOR" "LOGNOT" "LOGORC1" "LOGORC2"
"LOGTEST" "LOGXOR" "LONG-FLOAT" "LONG-FLOAT-EPSILON" "LONG-FLOAT-NEGATIVE-EPSILON"
"LONG-SITE-NAME" "LOOP" "LOOP-FINISH" "LOWER-CASE-P" "MACHINE-INSTANCE" "MACHINE-TYPE"
"MACHINE-VERSION" "MACRO-FUNCTION" "MACROEXPAND" "MACROEXPAND-1" "MACROLET" "MAKE-ARRAY"
"MAKE-BROADCAST-STREAM" "MAKE-CONCATENATED-STREAM" "MAKE-CONDITION"
"MAKE-DISPATCH-MACRO-CHARACTER" "MAKE-ECHO-STREAM" "MAKE-HASH-TABLE" "MAKE-INSTANCE"
"MAKE-INSTANCES-OBSOLETE" "MAKE-LIST" "MAKE-LOAD-FORM" "MAKE-LOAD-FORM-SAVING-SLOTS"
"MAKE-METHOD" "MAKE-PACKAGE" "MAKE-PATHNAME" "MAKE-RANDOM-STATE" "MAKE-SEQUENCE"
"MAKE-STRING" "MAKE-STRING-INPUT-STREAM" "MAKE-STRING-OUTPUT-STREAM" "MAKE-SYMBOL"
"MAKE-SYNONYM-STREAM" "MAKE-TWO-WAY-STREAM" "MAKUNBOUND" "MAP" "MAP-INTO" "MAPC" "MAPCAN"
"MAPCAR" "MAPCON" "MAPHASH" "MAPL" "MAPLIST" "MASK-FIELD" "MAX" "MEMBER" "MEMBER-IF"
"MEMBER-IF-NOT" "MERGE" "MERGE-PATHNAMES" "METHOD" "METHOD-COMBINATION"
"METHOD-COMBINATION-ERROR" "METHOD-QUALIFIERS" "MIN" "MINUSP" "MISMATCH" "MOD"
"MOST-NEGATIVE-DOUBLE-FLOAT" "MOST-NEGATIVE-FIXNUM" "MOST-NEGATIVE-LONG-FLOAT"
"MOST-NEGATIVE-SHORT-FLOAT" "MOST-NEGATIVE-SINGLE-FLOAT" "MOST-POSITIVE-DOUBLE-FLOAT"
"MOST-POSITIVE-FIXNUM" "MOST-POSITIVE-LONG-FLOAT" "MOST-POSITIVE-SHORT-FLOAT"
"MOST-POSITIVE-SINGLE-FLOAT" "MUFFLE-WARNING" "MULTIPLE-VALUE-BIND" "MULTIPLE-VALUE-CALL"
"MULTIPLE-VALUE-LIST" "MULTIPLE-VALUE-PROG1" "MULTIPLE-VALUE-SETQ" "MULTIPLE-VALUES-LIMIT"
"NAME-CHAR" "NAMESTRING" "NBUTLAST" "NCONC" "NEXT-METHOD-P" "NIL" "NINTERSECTION" "NINTH"
"NO-APPLICABLE-METHOD" "NO-NEXT-METHOD" "NOT" "NOTANY" "NOTEVERY" "NOTINLINE" "NRECONC"
"NREVERSE" "NSET-DIFFERENCE" "NSET-EXCLUSIVE-OR" "NSTRING-CAPITALIZE" "NSTRING-DOWNCASE"
"NSTRING-UPCASE" "NSUBLIS" "NSUBST" "NSUBST-IF" "NSUBST-IF-NOT" "NSUBSTITUTE"
"NSUBSTITUTE-IF" "NSUBSTITUTE-IF-NOT" "NTH" "NTH-VALUE" "NTHCDR" "NULL" "NUMBER" "NUMBERP"
"NUMERATOR" "NUNION" "ODDP" "OPEN" "OPEN-STREAM-P" "OPTIMIZE" "OR" "OTHERWISE"
"OUTPUT-STREAM-P" "PACKAGE" "PACKAGE-ERROR" "PACKAGE-ERROR-PACKAGE" "PACKAGE-NAME"
"PACKAGE-NICKNAMES" "PACKAGE-SHADOWING-SYMBOLS" "PACKAGE-USE-LIST" "PACKAGE-USED-BY-LIST"
"PACKAGEP" "PAIRLIS" "PARSE-ERROR" "PARSE-INTEGER" "PARSE-NAMESTRING" "PATHNAME"
"PATHNAME-DEVICE" "PATHNAME-DIRECTORY" "PATHNAME-HOST" "PATHNAME-MATCH-P" "PATHNAME-NAME"
"PATHNAME-TYPE" "PATHNAME-VERSION" "PATHNAMEP" "PEEK-CHAR" "PHASE" "PI" "PLUSP" "POP"
"POSITION" "POSITION-IF" "POSITION-IF-NOT" "PPRINT" "PPRINT-DISPATCH"
"PPRINT-EXIT-IF-LIST-EXHAUSTED" "PPRINT-FILL" "PPRINT-INDENT" "PPRINT-LINEAR"
"PPRINT-LOGICAL-BLOCK" "PPRINT-NEWLINE" "PPRINT-POP" "PPRINT-TAB" "PPRINT-TABULAR" "PRIN1"
"PRIN1-TO-STRING" "PRINC" "PRINC-TO-STRING" "PRINT" "PRINT-NOT-READABLE"
"PRINT-NOT-READABLE-OBJECT" "PRINT-OBJECT" "PRINT-UNREADABLE-OBJECT" "PROBE-FILE"
"PROCLAIM" "PROG" "PROG*" "PROG1" "PROG2" "PROGN" "PROGRAM-ERROR" "PROGV" "PROVIDE"
"PSETF" "PSETQ" "PUSH" "PUSHNEW" "QUOTE" "RANDOM" "RANDOM-STATE" "RANDOM-STATE-P" "RASSOC"
"RASSOC-IF" "RASSOC-IF-NOT" "RATIO" "RATIONAL" "RATIONALIZE" "RATIONALP" "READ"
"READ-BYTE" "READ-CHAR" "READ-CHAR-NO-HANG" "READ-DELIMITED-LIST" "READ-FROM-STRING"
"READ-LINE" "READ-PRESERVING-WHITESPACE" "READ-SEQUENCE" "READER-ERROR" "READTABLE"
"READTABLE-CASE" "READTABLEP" "REAL" "REALP" "REALPART" "REDUCE" "REINITIALIZE-INSTANCE"
"REM" "REMF" "REMHASH" "REMOVE" "REMOVE-DUPLICATES" "REMOVE-IF" "REMOVE-IF-NOT"
"REMOVE-METHOD" "REMPROP" "RENAME-FILE" "RENAME-PACKAGE" "REPLACE" "REQUIRE" "REST"
"RESTART" "RESTART-BIND" "RESTART-CASE" "RESTART-NAME" "RETURN" "RETURN-FROM" "REVAPPEND"
"REVERSE" "ROOM" "ROTATEF" "ROUND" "ROW-MAJOR-AREF" "RPLACA" "RPLACD" "SAFETY" "SATISFIES"
"SBIT" "SCALE-FLOAT" "SCHAR" "SEARCH" "SECOND" "SEQUENCE" "SERIOUS-CONDITION" "SET"
"SET-DIFFERENCE" "SET-DISPATCH-MACRO-CHARACTER" "SET-EXCLUSIVE-OR" "SET-MACRO-CHARACTER"
"SET-PPRINT-DISPATCH" "SET-SYNTAX-FROM-CHAR" "SETF" "SETQ" "SEVENTH" "SHADOW"
"SHADOWING-IMPORT" "SHARED-INITIALIZE" "SHIFTF" "SHORT-FLOAT" "SHORT-FLOAT-EPSILON"
"SHORT-FLOAT-NEGATIVE-EPSILON" "SHORT-SITE-NAME" "SIGNAL" "SIGNED-BYTE" "SIGNUM"
"SIMPLE-ARRAY" "SIMPLE-BASE-STRING" "SIMPLE-BIT-VECTOR" "SIMPLE-BIT-VECTOR-P"
"SIMPLE-CONDITION" "SIMPLE-CONDITION-FORMAT-ARGUMENTS" "SIMPLE-CONDITION-FORMAT-CONTROL"
"SIMPLE-ERROR" "SIMPLE-STRING" "SIMPLE-STRING-P" "SIMPLE-TYPE-ERROR" "SIMPLE-VECTOR"
"SIMPLE-VECTOR-P" "SIMPLE-WARNING" "SIN" "SINGLE-FLOAT" "SINGLE-FLOAT-EPSILON"
"SINGLE-FLOAT-NEGATIVE-EPSILON" "SINH" "SIXTH" "SLEEP" "SLOT-BOUNDP" "SLOT-EXISTS-P"
"SLOT-MAKUNBOUND" "SLOT-MISSING" "SLOT-UNBOUND" "SLOT-VALUE" "SOFTWARE-TYPE"
"SOFTWARE-VERSION" "SOME" "SORT" "SPACE" "SPECIAL" "SPECIAL-OPERATOR-P" "SPEED" "SQRT"
"STABLE-SORT" "STANDARD" "STANDARD-CHAR" "STANDARD-CHAR-P" "STANDARD-CLASS"
"STANDARD-GENERIC-FUNCTION" "STANDARD-METHOD" "STANDARD-OBJECT" "STEP" "STORAGE-CONDITION"
"STORE-VALUE" "STREAM" "STREAM-ELEMENT-TYPE" "STREAM-ERROR" "STREAM-ERROR-STREAM"
"STREAM-EXTERNAL-FORMAT" "STREAMP" "STRING" "STRING-CAPITALIZE" "STRING-DOWNCASE"
"STRING-EQUAL" "STRING-GREATERP" "STRING-LEFT-TRIM" "STRING-LESSP" "STRING-NOT-EQUAL"
"STRING-NOT-GREATERP" "STRING-NOT-LESSP" "STRING-RIGHT-TRIM" "STRING-STREAM" "STRING-TRIM"
"STRING-UPCASE" "STRING/=" "STRING<" "STRING<=" "STRING=" "STRING>" "STRING>=" "STRINGP"
"STRUCTURE" "STRUCTURE-CLASS" "STRUCTURE-OBJECT" "STYLE-WARNING" "SUBLIS" "SUBSEQ"
"SUBSETP" "SUBST" "SUBST-IF" "SUBST-IF-NOT" "SUBSTITUTE" "SUBSTITUTE-IF"
"SUBSTITUTE-IF-NOT" "SUBTYPEP" "SVREF" "SXHASH" "SYMBOL" "SYMBOL-FUNCTION"
"SYMBOL-MACROLET" "SYMBOL-NAME" "SYMBOL-PACKAGE" "SYMBOL-PLIST" "SYMBOL-VALUE" "SYMBOLP"
"SYNONYM-STREAM" "SYNONYM-STREAM-SYMBOL" "T" "TAGBODY" "TAILP" "TAN" "TANH" "TENTH"
"TERPRI" "THE" "THIRD" "THROW" "TIME" "TRACE" "TRANSLATE-LOGICAL-PATHNAME"
"TRANSLATE-PATHNAME" "TREE-EQUAL" "TRUENAME" "TRUNCATE" "TWO-WAY-STREAM"
"TWO-WAY-STREAM-INPUT-STREAM" "TWO-WAY-STREAM-OUTPUT-STREAM" "TYPE" "TYPE-ERROR"
"TYPE-ERROR-DATUM" "TYPE-ERROR-EXPECTED-TYPE" "TYPE-OF" "TYPECASE" "TYPEP" "UNBOUND-SLOT"
"UNBOUND-SLOT-INSTANCE" "UNBOUND-VARIABLE" "UNDEFINED-FUNCTION" "UNEXPORT" "UNINTERN"
"UNION" "UNLESS" "UNREAD-CHAR" "UNSIGNED-BYTE" "UNTRACE" "UNUSE-PACKAGE" "UNWIND-PROTECT"
"UPDATE-INSTANCE-FOR-DIFFERENT-CLASS" "UPDATE-INSTANCE-FOR-REDEFINED-CLASS"
"UPGRADED-ARRAY-ELEMENT-TYPE" "UPGRADED-COMPLEX-PART-TYPE" "UPPER-CASE-P" "USE-PACKAGE"
"USE-VALUE" "USER-HOMEDIR-PATHNAME" "VALUES" "VALUES-LIST" "VARIABLE" "VECTOR"
"VECTOR-POP" "VECTOR-PUSH" "VECTOR-PUSH-EXTEND" "VECTORP" "WARN" "WARNING" "WHEN"
"WILD-PATHNAME-P" "WITH-ACCESSORS" "WITH-COMPILATION-UNIT" "WITH-CONDITION-RESTARTS"
"WITH-HASH-TABLE-ITERATOR" "WITH-INPUT-FROM-STRING" "WITH-OPEN-FILE" "WITH-OPEN-STREAM"
"WITH-OUTPUT-TO-STRING" "WITH-PACKAGE-ITERATOR" "WITH-SIMPLE-RESTART" "WITH-SLOTS"
"WITH-STANDARD-IO-SYNTAX" "WRITE" "WRITE-BYTE" "WRITE-CHAR" "WRITE-LINE" "WRITE-SEQUENCE"
"WRITE-STRING" "WRITE-TO-STRING" "Y-OR-N-P" "YES-OR-NO-P" "ZEROP"))
(defvar *export-from-glisp*
'(
"DEFSUBST"
"G/MAKE-STRING"
"MP/MAKE-LOCK"
"MP/WITH-LOCK"
"WITH-TIMEOUT"
"OPEN-INET-SOCKET"
;; util.lisp :
"ALWAYS"
"CL-BYTE-STREAM"
"CL-CHAR-STREAM"
"CL-STREAM"
"COMPOSE"
"CURRY"
"FALSE"
"FORCE"
"G/CLOSE"
"G/FINISH-OUTPUT"
"G/PEEK-CHAR"
"G/READ-BYTE"
"G/READ-BYTE-SEQUENCE"
"G/READ-CHAR"
"G/READ-CHAR-SEQUENCE"
"G/READ-LINE"
"G/READ-LINE*"
"G/UNREAD-BYTE"
"G/UNREAD-CHAR"
"G/WRITE-BYTE"
"G/WRITE-BYTE-SEQUENCE"
"G/WRITE-CHAR"
"G/WRITE-STRING"
"GSTREAM"
"MAP-ARRAY"
"MAPFCAR"
"MAX*"
"MAXF"
"MIN*"
"MINF"
"MULTIPLE-VALUE-OR"
"MULTIPLE-VALUE-SOME"
"NCONCF"
"NEQ"
"PROMISE"
"RCURRY"
"SANIFY-STRING"
"SHOW"
"SPLIT-BY"
"SPLIT-BY-IF"
"SPLIT-BY-MEMBER"
"SPLIT-STRING"
"STRING-BEGIN-EQUAL"
"TRUE"
"UNTIL"
"USE-BYTE-FOR-CHAR-STREAM-FLAVOUR"
"USE-CHAR-FOR-BYTE-STREAM-FLAVOUR"
"WHILE"
"WHITE-SPACE-P"
"CL-BYTE-STREAM->GSTREAM"
"CL-CHAR-STREAM->GSTREAM"
"G/OPEN-INET-SOCKET"
"ACCEPT-CONNECTION"
"FIND-TEMPORARY-FILE"
"DELETE-TEMPORARY-FILE"
"WITH-TEMPORARY-FILE"
"SET-EQUAL"
"MAYBE-PARSE-INTEGER"
"NOP"
"WITH-STRUCTURE-SLOTS"
"COMPILE-FUNCALL"
"FUNCALL*"
"MAPC*"
"VREDUCE*"
"LREDUCE*"
"WITH-UNIQUE-NAMES"
;; runes.lisp
"RUNE"
"ROD"
"SIMPLE-ROD"
"%RUNE"
"ROD-CAPITALIZE"
"CODE-RUNE"
"RUNE-CODE"
"RUNE-DOWNCASE"
"RUNE-UPCASE"
"ROD-DOWNCASE"
"ROD-UPCASE"
"WHITE-SPACE-RUNE-P"
"DIGIT-RUNE-P"
"RUNE="
"RUNE<="
"RUNE>="
"RUNE-EQUAL"
"RUNEP"
"SLOOPY-ROD-P"
"ROD="
"ROD-EQUAL"
"MAKE-ROD"
"CHAR-RUNE"
"RUNE-CHAR"
"ROD-STRING"
"STRING-ROD"
"ROD-SUBSEQ"
"G/MAKE-HASH-TABLE"
"G/HASHGET"
"G/CLRHASH"
"STIR-HASH-CODES"
"HASH-SEQUENCE"
"HASH/STRING-EQUAL"
"MAKE-STRING-EQUAL-HASH-TABLE"
"PRIMEP"
;; match.lisp
"DEFINE-MATCH-MACRO"
"IF-MATCH"
"GSTREAM-AS-STRING"
))
(defparameter *packages*
#-GCL '(:common-lisp)
#+GCL '(:lisp :pcl) )
(defparameter *dep-id*
#+CLISP "clisp"
#+(AND :CMU (NOT :PTHREAD)) "cmucl"
#+(AND :CMU :PTHREAD) "cmucl-dtc"
#+(AND ALLEGRO ALLEGRO-V5.0) "acl5"
#+(AND ALLEGRO (NOT ALLEGRO-V5.0)) "acl"
#+GCL "gcl"
#-(OR CLISP CMU ALLEGRO GCL)
#.(error "Configure!"))
;; all symbols, which are defined by gray streams
(defparameter *gray-symbols*
'("FUNDAMENTAL-STREAM"
"FUNDAMENTAL-INPUT-STREAM"
"FUNDAMENTAL-OUTPUT-STREAM"
"FUNDAMENTAL-CHARACTER-STREAM"
"FUNDAMENTAL-BINARY-STREAM"
"FUNDAMENTAL-CHARACTER-INPUT-STREAM"
"FUNDAMENTAL-CHARACTER-OUTPUT-STREAM"
"FUNDAMENTAL-BINARY-INPUT-STREAM"
"STREAM-READ-CHAR"
"STREAM-UNREAD-CHAR"
"STREAM-READ-CHAR-NO-HANG"
"STREAM-PEEK-CHAR"
"STREAM-LISTEN"
"STREAM-READ-LINE"
"STREAM-CLEAR-INPUT"
"STREAM-WRITE-CHAR"
"STREAM-LINE-COLUMN"
"STREAM-START-LINE-P"
"STREAM-WRITE-STRING"
"STREAM-TERPRI"
"STREAM-FRESH-LINE"
"STREAM-FINISH-OUTPUT"
"STREAM-FORCE-OUTPUT"
"STREAM-ADVANCE-TO-COLUMN"
"STREAM-CLEAR-INPUT"
"STREAM-READ-BYTE"
"STREAM-WRITE-BYTE" ))
(defparameter *gray-packages*
#+:CLISP '(:lisp)
#+:CMU '(:ext)
#+:ALLEGRO '(:excl)
#+:HARLEQUIN-COMMON-LISP '(:stream)
)
(defun seek-symbol (name packages)
;; Seek the a symbol named 'name' in `packages'
(or (some #'(lambda (p)
(multiple-value-bind (sym res) (find-symbol name p)
(if (eql res :external)
(list sym)
nil)))
packages)
(progn (format T "~&There is no ~A." name)
(finish-output)
nil)))
(defun dump-defpackage (sink)
(format sink ";; AUTOMATICALLY CREATED -- DO NOT EDIT")
(format sink "~%;; Lisp Implementation Type: ~A" (lisp-implementation-type))
(format sink "~%;; Lisp Implementation Version: ~A" (lisp-implementation-version))
(format sink "~%")
(let ((*print-case* :downcase)
(export-ansi nil)
(export-gray nil))
(format sink "~%(in-package :~A)" (package-name *package*))
(format sink "~%")
(format sink "~%(defpackage :glisp")
(format sink "~% (:use)")
(labels ((grok (symbols packages)
(let ((res nil))
(dolist (nam symbols)
(let ((sym (seek-symbol nam packages)))
(when sym
(push (car sym) res)
(cond ((multiple-value-bind (sym2 res) (find-symbol nam :glisp)
(and sym2 (eq res :external)))
(format sink "~% ;; ~S patched" (car sym)) )
(t
(setf sym (car sym))
;; CLISP has no (:import ..) ARG!
(format sink "~% (:import-from :~A #:~A)"
(package-name (symbol-package sym))
(symbol-name sym)))))))
res)))
(setf export-ansi (grok *all-ansi-symbols* *packages*))
(setf export-gray (grok *gray-symbols* *gray-packages*)))
(format sink "~%")
(format sink "~% ;; -- Export ------------------------------")
(format sink "~%")
(format sink "~% (:export")
(format sink "~% ;; ********** ANSI-CL")
(dolist (k (reverse export-ansi))
(format sink "~% #:~(~A~)" k))
(format sink "~% ;; ********** Gray Streams")
(dolist (k (reverse export-gray))
(format sink "~% #:~(~A~)" k))
(format sink "~%~% ;; ********** Private stuff")
(dolist (k *export-from-glisp*)
(format sink "~% #:~(~A~)" k))
(format sink "))")
(format sink "~%")
(format sink "~%(defpackage :gluser (:use :glisp))")
(format sink "~%") )
(terpri sink))
(defun run ()
(make-package :glisp :use ())
(load (format nil "dep-~A.lisp" *dep-id*))
(with-open-file (sink (format nil "dfpck-~A.lisp" *dep-id*) :direction :output :if-exists :new-version)
(dump-defpackage sink)))

207
glisp/match.lisp
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@ -1,207 +0,0 @@
;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: GLISP; -*-
;;; ---------------------------------------------------------------------------
;;; Title: Very simple (non-deterministic) regular expression matching
;;; Created: 1999-01-21
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; License: LGPL (See file COPYING for details).
;;; ---------------------------------------------------------------------------
;;; (c) copyright 1999 by Gilbert Baumann
;;; This library is free software; you can redistribute it and/or
;;; modify it under the terms of the GNU Library General Public
;;; License as published by the Free Software Foundation; either
;;; version 2 of the License, or (at your option) any later version.
;;;
;;; This library 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
;;; Library General Public License for more details.
;;;
;;; You should have received a copy of the GNU Library General Public
;;; License along with this library; if not, write to the
;;; Free Software Foundation, Inc., 59 Temple Place - Suite 330,
;;; Boston, MA 02111-1307 USA.
(in-package :GLISP)
;; Syntax
;; ------
;; atom -- match the atom
;; (p predicate) -- match, iff (funcall p elt) is non-NIL
;; (& a0 .. an) -- match a0a1..an
;; (/ a0 .. an) -- match a0 or a1 ... or an
;; (* a0 .. an) -- iteration, match any number of (& a0 ... an)
;; (+ . rest) == (/ (& . rest) (* . rest))
;; (? . rest) == (/ (& . rest) (&))
;; (= var subexpr) == assign the subexpr to the match variable 'var'
;;
;; not implemented:
;; (- a b) -- match a, but not b
;; (and a b) -- matches if a and b matches
;; (or a b) == (/ a b)
;; (not x) == matches if x does not match
;;
;; This syntax has to be merged with clex as well.
(defvar *match-macros* (make-hash-table :test #'eq))
(defmacro define-match-macro (name args &body body)
`(eval-when (compile load eval)
(setf (gethash ',name *match-macros*)
#'(lambda (whole)
(destructuring-bind ,args (cdr whole)
,@body)))
',name))
(defun symcat (&rest syms)
(let ((pack (dolist (k syms nil)
(when (symbolp k)
(return (symbol-package k))))))
(cond ((null pack)
(error "No package for ~S of ~S." 'symcat syms))
(t
(intern (apply #'concatenate 'string (mapcar #'string syms))
pack)))))
(defun sym-equal (a b)
(string= (symbol-name a) (symbol-name b)))
(defun bau-funcall (fun &rest args)
(cond ((and (consp fun) (eq (car fun) 'lambda))
(cons fun args))
((and (consp fun) (eq (car fun) 'function))
(cons (cadr fun) args))
(t
(list* 'funcall fun args))))
(defun compile-srx (srx action &key (string-type 'vector) (test '#'eql))
(let ((vars nil))
(labels ((cmp (x cont-expr)
(cond
((atom x)
(with-unique-names (string start end)
`(lambda (,string ,start ,end)
(declare (type fixnum ,start ,end)
(type ,string-type ,string))
(if (and (< ,start ,end)
,(bau-funcall test `(aref ,string ,start) `',x))
,(bau-funcall cont-expr string `(the fixnum (1+ ,start)) end)))))
((sym-equal (car x) 'p)
(destructuring-bind (p) (cdr x)
(with-unique-names (string start end)
`(lambda (,string ,start ,end)
(declare (type fixnum ,start ,end)
(type ,string-type ,string))
(if (and (< ,start ,end)
,(bau-funcall p `(aref ,string ,start)))
,(bau-funcall cont-expr string `(the fixnum (1+ ,start)) end))))))
((sym-equal (car x) '/)
(with-unique-names (ccfn string string2 start end end2 j)
`(lambda (,string ,start ,end)
(declare (type fixnum ,start ,end)
(type ,string-type ,string))
(labels ((,ccfn (,string2 ,j ,end2)
(declare (type fixnum ,j ,end2)
(type ,string-type ,string2))
,(bau-funcall cont-expr string2 j end2)))
,@(mapcar (lambda (a)
`(,(cmp a `#',ccfn) ,string ,start ,end))
(cdr x))))))
((sym-equal (car x) '*)
(with-unique-names (ccfn string string2 start end end2 j)
(let ((subexpr (cons '& (cdr x))))
`(lambda (,string ,start ,end)
(declare (type fixnum ,start ,end)
(type ,string-type ,string))
(labels ((,ccfn (,string2 ,j ,end2)
(declare (type fixnum ,j ,end2)
(type ,string-type ,string2))
(,(cmp subexpr `#',ccfn) ,string2 ,j ,end2)
,(bau-funcall cont-expr string j end)))
(,ccfn ,string ,start ,end))))))
((sym-equal (car x) '&)
(case (length x)
(1 (with-unique-names (string start end)
`(lambda (,string ,start ,end)
(declare (type fixnum ,start ,end)
(type ,string-type ,string))
,(bau-funcall cont-expr string start end))))
(2 (cmp (cadr x) cont-expr))
(otherwise
(with-unique-names (string start end)
`(lambda (,string ,start ,end)
(declare (type fixnum ,start ,end)
(type ,string-type ,string))
(,(cmp (cadr x)
(with-unique-names (string j end)
`#'(lambda (,string ,j ,end)
(declare (type fixnum ,j ,end)
(type ,string-type ,string))
(,(cmp (cons '& (cddr x)) cont-expr) ,string ,j ,end))))
,string ,start ,end))))))
((sym-equal (car x) '=)
(destructuring-bind (var subexpr) (cdr x)
(pushnew var vars)
(with-unique-names (string i0 end)
`(lambda (,string ,i0 ,end)
(declare (type fixnum ,i0 ,end)
(type ,string-type ,string))
(,(cmp subexpr
(with-unique-names (string i1 end)
`#'(lambda (,string ,i1 ,end)
(declare (type fixnum ,i1 ,end)
(type ,string-type ,string))
(setf ,(symcat var "-START") ,i0
,(symcat var "-END") ,i1)
,(bau-funcall cont-expr string i1 end))))
,string ,i0 ,end)))))
((sym-equal (car x) '+)
(cmp `(& ,@(cdr x) (* ,@(cdr x))) cont-expr))
((sym-equal (car x) '?)
(cmp `(/ (&) (& ,@(cdr x))) cont-expr))
(t
(let ((mmf (gethash (car x) *match-macros*)))
(cond (mmf
(cmp (funcall mmf x) cont-expr))
(t
(error "Unknown symbolic regular expression: ~S." x))))) )))
(with-unique-names (string start end continuation match)
(let ((cf (cmp srx `#',continuation)))
`(lambda (,string ,start ,end)
(declare ;;#.cl-user:+optimize-very-fast+
(type fixnum ,start ,end)
(type ,string-type ,string))
(block ,match
(let ,(mapcan (lambda (var) (list (symcat var "-START") (symcat var "-END"))) vars)
(labels (,(with-unique-names (string j end)
`(,continuation (,string ,j ,end)
(declare (type fixnum ,j ,end)
(type ,string-type ,string))
(declare (ignore ,string))
(if (= ,j ,end)
(let ()
(return-from ,match ,action))))))
(,cf ,string ,start ,end)))
nil)))))))
(defmacro if-match ((string &key start end type (test '#'eql)) srx &body actions)
(let ((str (gensym "str")))
`(let ((,str ,string))
(,(compile-srx srx `(progn .,actions)
:string-type (or type 'vector)
:test test)
,str
,(if start start 0)
,(if end end `(length ,str))))))

406
glisp/package.lisp
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@ -1,406 +0,0 @@
;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: GLISP-TEMP; -*-
;;; ---------------------------------------------------------------------------
;;; Title: Generating a sane DEFPACKAGE for GLISP
;;; Created: 1999-05-25
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; ---------------------------------------------------------------------------
;;; (c) copyright 1999,2000 by Gilbert Baumann
(defpackage :glisp-temp (:use #:cl))
(in-package :glisp-temp)
(defpackage :glisp (:use))
(eval-when (compile)
(defparameter *all-ansi-symbols*
'("&ALLOW-OTHER-KEYS" "&AUX" "&BODY" "&ENVIRONMENT" "&KEY" "&OPTIONAL" "&REST" "&WHOLE" "*"
"**" "***" "*BREAK-ON-SIGNALS*" "*COMPILE-FILE-PATHNAME*" "*COMPILE-FILE-TRUENAME*"
"*COMPILE-PRINT*" "*COMPILE-VERBOSE*" "*DEBUG-IO*" "*DEBUGGER-HOOK*"
"*DEFAULT-PATHNAME-DEFAULTS*" "*ERROR-OUTPUT*" "*FEATURES*" "*GENSYM-COUNTER*"
"*LOAD-PATHNAME*" "*LOAD-PRINT*" "*LOAD-TRUENAME*" "*LOAD-VERBOSE*" "*MACROEXPAND-HOOK*"
"*MODULES*" "*PACKAGE*" "*PRINT-ARRAY*" "*PRINT-BASE*" "*PRINT-CASE*" "*PRINT-CIRCLE*"
"*PRINT-ESCAPE*" "*PRINT-GENSYM*" "*PRINT-LENGTH*" "*PRINT-LEVEL*" "*PRINT-LINES*"
"*PRINT-MISER-WIDTH*" "*PRINT-PPRINT-DISPATCH*" "*PRINT-PRETTY*" "*PRINT-RADIX*"
"*PRINT-READABLY*" "*PRINT-RIGHT-MARGIN*" "*QUERY-IO*" "*RANDOM-STATE*" "*READ-BASE*"
"*READ-DEFAULT-FLOAT-FORMAT*" "*READ-EVAL*" "*READ-SUPPRESS*" "*READTABLE*"
"*STANDARD-INPUT*" "*STANDARD-OUTPUT*" "*TERMINAL-IO*" "*TRACE-OUTPUT*" "+" "++" "+++" "-"
"/" "//" "///" "/=" "1+" "1-" "<" "<=" "=" ">" ">=" "ABORT" "ABS" "ACONS" "ACOS" "ACOSH"
"ADD-METHOD" "ADJOIN" "ADJUST-ARRAY" "ADJUSTABLE-ARRAY-P" "ALLOCATE-INSTANCE"
"ALPHA-CHAR-P" "ALPHANUMERICP" "AND" "APPEND" "APPLY" "APROPOS" "APROPOS-LIST" "AREF"
"ARITHMETIC-ERROR" "ARITHMETIC-ERROR-OPERANDS" "ARITHMETIC-ERROR-OPERATION" "ARRAY"
"ARRAY-DIMENSION" "ARRAY-DIMENSION-LIMIT" "ARRAY-DIMENSIONS" "ARRAY-DISPLACEMENT"
"ARRAY-ELEMENT-TYPE" "ARRAY-HAS-FILL-POINTER-P" "ARRAY-IN-BOUNDS-P" "ARRAY-RANK"
"ARRAY-RANK-LIMIT" "ARRAY-ROW-MAJOR-INDEX" "ARRAY-TOTAL-SIZE" "ARRAY-TOTAL-SIZE-LIMIT"
"ARRAYP" "ASH" "ASIN" "ASINH" "ASSERT" "ASSOC" "ASSOC-IF" "ASSOC-IF-NOT" "ATAN" "ATANH"
"ATOM" "BASE-CHAR" "BASE-STRING" "BIGNUM" "BIT" "BIT-AND" "BIT-ANDC1" "BIT-ANDC2"
"BIT-EQV" "BIT-IOR" "BIT-NAND" "BIT-NOR" "BIT-NOT" "BIT-ORC1" "BIT-ORC2" "BIT-VECTOR"
"BIT-VECTOR-P" "BIT-XOR" "BLOCK" "BOOLE" "BOOLE-1" "BOOLE-2" "BOOLE-AND" "BOOLE-ANDC1"
"BOOLE-ANDC2" "BOOLE-C1" "BOOLE-C2" "BOOLE-CLR" "BOOLE-EQV" "BOOLE-IOR" "BOOLE-NAND"
"BOOLE-NOR" "BOOLE-ORC1" "BOOLE-ORC2" "BOOLE-SET" "BOOLE-XOR" "BOOLEAN" "BOTH-CASE-P"
"BOUNDP" "BREAK" "BROADCAST-STREAM" "BROADCAST-STREAM-STREAMS" "BUILT-IN-CLASS" "BUTLAST"
"BYTE" "BYTE-POSITION" "BYTE-SIZE" "CAAAAR" "CAAADR" "CAAAR" "CAADAR" "CAADDR" "CAADR"
"CAAR" "CADAAR" "CADADR" "CADAR" "CADDAR" "CADDDR" "CADDR" "CADR" "CALL-ARGUMENTS-LIMIT"
"CALL-METHOD" "CALL-NEXT-METHOD" "CAR" "CASE" "CATCH" "CCASE" "CDAAAR" "CDAADR" "CDAAR"
"CDADAR" "CDADDR" "CDADR" "CDAR" "CDDAAR" "CDDADR" "CDDAR" "CDDDAR" "CDDDDR" "CDDDR"
"CDDR" "CDR" "CEILING" "CELL-ERROR" "CELL-ERROR-NAME" "CERROR" "CHANGE-CLASS" "CHAR"
"CHAR-CODE" "CHAR-CODE-LIMIT" "CHAR-DOWNCASE" "CHAR-EQUAL" "CHAR-GREATERP" "CHAR-INT"
"CHAR-LESSP" "CHAR-NAME" "CHAR-NOT-EQUAL" "CHAR-NOT-GREATERP" "CHAR-NOT-LESSP"
"CHAR-UPCASE" "CHAR/=" "CHAR<" "CHAR<=" "CHAR=" "CHAR>" "CHAR>=" "CHARACTER" "CHARACTERP"
"CHECK-TYPE" "CIS" "CLASS" "CLASS-NAME" "CLASS-OF" "CLEAR-INPUT" "CLEAR-OUTPUT" "CLOSE"
"CLRHASH" "CODE-CHAR" "COERCE" "COMPILATION-SPEED" "COMPILE" "COMPILE-FILE"
"COMPILE-FILE-PATHNAME" "COMPILED-FUNCTION" "COMPILED-FUNCTION-P" "COMPILER-MACRO"
"COMPILER-MACRO-FUNCTION" "COMPLEMENT" "COMPLEX" "COMPLEXP" "COMPUTE-APPLICABLE-METHODS"
"COMPUTE-RESTARTS" "CONCATENATE" "CONCATENATED-STREAM" "CONCATENATED-STREAM-STREAMS"
"COND" "CONDITION" "CONJUGATE" "CONS" "CONSP" "CONSTANTLY" "CONSTANTP" "CONTINUE"
"CONTROL-ERROR" "COPY-ALIST" "COPY-LIST" "COPY-PPRINT-DISPATCH" "COPY-READTABLE"
"COPY-SEQ" "COPY-STRUCTURE" "COPY-SYMBOL" "COPY-TREE" "COS" "COSH" "COUNT" "COUNT-IF"
"COUNT-IF-NOT" "CTYPECASE" "DEBUG" "DECF" "DECLAIM" "DECLARATION" "DECLARE" "DECODE-FLOAT"
"DECODE-UNIVERSAL-TIME" "DEFCLASS" "DEFCONSTANT" "DEFGENERIC" "DEFINE-COMPILER-MACRO"
"DEFINE-CONDITION" "DEFINE-METHOD-COMBINATION" "DEFINE-MODIFY-MACRO"
"DEFINE-SETF-EXPANDER" "DEFINE-SYMBOL-MACRO" "DEFMACRO" "DEFMETHOD" "DEFPACKAGE"
"DEFPARAMETER" "DEFSETF" "DEFSTRUCT" "DEFTYPE" "DEFUN" "DEFVAR" "DELETE"
"DELETE-DUPLICATES" "DELETE-FILE" "DELETE-IF" "DELETE-IF-NOT" "DELETE-PACKAGE"
"DENOMINATOR" "DEPOSIT-FIELD" "DESCRIBE" "DESCRIBE-OBJECT" "DESTRUCTURING-BIND"
"DIGIT-CHAR" "DIGIT-CHAR-P" "DIRECTORY" "DIRECTORY-NAMESTRING" "DISASSEMBLE"
"DIVISION-BY-ZERO" "DO" "DO*" "DO-ALL-SYMBOLS" "DO-EXTERNAL-SYMBOLS" "DO-SYMBOLS"
"DOCUMENTATION" "DOLIST" "DOTIMES" "DOUBLE-FLOAT" "DOUBLE-FLOAT-EPSILON"
"DOUBLE-FLOAT-NEGATIVE-EPSILON" "DPB" "DRIBBLE" "DYNAMIC-EXTENT" "ECASE" "ECHO-STREAM"
"ECHO-STREAM-INPUT-STREAM" "ECHO-STREAM-OUTPUT-STREAM" "ED" "EIGHTH" "ELT"
"ENCODE-UNIVERSAL-TIME" "END-OF-FILE" "ENDP" "ENOUGH-NAMESTRING"
"ENSURE-DIRECTORIES-EXIST" "ENSURE-GENERIC-FUNCTION" "EQ" "EQL" "EQUAL" "EQUALP" "ERROR"
"ETYPECASE" "EVAL" "EVAL-WHEN" "EVENP" "EVERY" "EXP" "EXPORT" "EXPT" "EXTENDED-CHAR"
"FBOUNDP" "FCEILING" "FDEFINITION" "FFLOOR" "FIFTH" "FILE-AUTHOR" "FILE-ERROR"
"FILE-ERROR-PATHNAME" "FILE-LENGTH" "FILE-NAMESTRING" "FILE-POSITION" "FILE-STREAM"
"FILE-STRING-LENGTH" "FILE-WRITE-DATE" "FILL" "FILL-POINTER" "FIND" "FIND-ALL-SYMBOLS"
"FIND-CLASS" "FIND-IF" "FIND-IF-NOT" "FIND-METHOD" "FIND-PACKAGE" "FIND-RESTART"
"FIND-SYMBOL" "FINISH-OUTPUT" "FIRST" "FIXNUM" "FLET" "FLOAT" "FLOAT-DIGITS"
"FLOAT-PRECISION" "FLOAT-RADIX" "FLOAT-SIGN" "FLOATING-POINT-INEXACT"
"FLOATING-POINT-INVALID-OPERATION" "FLOATING-POINT-OVERFLOW" "FLOATING-POINT-UNDERFLOW"
"FLOATP" "FLOOR" "FMAKUNBOUND" "FORCE-OUTPUT" "FORMAT" "FORMATTER" "FOURTH" "FRESH-LINE"
"FROUND" "FTRUNCATE" "FTYPE" "FUNCALL" "FUNCTION" "FUNCTION-KEYWORDS"
"FUNCTION-LAMBDA-EXPRESSION" "FUNCTIONP" "GCD" "GENERIC-FUNCTION" "GENSYM" "GENTEMP" "GET"
"GET-DECODED-TIME" "GET-DISPATCH-MACRO-CHARACTER" "GET-INTERNAL-REAL-TIME"
"GET-INTERNAL-RUN-TIME" "GET-MACRO-CHARACTER" "GET-OUTPUT-STREAM-STRING" "GET-PROPERTIES"
"GET-SETF-EXPANSION" "GET-UNIVERSAL-TIME" "GETF" "GETHASH" "GO" "GRAPHIC-CHAR-P"
"HANDLER-BIND" "HANDLER-CASE" "HASH-TABLE" "HASH-TABLE-COUNT" "HASH-TABLE-P"
"HASH-TABLE-REHASH-SIZE" "HASH-TABLE-REHASH-THRESHOLD" "HASH-TABLE-SIZE" "HASH-TABLE-TEST"
"HOST-NAMESTRING" "IDENTITY" "IF" "IGNORABLE" "IGNORE" "IGNORE-ERRORS" "IMAGPART" "IMPORT"
"IN-PACKAGE" "INCF" "INITIALIZE-INSTANCE" "INLINE" "INPUT-STREAM-P" "INSPECT" "INTEGER"
"INTEGER-DECODE-FLOAT" "INTEGER-LENGTH" "INTEGERP" "INTERACTIVE-STREAM-P" "INTERN"
"INTERNAL-TIME-UNITS-PER-SECOND" "INTERSECTION" "INVALID-METHOD-ERROR" "INVOKE-DEBUGGER"
"INVOKE-RESTART" "INVOKE-RESTART-INTERACTIVELY" "ISQRT" "KEYWORD" "KEYWORDP" "LABELS"
"LAMBDA" "LAMBDA-LIST-KEYWORDS" "LAMBDA-PARAMETERS-LIMIT" "LAST" "LCM" "LDB" "LDB-TEST"
"LDIFF" "LEAST-NEGATIVE-DOUBLE-FLOAT" "LEAST-NEGATIVE-LONG-FLOAT"
"LEAST-NEGATIVE-NORMALIZED-DOUBLE-FLOAT" "LEAST-NEGATIVE-NORMALIZED-LONG-FLOAT"
"LEAST-NEGATIVE-NORMALIZED-SHORT-FLOAT" "LEAST-NEGATIVE-NORMALIZED-SINGLE-FLOAT"
"LEAST-NEGATIVE-SHORT-FLOAT" "LEAST-NEGATIVE-SINGLE-FLOAT" "LEAST-POSITIVE-DOUBLE-FLOAT"
"LEAST-POSITIVE-LONG-FLOAT" "LEAST-POSITIVE-NORMALIZED-DOUBLE-FLOAT"
"LEAST-POSITIVE-NORMALIZED-LONG-FLOAT" "LEAST-POSITIVE-NORMALIZED-SHORT-FLOAT"
"LEAST-POSITIVE-NORMALIZED-SINGLE-FLOAT" "LEAST-POSITIVE-SHORT-FLOAT"
"LEAST-POSITIVE-SINGLE-FLOAT" "LENGTH" "LET" "LET*" "LISP-IMPLEMENTATION-TYPE"
"LISP-IMPLEMENTATION-VERSION" "LIST" "LIST*" "LIST-ALL-PACKAGES" "LIST-LENGTH" "LISTEN"
"LISTP" "LOAD" "LOAD-LOGICAL-PATHNAME-TRANSLATIONS" "LOAD-TIME-VALUE" "LOCALLY" "LOG"
"LOGAND" "LOGANDC1" "LOGANDC2" "LOGBITP" "LOGCOUNT" "LOGEQV" "LOGICAL-PATHNAME"
"LOGICAL-PATHNAME-TRANSLATIONS" "LOGIOR" "LOGNAND" "LOGNOR" "LOGNOT" "LOGORC1" "LOGORC2"
"LOGTEST" "LOGXOR" "LONG-FLOAT" "LONG-FLOAT-EPSILON" "LONG-FLOAT-NEGATIVE-EPSILON"
"LONG-SITE-NAME" "LOOP" "LOOP-FINISH" "LOWER-CASE-P" "MACHINE-INSTANCE" "MACHINE-TYPE"
"MACHINE-VERSION" "MACRO-FUNCTION" "MACROEXPAND" "MACROEXPAND-1" "MACROLET" "MAKE-ARRAY"
"MAKE-BROADCAST-STREAM" "MAKE-CONCATENATED-STREAM" "MAKE-CONDITION"
"MAKE-DISPATCH-MACRO-CHARACTER" "MAKE-ECHO-STREAM" "MAKE-HASH-TABLE" "MAKE-INSTANCE"
"MAKE-INSTANCES-OBSOLETE" "MAKE-LIST" "MAKE-LOAD-FORM" "MAKE-LOAD-FORM-SAVING-SLOTS"
"MAKE-METHOD" "MAKE-PACKAGE" "MAKE-PATHNAME" "MAKE-RANDOM-STATE" "MAKE-SEQUENCE"
"MAKE-STRING" "MAKE-STRING-INPUT-STREAM" "MAKE-STRING-OUTPUT-STREAM" "MAKE-SYMBOL"
"MAKE-SYNONYM-STREAM" "MAKE-TWO-WAY-STREAM" "MAKUNBOUND" "MAP" "MAP-INTO" "MAPC" "MAPCAN"
"MAPCAR" "MAPCON" "MAPHASH" "MAPL" "MAPLIST" "MASK-FIELD" "MAX" "MEMBER" "MEMBER-IF"
"MEMBER-IF-NOT" "MERGE" "MERGE-PATHNAMES" "METHOD" "METHOD-COMBINATION"
"METHOD-COMBINATION-ERROR" "METHOD-QUALIFIERS" "MIN" "MINUSP" "MISMATCH" "MOD"
"MOST-NEGATIVE-DOUBLE-FLOAT" "MOST-NEGATIVE-FIXNUM" "MOST-NEGATIVE-LONG-FLOAT"
"MOST-NEGATIVE-SHORT-FLOAT" "MOST-NEGATIVE-SINGLE-FLOAT" "MOST-POSITIVE-DOUBLE-FLOAT"
"MOST-POSITIVE-FIXNUM" "MOST-POSITIVE-LONG-FLOAT" "MOST-POSITIVE-SHORT-FLOAT"
"MOST-POSITIVE-SINGLE-FLOAT" "MUFFLE-WARNING" "MULTIPLE-VALUE-BIND" "MULTIPLE-VALUE-CALL"
"MULTIPLE-VALUE-LIST" "MULTIPLE-VALUE-PROG1" "MULTIPLE-VALUE-SETQ" "MULTIPLE-VALUES-LIMIT"
"NAME-CHAR" "NAMESTRING" "NBUTLAST" "NCONC" "NEXT-METHOD-P" "NIL" "NINTERSECTION" "NINTH"
"NO-APPLICABLE-METHOD" "NO-NEXT-METHOD" "NOT" "NOTANY" "NOTEVERY" "NOTINLINE" "NRECONC"
"NREVERSE" "NSET-DIFFERENCE" "NSET-EXCLUSIVE-OR" "NSTRING-CAPITALIZE" "NSTRING-DOWNCASE"
"NSTRING-UPCASE" "NSUBLIS" "NSUBST" "NSUBST-IF" "NSUBST-IF-NOT" "NSUBSTITUTE"
"NSUBSTITUTE-IF" "NSUBSTITUTE-IF-NOT" "NTH" "NTH-VALUE" "NTHCDR" "NULL" "NUMBER" "NUMBERP"
"NUMERATOR" "NUNION" "ODDP" "OPEN" "OPEN-STREAM-P" "OPTIMIZE" "OR" "OTHERWISE"
"OUTPUT-STREAM-P" "PACKAGE" "PACKAGE-ERROR" "PACKAGE-ERROR-PACKAGE" "PACKAGE-NAME"
"PACKAGE-NICKNAMES" "PACKAGE-SHADOWING-SYMBOLS" "PACKAGE-USE-LIST" "PACKAGE-USED-BY-LIST"
"PACKAGEP" "PAIRLIS" "PARSE-ERROR" "PARSE-INTEGER" "PARSE-NAMESTRING" "PATHNAME"
"PATHNAME-DEVICE" "PATHNAME-DIRECTORY" "PATHNAME-HOST" "PATHNAME-MATCH-P" "PATHNAME-NAME"
"PATHNAME-TYPE" "PATHNAME-VERSION" "PATHNAMEP" "PEEK-CHAR" "PHASE" "PI" "PLUSP" "POP"
"POSITION" "POSITION-IF" "POSITION-IF-NOT" "PPRINT" "PPRINT-DISPATCH"
"PPRINT-EXIT-IF-LIST-EXHAUSTED" "PPRINT-FILL" "PPRINT-INDENT" "PPRINT-LINEAR"
"PPRINT-LOGICAL-BLOCK" "PPRINT-NEWLINE" "PPRINT-POP" "PPRINT-TAB" "PPRINT-TABULAR" "PRIN1"
"PRIN1-TO-STRING" "PRINC" "PRINC-TO-STRING" "PRINT" "PRINT-NOT-READABLE"
"PRINT-NOT-READABLE-OBJECT" "PRINT-OBJECT" "PRINT-UNREADABLE-OBJECT" "PROBE-FILE"
"PROCLAIM" "PROG" "PROG*" "PROG1" "PROG2" "PROGN" "PROGRAM-ERROR" "PROGV" "PROVIDE"
"PSETF" "PSETQ" "PUSH" "PUSHNEW" "QUOTE" "RANDOM" "RANDOM-STATE" "RANDOM-STATE-P" "RASSOC"
"RASSOC-IF" "RASSOC-IF-NOT" "RATIO" "RATIONAL" "RATIONALIZE" "RATIONALP" "READ"
"READ-BYTE" "READ-CHAR" "READ-CHAR-NO-HANG" "READ-DELIMITED-LIST" "READ-FROM-STRING"
"READ-LINE" "READ-PRESERVING-WHITESPACE" "READ-SEQUENCE" "READER-ERROR" "READTABLE"
"READTABLE-CASE" "READTABLEP" "REAL" "REALP" "REALPART" "REDUCE" "REINITIALIZE-INSTANCE"
"REM" "REMF" "REMHASH" "REMOVE" "REMOVE-DUPLICATES" "REMOVE-IF" "REMOVE-IF-NOT"
"REMOVE-METHOD" "REMPROP" "RENAME-FILE" "RENAME-PACKAGE" "REPLACE" "REQUIRE" "REST"
"RESTART" "RESTART-BIND" "RESTART-CASE" "RESTART-NAME" "RETURN" "RETURN-FROM" "REVAPPEND"
"REVERSE" "ROOM" "ROTATEF" "ROUND" "ROW-MAJOR-AREF" "RPLACA" "RPLACD" "SAFETY" "SATISFIES"
"SBIT" "SCALE-FLOAT" "SCHAR" "SEARCH" "SECOND" "SEQUENCE" "SERIOUS-CONDITION" "SET"
"SET-DIFFERENCE" "SET-DISPATCH-MACRO-CHARACTER" "SET-EXCLUSIVE-OR" "SET-MACRO-CHARACTER"
"SET-PPRINT-DISPATCH" "SET-SYNTAX-FROM-CHAR" "SETF" "SETQ" "SEVENTH" "SHADOW"
"SHADOWING-IMPORT" "SHARED-INITIALIZE" "SHIFTF" "SHORT-FLOAT" "SHORT-FLOAT-EPSILON"
"SHORT-FLOAT-NEGATIVE-EPSILON" "SHORT-SITE-NAME" "SIGNAL" "SIGNED-BYTE" "SIGNUM"
"SIMPLE-ARRAY" "SIMPLE-BASE-STRING" "SIMPLE-BIT-VECTOR" "SIMPLE-BIT-VECTOR-P"
"SIMPLE-CONDITION" "SIMPLE-CONDITION-FORMAT-ARGUMENTS" "SIMPLE-CONDITION-FORMAT-CONTROL"
"SIMPLE-ERROR" "SIMPLE-STRING" "SIMPLE-STRING-P" "SIMPLE-TYPE-ERROR" "SIMPLE-VECTOR"
"SIMPLE-VECTOR-P" "SIMPLE-WARNING" "SIN" "SINGLE-FLOAT" "SINGLE-FLOAT-EPSILON"
"SINGLE-FLOAT-NEGATIVE-EPSILON" "SINH" "SIXTH" "SLEEP" "SLOT-BOUNDP" "SLOT-EXISTS-P"
"SLOT-MAKUNBOUND" "SLOT-MISSING" "SLOT-UNBOUND" "SLOT-VALUE" "SOFTWARE-TYPE"
"SOFTWARE-VERSION" "SOME" "SORT" "SPACE" "SPECIAL" "SPECIAL-OPERATOR-P" "SPEED" "SQRT"
"STABLE-SORT" "STANDARD" "STANDARD-CHAR" "STANDARD-CHAR-P" "STANDARD-CLASS"
"STANDARD-GENERIC-FUNCTION" "STANDARD-METHOD" "STANDARD-OBJECT" "STEP" "STORAGE-CONDITION"
"STORE-VALUE" "STREAM" "STREAM-ELEMENT-TYPE" "STREAM-ERROR" "STREAM-ERROR-STREAM"
"STREAM-EXTERNAL-FORMAT" "STREAMP" "STRING" "STRING-CAPITALIZE" "STRING-DOWNCASE"
"STRING-EQUAL" "STRING-GREATERP" "STRING-LEFT-TRIM" "STRING-LESSP" "STRING-NOT-EQUAL"
"STRING-NOT-GREATERP" "STRING-NOT-LESSP" "STRING-RIGHT-TRIM" "STRING-STREAM" "STRING-TRIM"
"STRING-UPCASE" "STRING/=" "STRING<" "STRING<=" "STRING=" "STRING>" "STRING>=" "STRINGP"
"STRUCTURE" "STRUCTURE-CLASS" "STRUCTURE-OBJECT" "STYLE-WARNING" "SUBLIS" "SUBSEQ"
"SUBSETP" "SUBST" "SUBST-IF" "SUBST-IF-NOT" "SUBSTITUTE" "SUBSTITUTE-IF"
"SUBSTITUTE-IF-NOT" "SUBTYPEP" "SVREF" "SXHASH" "SYMBOL" "SYMBOL-FUNCTION"
"SYMBOL-MACROLET" "SYMBOL-NAME" "SYMBOL-PACKAGE" "SYMBOL-PLIST" "SYMBOL-VALUE" "SYMBOLP"
"SYNONYM-STREAM" "SYNONYM-STREAM-SYMBOL" "T" "TAGBODY" "TAILP" "TAN" "TANH" "TENTH"
"TERPRI" "THE" "THIRD" "THROW" "TIME" "TRACE" "TRANSLATE-LOGICAL-PATHNAME"
"TRANSLATE-PATHNAME" "TREE-EQUAL" "TRUENAME" "TRUNCATE" "TWO-WAY-STREAM"
"TWO-WAY-STREAM-INPUT-STREAM" "TWO-WAY-STREAM-OUTPUT-STREAM" "TYPE" "TYPE-ERROR"
"TYPE-ERROR-DATUM" "TYPE-ERROR-EXPECTED-TYPE" "TYPE-OF" "TYPECASE" "TYPEP" "UNBOUND-SLOT"
"UNBOUND-SLOT-INSTANCE" "UNBOUND-VARIABLE" "UNDEFINED-FUNCTION" "UNEXPORT" "UNINTERN"
"UNION" "UNLESS" "UNREAD-CHAR" "UNSIGNED-BYTE" "UNTRACE" "UNUSE-PACKAGE" "UNWIND-PROTECT"
"UPDATE-INSTANCE-FOR-DIFFERENT-CLASS" "UPDATE-INSTANCE-FOR-REDEFINED-CLASS"
"UPGRADED-ARRAY-ELEMENT-TYPE" "UPGRADED-COMPLEX-PART-TYPE" "UPPER-CASE-P" "USE-PACKAGE"
"USE-VALUE" "USER-HOMEDIR-PATHNAME" "VALUES" "VALUES-LIST" "VARIABLE" "VECTOR"
"VECTOR-POP" "VECTOR-PUSH" "VECTOR-PUSH-EXTEND" "VECTORP" "WARN" "WARNING" "WHEN"
"WILD-PATHNAME-P" "WITH-ACCESSORS" "WITH-COMPILATION-UNIT" "WITH-CONDITION-RESTARTS"
"WITH-HASH-TABLE-ITERATOR" "WITH-INPUT-FROM-STRING" "WITH-OPEN-FILE" "WITH-OPEN-STREAM"
"WITH-OUTPUT-TO-STRING" "WITH-PACKAGE-ITERATOR" "WITH-SIMPLE-RESTART" "WITH-SLOTS"
"WITH-STANDARD-IO-SYNTAX" "WRITE" "WRITE-BYTE" "WRITE-CHAR" "WRITE-LINE" "WRITE-SEQUENCE"
"WRITE-STRING" "WRITE-TO-STRING" "Y-OR-N-P" "YES-OR-NO-P" "ZEROP"))
(defvar *export-from-glisp*
'(
"DEFSUBST"
"G/MAKE-STRING"
"MP/MAKE-LOCK"
"MP/WITH-LOCK"
"WITH-TIMEOUT"
"OPEN-INET-SOCKET"
;; util.lisp :
"ALWAYS"
"CL-BYTE-STREAM"
"CL-CHAR-STREAM"
"CL-STREAM"
"COMPOSE"
"CURRY"
"FALSE"
"FORCE"
"G/CLOSE"
"G/FINISH-OUTPUT"
"G/PEEK-CHAR"
"G/READ-BYTE"
"G/READ-BYTE-SEQUENCE"
"G/READ-CHAR"
"G/READ-CHAR-SEQUENCE"
"G/READ-LINE"
"G/READ-LINE*"
"G/UNREAD-BYTE"
"G/UNREAD-CHAR"
"G/WRITE-BYTE"
"G/WRITE-BYTE-SEQUENCE"
"G/WRITE-CHAR"
"G/WRITE-STRING"
"GSTREAM"
"MAP-ARRAY"
"MAPFCAR"
"MAX*"
"MAXF"
"MIN*"
"MINF"
"MULTIPLE-VALUE-OR"
"MULTIPLE-VALUE-SOME"
"NCONCF"
"NEQ"
"PROMISE"
"RCURRY"
"SANIFY-STRING"
"SHOW"
"SPLIT-BY"
"SPLIT-BY-IF"
"SPLIT-BY-MEMBER"
"SPLIT-STRING"
"STRING-BEGIN-EQUAL"
"TRUE"
"UNTIL"
"USE-BYTE-FOR-CHAR-STREAM-FLAVOUR"
"USE-CHAR-FOR-BYTE-STREAM-FLAVOUR"
"WHILE"
"WHITE-SPACE-P"
"CL-BYTE-STREAM->GSTREAM"
"CL-CHAR-STREAM->GSTREAM"
"G/OPEN-INET-SOCKET"
"ACCEPT-CONNECTION"
"FIND-TEMPORARY-FILE"
"DELETE-TEMPORARY-FILE"
"WITH-TEMPORARY-FILE"
"SET-EQUAL"
"MAYBE-PARSE-INTEGER"
"NOP"
"WITH-STRUCTURE-SLOTS"
"COMPILE-FUNCALL"
"FUNCALL*"
"MAPC*"
"VREDUCE*"
"LREDUCE*"
"WITH-UNIQUE-NAMES"
;; runes.lisp
"RUNE"
"ROD"
"SIMPLE-ROD"
"%RUNE"
"ROD-CAPITALIZE"
"CODE-RUNE"
"RUNE-CODE"
"RUNE-DOWNCASE"
"RUNE-UPCASE"
"ROD-DOWNCASE"
"ROD-UPCASE"
"WHITE-SPACE-RUNE-P"
"DIGIT-RUNE-P"
"RUNE="
"RUNE<="
"RUNE>="
"RUNE-EQUAL"
"RUNEP"
"SLOOPY-ROD-P"
"ROD="
"ROD-EQUAL"
"MAKE-ROD"
"CHAR-RUNE"
"RUNE-CHAR"
"ROD-STRING"
"STRING-ROD"
"ROD-SUBSEQ"
"G/MAKE-HASH-TABLE"
"G/HASHGET"
"G/CLRHASH"
"STIR-HASH-CODES"
"HASH-SEQUENCE"
"HASH/STRING-EQUAL"
"MAKE-STRING-EQUAL-HASH-TABLE"
"PRIMEP"
;; match.lisp
"DEFINE-MATCH-MACRO"
"IF-MATCH"
"GSTREAM-AS-STRING"
))
(defparameter *packages*
#-GCL '(:common-lisp)
#+GCL '(:lisp :pcl) )
(defparameter *gray-symbols*
'("FUNDAMENTAL-STREAM"
"FUNDAMENTAL-INPUT-STREAM"
"FUNDAMENTAL-OUTPUT-STREAM"
"FUNDAMENTAL-CHARACTER-STREAM"
"FUNDAMENTAL-BINARY-STREAM"
"FUNDAMENTAL-CHARACTER-INPUT-STREAM"
"FUNDAMENTAL-CHARACTER-OUTPUT-STREAM"
"FUNDAMENTAL-BINARY-INPUT-STREAM"
"STREAM-READ-CHAR"
"STREAM-UNREAD-CHAR"
"STREAM-READ-CHAR-NO-HANG"
"STREAM-PEEK-CHAR"
"STREAM-LISTEN"
"STREAM-READ-LINE"
"STREAM-CLEAR-INPUT"
"STREAM-WRITE-CHAR"
"STREAM-LINE-COLUMN"
"STREAM-START-LINE-P"
"STREAM-WRITE-STRING"
"STREAM-TERPRI"
"STREAM-FRESH-LINE"
"STREAM-FINISH-OUTPUT"
"STREAM-FORCE-OUTPUT"
"STREAM-ADVANCE-TO-COLUMN"
"STREAM-READ-BYTE"
"STREAM-WRITE-BYTE" ))
(defparameter *gray-packages*
`(
#+:CLISP ,@'(:lisp)
#+:CMU ,@'(:ext)
#+:sbcl ,@'(:sb-gray)
#+:ALLEGRO ,@'(:common-lisp :excl :stream)
#+:HARLEQUIN-COMMON-LISP ,@'(:stream)
#+:OPENMCL ,@'(:ccl)
))
(defun seek-symbol (name packages)
;; Seek the a symbol named 'name' in `packages'
(or (some #'(lambda (p)
(multiple-value-bind (sym res) (find-symbol name p)
(if (eql res :external)
(list sym)
nil)))
packages)
(progn (format T "~&There is no ~A in ~A." name packages)
(finish-output)
nil)))
(defun dump-defpackage (&aux imports export-ansi export-gray)
(labels ((grok (symbols packages)
(let ((res nil))
(dolist (nam symbols)
(let ((sym (seek-symbol nam packages)))
(when sym
(push (car sym) res)
(cond ((multiple-value-bind (sym2 res) (find-symbol nam :glisp)
(and sym2 (eq res :external)))
;;
(format T "~&;; ~S is pacthed." sym) )
(t
(setf sym (car sym))
;; CLISP has no (:import ..) ARG!
(push `(:import-from
,(package-name (symbol-package sym))
,(symbol-name sym))
imports))))))
res)))
(setf export-ansi (grok *all-ansi-symbols* *packages*))
(setf export-gray (grok *gray-symbols* *gray-packages*))
`(progn
(defpackage "GLISP" (:use)
,@imports
(:export
,@(mapcar #'symbol-name export-ansi)
,@(mapcar #'symbol-name export-gray)
,@*export-from-glisp*))
(defpackage "GLUSER"
(:use "GLISP")) )))
(defmacro define-glisp-package ()
(dump-defpackage))
)
(define-glisp-package)

412
glisp/runes.lisp
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@ -1,412 +0,0 @@
;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: GLISP; -*-
;;; ---------------------------------------------------------------------------
;;; Title: Unicode strings (called RODs)
;;; Created: 1999-05-25 22:29
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; License: GPL (See file COPYING for details).
;;; ---------------------------------------------------------------------------
;;; (c) copyright 1998,1999 by Gilbert Baumann
;;; 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
;; Changes
;;
;; When Who What
;; ----------------------------------------------------------------------------
;; 1999-08-15 GB - ROD=, ROD-EQUAL
;; RUNE<=, RUNE>=
;; MAKE-ROD, ROD-SUBSEQ
;; CHAR-RUNE, RUNE-CHAR, ROD-STRING, STRING-ROD
;; new functions
;; - Added rune reader
;;
(in-package :GLISP)
(deftype rune () '(unsigned-byte 16))
(deftype rod () '(array rune (*)))
(deftype simple-rod () '(simple-array rune (*)))
(defsubst rune (rod index)
(aref rod index))
(defun (setf rune) (new rod index)
(setf (aref rod index) new))
(defsubst %rune (rod index)
(aref (the (simple-array (unsigned-byte 16) (*)) rod) (the fixnum index)))
(defsubst (setf %rune) (new rod index)
(setf (aref (the (simple-array (unsigned-byte 16) (*)) rod) (the fixnum index)) new))
(defun rod-capitalize (rod)
(warn "~S is not implemented." 'rod-capitalize)
rod)
(defsubst code-rune (x) x)
(defsubst rune-code (x) x)
(defsubst rune= (x y)
(= x y))
(defun rune-downcase (rune)
(cond ((<= #x0041 rune #x005a) (+ rune #x20))
((= rune #x00d7) rune)
((<= #x00c0 rune #x00de) (+ rune #x20))
(t rune)))
(defsubst rune-upcase (rune)
(cond ((<= #x0061 rune #x007a) (- rune #x20))
((= rune #x00f7) rune)
((<= #x00e0 rune #x00fe) (- rune #x20))
(t rune)))
(defun rune-upper-case-letter-p (rune)
(or (<= #x0041 rune #x005a) (<= #x00c0 rune #x00de)))
(defun rune-lower-case-letter-p (rune)
(or (<= #x0061 rune #x007a) (<= #x00e0 rune #x00fe)
(= rune #x00d7)))
(defun rune-equal (x y)
(rune= (rune-upcase x) (rune-upcase y)))
(defun rod-downcase (rod)
;; FIXME
(register-rod
(map '(simple-array (unsigned-byte 16) (*)) #'rune-downcase rod)))
(defun rod-upcase (rod)
;; FIXME
(register-rod
(map '(simple-array (unsigned-byte 16) (*)) #'rune-upcase rod)))
(defsubst white-space-rune-p (char)
(or (= char 9) ;TAB
(= char 10) ;Linefeed
(= char 13) ;Carriage Return
(= char 32))) ;Space
(defsubst digit-rune-p (char &optional (radix 10))
(cond ((<= #.(char-code #\0) char #.(char-code #\9))
(and (< (- char #.(char-code #\0)) radix)
(- char #.(char-code #\0))))
((<= #.(char-code #\A) char #.(char-code #\Z))
(and (< (- char #.(char-code #\A) -10) radix)
(- char #.(char-code #\A) -10)))
((<= #.(char-code #\a) char #.(char-code #\z))
(and (< (- char #.(char-code #\a) -10) radix)
(- char #.(char-code #\a) -10))) ))
(defun rod (x)
(cond ((stringp x) (register-rod (map 'rod #'char-code x)))
((symbolp x) (rod (string x)))
((characterp x) (rod (string x)))
((vectorp x) (register-rod (coerce x 'rod)))
((integerp x) (register-rod (map 'rod #'identity (list x))))
(t (error "Cannot convert ~S to a ~S" x 'rod))))
(defun runep (x)
(and (integerp x)
(<= 0 x #xFFFF)))
(defun sloopy-rod-p (x)
(and (not (stringp x))
(vectorp x)
(every #'runep x)))
(defun rod= (x y)
(and (= (length x) (length y))
(dotimes (i (length x) t)
(unless (rune= (rune x i) (rune y i))
(return nil)))))
(defun rod-equal (x y)
(and (= (length x) (length y))
(dotimes (i (length x) t)
(unless (rune-equal (rune x i) (rune y i))
(return nil)))))
(defsubst make-rod (size)
(let ((res (make-array size :element-type 'rune)))
(register-rod res)
res))
(defun char-rune (char)
(code-rune (char-code char)))
(defun rune-char (rune &optional (default #\?))
#+CMU
(if (< rune 256) (code-char rune) default)
#-CMU
(or (code-char rune) default))
(defun rod-string (rod &optional (default-char #\?))
(map 'string (lambda (x) (rune-char x default-char)) rod))
(defun string-rod (string)
(let* ((n (length string))
(res (make-rod n)))
(dotimes (i n)
(setf (%rune res i) (char-rune (char string i))))
res))
;;;;
;;;; RUNE Reader
;;;;
;; Portable implementation of WHITE-SPACE-P with regard to the current
;; read table -- this is bit tricky.
(defun rt-white-space-p (char)
(let ((stream (make-string-input-stream (string char))))
(eq :eof (peek-char t stream nil :eof))))
(defun read-rune-name (input)
;; the first char is unconditionally read
(let ((char0 (read-char input t nil t)))
(when (char= char0 #\\)
(setf char0 (read-char input t nil t)))
(with-output-to-string (res)
(write-char char0 res)
(do ((ch (peek-char nil input nil :eof t) (peek-char nil input nil :eof t)))
((or (eq ch :eof)
(rt-white-space-p ch)
(multiple-value-bind (function non-terminating-p) (get-macro-character ch)
(and function (not non-terminating-p)))))
(write-char ch res)
(read-char input))))) ;consume this character
(defun iso-10646-char-code (char)
(char-code char))
(defvar *rune-names* (make-hash-table :test #'equal)
"Hashtable, which maps all known rune names to rune codes;
Names are stored in uppercase.")
(defun define-rune-name (name code)
(setf (gethash (string-upcase name) *rune-names*) code)
name)
(defun lookup-rune-name (name)
(gethash (string-upcase name) *rune-names*))
(define-rune-name "null" #x0000)
(define-rune-name "space" #x0020)
(define-rune-name "newline" #x000A)
(define-rune-name "return" #x000D)
(define-rune-name "tab" #x0009)
(define-rune-name "page" #x000C)
;; and just for fun:
(define-rune-name "euro" #x20AC)
;; ASCII control characters
(define-rune-name "nul" #x0000) ;null
(define-rune-name "soh" #x0001) ;start of header
(define-rune-name "stx" #x0002) ;start of text
(define-rune-name "etx" #x0003) ;end of text
(define-rune-name "eot" #x0004) ;end of transmission
(define-rune-name "enq" #x0005) ;
(define-rune-name "ack" #x0006) ;acknowledge
(define-rune-name "bel" #x0007) ;bell
(define-rune-name "bs" #x0008) ;backspace
(define-rune-name "ht" #x0009) ;horizontal tab
(define-rune-name "lf" #X000A) ;line feed, new line
(define-rune-name "vt" #X000B) ;vertical tab
(define-rune-name "ff" #x000C) ;form feed
(define-rune-name "cr" #x000D) ;carriage return
(define-rune-name "so" #x000E) ;shift out
(define-rune-name "si" #x000F) ;shift in
(define-rune-name "dle" #x0010) ;device latch enable ?
(define-rune-name "dc1" #x0011) ;device control 1
(define-rune-name "dc2" #x0012) ;device control 2
(define-rune-name "dc3" #x0013) ;device control 3
(define-rune-name "dc4" #x0014) ;device control 4
(define-rune-name "nak" #x0015) ;negative acknowledge
(define-rune-name "syn" #x0016) ;
(define-rune-name "etb" #x0017) ;
(define-rune-name "can" #x0018) ;
(define-rune-name "em" #x0019) ;end of message
(define-rune-name "sub" #x001A) ;
(define-rune-name "esc" #x001B) ;escape
(define-rune-name "fs" #x001C) ;field separator ?
(define-rune-name "gs" #x001D) ;group separator
(define-rune-name "rs" #x001E) ;
(define-rune-name "us" #x001F) ;
(define-rune-name "del" #x007F) ;delete
;; iso-latin
(define-rune-name "nbsp" #x00A0) ;non breakable space
(define-rune-name "shy" #x00AD) ;soft hyphen
(defun rune-from-read-name (name)
(cond ((= (length name) 1)
(iso-10646-char-code (char name 0)))
((and (= (length name) 2)
(char= (char name 0) #\\))
(iso-10646-char-code (char name 1)))
((and (>= (length name) 3)
(char-equal (char name 0) #\u)
(char-equal (char name 1) #\+)
(every (lambda (x) (digit-char-p x 16)) (subseq name 2)))
(parse-integer name :start 2 :radix 16))
((lookup-rune-name name))
(t
(error "Meaningless rune name ~S." name))))
(defun rune-reader (stream subchar arg)
subchar arg
(values (rune-from-read-name (read-rune-name stream))))
(set-dispatch-macro-character #\# #\/ 'rune-reader)
;;;;
(defun rune<= (rune &rest more-runes)
(apply #'<= rune more-runes))
(defun rune>= (rune &rest more-runes)
(apply #'>= rune more-runes))
(defun rodp (object)
(typep object 'rod))
(defun really-rod-p (object)
(and (typep object 'rod)
(really-really-rod-p object)))
(defun rod-subseq (source start &optional (end (length source)))
(unless (rodp source)
(error "~S is not of type ~S." source 'rod))
(unless (and (typep start 'fixnum) (>= start 0))
(error "~S is not a non-negative fixnum." start))
(unless (and (typep end 'fixnum) (>= end start))
(error "END argument, ~S, is not a fixnum no less than START, ~S." end start))
(when (> start (length source))
(error "START argument, ~S, should be no greater than length of rod." start))
(when (> end (length source))
(error "END argument, ~S, should be no greater than length of rod." end))
(locally
(declare (type rod source)
(type fixnum start end))
(let ((res (make-rod (- end start))))
(declare (type rod res))
(do ((i (- (- end start) 1) (the fixnum (- i 1))))
((< i 0) res)
(declare (type fixnum i))
(setf (%rune res i) (%rune source (the fixnum (+ i start))))))))
(defun rod-subseq* (source start &optional (end (length source)))
(unless (and (typep start 'fixnum) (>= start 0))
(error "~S is not a non-negative fixnum." start))
(unless (and (typep end 'fixnum) (>= end start))
(error "END argument, ~S, is not a fixnum no less than START, ~S." end start))
(when (> start (length source))
(error "START argument, ~S, should be no greater than length of rod." start))
(when (> end (length source))
(error "END argument, ~S, should be no greater than length of rod." end))
(locally
(declare (type fixnum start end))
(let ((res (make-rod (- end start))))
(declare (type rod res))
(do ((i (- (- end start) 1) (the fixnum (- i 1))))
((< i 0) res)
(declare (type fixnum i))
(setf (%rune res i) (aref source (the fixnum (+ i start))))))))
;;; Support for telling ROD and arrays apart:
#+CMU
(progn
(defvar *rod-hash-table*
(make-array 5003 :initial-element nil)))
(defun register-rod (rod)
#+CMU
(unless (really-really-rod-p rod)
(push (ext:make-weak-pointer rod)
(aref *rod-hash-table* (mod (cl::pointer-hash rod)
(length *rod-hash-table*)))))
rod)
(defun really-really-rod-p (rod)
#+CMU
(find rod (aref *rod-hash-table* (mod (cl::pointer-hash rod)
(length *rod-hash-table*)))
:key #'ext:weak-pointer-value))
#+CMU
(progn
(defun rod-hash-table-rehash ()
(let* ((n 5003)
(new (make-array n :initial-element nil)))
(loop for bucket across *rod-hash-table* do
(loop for item in bucket do
(let ((v (ext:weak-pointer-value item)))
(when v
(push item (aref new (mod (cl::pointer-hash v) n)))))))
(setf *rod-hash-table* new)))
(defun rod-hash-after-gc-hook ()
;; hmm interesting question: should we rehash?
(rod-hash-table-rehash))
(pushnew 'rod-hash-after-gc-hook extensions:*after-gc-hooks*) )
;;; ROD ext syntax
(defun rod-reader (stream subchar arg)
(declare (ignore arg))
(rod
(with-output-to-string (bag)
(do ((c (read-char stream t nil t)
(read-char stream t nil t)))
((char= c subchar))
(cond ((char= c #\\)
(setf c (read-char stream t nil t))))
(princ c bag)))))
(defun rod-printer (stream rod)
(princ #\# stream)
(princ #\" stream)
(loop for x across rod do
(cond ((or (rune= x #.(char-code #\\))
(rune= x #.(char-code #\")))
(princ #\\ stream)
(princ (code-char x) stream))
((< x char-code-limit)
(princ (code-char x) stream))
(t
(format stream "\\u~4,'0X" x))))
(princ #\" stream))
(set-pprint-dispatch '(satisfies really-rod-p) #'rod-printer)
(set-dispatch-macro-character #\# #\" 'rod-reader)
#||
(defun longish-array-p (arr)
(and (arrayp arr)
(> (array-total-size arr) 10)))
(set-pprint-dispatch '(satisfies longish-array-p)
#'(lambda (stream object)
(let ((*print-array* nil)
(*print-pretty* nil))
(prin1 object stream))))
||#

190
glisp/syntax.lisp
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@ -1,190 +0,0 @@
;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: GLISP; -*-
;;; ---------------------------------------------------------------------------
;;; Title: Unicode strings (called RODs)
;;; Created: 1999-05-25 22:29
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; License: GPL (See file COPYING for details).
;;; ---------------------------------------------------------------------------
;;; (c) copyright 1998,1999 by Gilbert Baumann
;;; 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
;; Changes
;;
;; When Who What
;; ----------------------------------------------------------------------------
;; 1999-08-15 GB - ROD=, ROD-EQUAL
;; RUNE<=, RUNE>=
;; MAKE-ROD, ROD-SUBSEQ
;; CHAR-RUNE, RUNE-CHAR, ROD-STRING, STRING-ROD
;; new functions
;; - Added rune reader
;;
(in-package :glisp)
;;;;
;;;; RUNE Reader
;;;;
;; Portable implementation of WHITE-SPACE-P with regard to the current
;; read table -- this is bit tricky.
(defun rt-white-space-p (char)
(let ((stream (make-string-input-stream (string char))))
(eq :eof (peek-char t stream nil :eof))))
(defun read-rune-name (input)
;; the first char is unconditionally read
(let ((char0 (read-char input t nil t)))
(when (char= char0 #\\)
(setf char0 (read-char input t nil t)))
(with-output-to-string (res)
(write-char char0 res)
(do ((ch (peek-char nil input nil :eof t) (peek-char nil input nil :eof t)))
((or (eq ch :eof)
(rt-white-space-p ch)
(multiple-value-bind (function non-terminating-p) (get-macro-character ch)
(and function (not non-terminating-p)))))
(write-char ch res)
(read-char input))))) ;consume this character
(defun iso-10646-char-code (char)
(char-code char))
(defvar *rune-names* (make-hash-table :test #'equal)
"Hashtable, which maps all known rune names to rune codes;
Names are stored in uppercase.")
(defun define-rune-name (name code)
(setf (gethash (string-upcase name) *rune-names*) code)
name)
(defun lookup-rune-name (name)
(gethash (string-upcase name) *rune-names*))
(define-rune-name "null" #x0000)
(define-rune-name "space" #x0020)
(define-rune-name "newline" #x000A)
(define-rune-name "return" #x000D)
(define-rune-name "tab" #x0009)
(define-rune-name "page" #x000C)
;; and just for fun:
(define-rune-name "euro" #x20AC)
;; ASCII control characters
(define-rune-name "nul" #x0000) ;null
(define-rune-name "soh" #x0001) ;start of header
(define-rune-name "stx" #x0002) ;start of text
(define-rune-name "etx" #x0003) ;end of text
(define-rune-name "eot" #x0004) ;end of transmission
(define-rune-name "enq" #x0005) ;
(define-rune-name "ack" #x0006) ;acknowledge
(define-rune-name "bel" #x0007) ;bell
(define-rune-name "bs" #x0008) ;backspace
(define-rune-name "ht" #x0009) ;horizontal tab
(define-rune-name "lf" #X000A) ;line feed, new line
(define-rune-name "vt" #X000B) ;vertical tab
(define-rune-name "ff" #x000C) ;form feed
(define-rune-name "cr" #x000D) ;carriage return
(define-rune-name "so" #x000E) ;shift out
(define-rune-name "si" #x000F) ;shift in
(define-rune-name "dle" #x0010) ;device latch enable ?
(define-rune-name "dc1" #x0011) ;device control 1
(define-rune-name "dc2" #x0012) ;device control 2
(define-rune-name "dc3" #x0013) ;device control 3
(define-rune-name "dc4" #x0014) ;device control 4
(define-rune-name "nak" #x0015) ;negative acknowledge
(define-rune-name "syn" #x0016) ;
(define-rune-name "etb" #x0017) ;
(define-rune-name "can" #x0018) ;
(define-rune-name "em" #x0019) ;end of message
(define-rune-name "sub" #x001A) ;
(define-rune-name "esc" #x001B) ;escape
(define-rune-name "fs" #x001C) ;field separator ?
(define-rune-name "gs" #x001D) ;group separator
(define-rune-name "rs" #x001E) ;
(define-rune-name "us" #x001F) ;
(define-rune-name "del" #x007F) ;delete
;; iso-latin
(define-rune-name "nbsp" #x00A0) ;non breakable space
(define-rune-name "shy" #x00AD) ;soft hyphen
(defun rune-from-read-name (name)
(cond ((= (length name) 1)
(iso-10646-char-code (char name 0)))
((and (= (length name) 2)
(char= (char name 0) #\\))
(iso-10646-char-code (char name 1)))
((and (>= (length name) 3)
(char-equal (char name 0) #\u)
(char-equal (char name 1) #\+)
(every (lambda (x) (digit-char-p x 16)) (subseq name 2)))
(parse-integer name :start 2 :radix 16))
((lookup-rune-name name))
(t
(error "Meaningless rune name ~S." name))))
(defun rune-reader (stream subchar arg)
subchar arg
(values (rune-from-read-name (read-rune-name stream))))
(set-dispatch-macro-character #\# #\/ 'rune-reader)
;;; ROD ext syntax
(defun rod-reader (stream subchar arg)
(declare (ignore arg))
(rod
(with-output-to-string (bag)
(do ((c (read-char stream t nil t)
(read-char stream t nil t)))
((char= c subchar))
(cond ((char= c #\\)
(setf c (read-char stream t nil t))))
(princ c bag)))))
(defun rod-printer (stream rod)
(princ #\# stream)
(princ #\" stream)
(loop for x across rod do
(cond ((or (rune= x #.(char-code #\\))
(rune= x #.(char-code #\")))
(princ #\\ stream)
(princ (code-char x) stream))
((< x char-code-limit)
(princ (code-char x) stream))
(t
(format stream "\\u~4,'0X" x))))
(princ #\" stream))
(set-pprint-dispatch '(satisfies really-rod-p) #'rod-printer)
(set-dispatch-macro-character #\# #\" 'rod-reader)
#||
(defun longish-array-p (arr)
(and (arrayp arr)
(> (array-total-size arr) 10)))
(set-pprint-dispatch '(satisfies longish-array-p)
#'(lambda (stream object)
(let ((*print-array* nil)
(*print-pretty* nil))
(prin1 object stream))))
||#

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glisp/util.lisp
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xml/dom-builder.lisp
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(in-package :dom-impl)
(export 'dom-builder)
(defclass dom-builder ()
((document :initform nil :accessor document)
(element-stack :initform '() :accessor element-stack)))
(defmethod sax:start-document ((handler dom-builder))
(let ((document (make-instance 'dom-impl::document))
(doctype (make-instance 'dom-impl::document-type
:notations (make-hash-table :test #'equalp))))
(setf (slot-value document 'dom-impl::owner) document
(slot-value document 'dom-impl::doc-type) doctype)
(setf (document handler) document)
(push document (element-stack handler))))
(defmethod sax:end-document ((handler dom-builder))
(setf (slot-value (document handler) 'children )
(nreverse (slot-value (document handler) 'children)))
(document handler))
(defmethod sax:start-element ((handler dom-builder) namespace-uri local-name qname attributes)
(with-slots (document element-stack) handler
(let ((element (dom:create-element document qname))
(parent (car element-stack)))
(dolist (attr attributes)
(dom:set-attribute element (xml::attribute-qname attr) (xml::attribute-value attr)))
(setf (slot-value element 'dom-impl::parent) parent)
(push element (slot-value parent 'dom-impl::children))
(push element element-stack))))
(defmethod sax:end-element ((handler dom-builder) namespace-uri local-name qname)
(let ((element (pop (element-stack handler))))
(setf (slot-value element 'dom-impl::children)
(nreverse (slot-value element 'dom-impl::children)))))
(defmethod sax:characters ((handler dom-builder) data)
(with-slots (document element-stack) handler
(let ((node (dom:create-text-node document data)))
(push node (slot-value (car element-stack) 'dom-impl::children)))))
(defmethod sax:processing-instruction ((handler dom-builder) target data)
(with-slots (document element-stack) handler
(let ((node (dom:create-processing-instruction document target data)))
(push node (slot-value (car element-stack) 'dom-impl::children)))))

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xml/dom-impl.lisp
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(defpackage :dom-impl
(:use :glisp))
(in-package :dom-impl)
;; Classes
(defclass node ()
((parent :initarg :parent :initform nil)
(children :initarg :children :initform nil)
(owner :initarg :owner :initform nil)))
(defclass document (node)
((doc-type :initarg :doc-type :reader dom:doctype)))
(defclass document-fragment (node)
())
(defclass character-data (node)
((data :initarg :data :reader dom:data)))
(defclass attribute (node)
((name :initarg :name :reader dom:name)
(value :initarg :value :reader dom:value)
(specified-p :initarg :specified-p :reader dom:specified)))
(defclass element (node)
((tag-name :initarg :tag-name :reader dom:tag-name)
(attributes :initarg :attributes :reader dom:attributes
:initform (make-instance 'named-node-map))))
(defclass text (character-data)
())
(defclass comment (character-data)
())
(defclass cdata-section (text)
())
(defclass document-type (node)
((name :initarg :name :reader dom:name)
(entities :initarg :entities :reader dom:entities)
(notations :initarg :notations :reader dom:notations)))
(defclass notation (node)
((name :initarg :name :reader dom:name)
(public-id :initarg :public-id :reader dom:public-id)
(system-id :initarg :system-id :reader dom:system-id)))
(defclass entity (node)
((name :initarg :name :reader dom:name)
(public-id :initarg :public-id :reader dom:public-id)
(system-id :initarg :system-id :reader dom:system-id)
(notation-name :initarg :notation-name :reader dom:notation-name)))
(defclass entity-reference (node)
((name :initarg :name :reader dom:name)))
(defclass processing-instruction (node)
((target :initarg :target :reader dom:target)
(data :initarg :data :reader dom:data)))
(defclass named-node-map ()
((items :initarg :items :reader dom:items
:initform nil) ))
;;; Implementation
;; document-fragment protocol
;; document protocol
(defmethod dom:implementation ((document document))
'implementation)
(defmethod dom:document-element ((document document))
(dolist (k (dom:child-nodes document))
(cond ((typep k 'element)
(return k)))))
(defmethod dom:create-element ((document document) tag-name)
(setf tag-name (rod tag-name))
(make-instance 'element
:tag-name tag-name
:owner document))
(defmethod dom:create-document-fragment ((document document))
(make-instance 'document-fragment
:owner document))
(defmethod dom:create-text-node ((document document) data)
(setf data (rod data))
(make-instance 'text
:data data
:owner document))
(defmethod dom:create-comment ((document document) data)
(setf data (rod data))
(make-instance 'comment
:data data
:owner document))
(defmethod dom:create-cdata-section ((document document) data)
(setf data (rod data))
(make-instance 'cdata-section
:data data
:owner document))
(defmethod dom:create-processing-instruction ((document document) target data)
(setf target (rod target))
(setf data (rod data))
(make-instance 'processing-instruction
:owner document
:target target
:data data))
(defmethod dom:create-attribute ((document document) name)
(setf name (rod name))
(make-instance 'attribute
:name name
:specified-p nil ;???
:owner document))
(defmethod dom:create-entity-reference ((document document) name)
(setf name (rod name))
(make-instance 'entity-reference
:name name
:owner document))
(defmethod dom:get-elements-by-tag-name ((document document) tag-name)
(setf tag-name (rod tag-name))
(let ((result nil))
(setf tag-name (rod tag-name))
(let ((wild-p (rod= tag-name '#.(string-rod "*"))))
(labels ((walk (n)
(when (and (dom:element-p n)
(or wild-p (tag-name-eq tag-name (dom:node-name n))))
(push n result))
(mapc #'walk (dom:child-nodes n))))
(walk document)
(reverse result)))))
;;; Node
(defmethod dom:parent-node ((node node))
(slot-value node 'parent))
(defmethod dom:child-nodes ((node node))
(slot-value node 'children))
(defmethod dom:first-child ((node node))
(car (slot-value node 'children)))
(defmethod dom:last-child ((node node))
(car (last (slot-value node 'children))))
(defmethod dom:previous-sibling ((node node))
(with-slots (parent) node
(when parent
(with-slots (children) parent
(do ((q children (cdr q)))
((null (cdr q)) niL)
(cond ((eq (cadr q) node)
(return (car q)))))))))
(defmethod dom:next-sibling ((node node))
(with-slots (parent) node
(when parent
(with-slots (children) parent
(do ((q children (cdr q)))
((null (cdr q)) niL)
(cond ((eq (car q) node)
(return (cadr q)))))))))
(defmethod dom:owner-document ((node node))
(slot-value node 'owner))
(defun ensure-valid-insertion-request (node new-child)
(unless (can-adopt-p node new-child)
;; HIERARCHY_REQUEST_ERR
(error "~S cannot adopt ~S." node new-child))
(unless (eq (dom:owner-document node)
(dom:owner-document new-child))
;; WRONG_DOCUMENT_ERR
(error "~S cannot adopt ~S, since it was created by a different document."
node new-child))
(with-slots (children) node
(unless (null (slot-value new-child 'parent))
(cond ((eq (slot-value new-child 'parent)
node)
;; remove it first
(setf children (delete new-child children)))
(t
;; otherwise it is an error.
;; GB_INTEGRITY_ERR
(error "~S is already adopted." new-child)))) ))
(defmethod dom:insert-before ((node node) (new-child node) (ref-child t))
(ensure-valid-insertion-request node new-child)
(with-slots (children) node
(cond ((eq (car children) ref-child)
(setf (slot-value new-child 'parent) node)
(setf children (cons new-child children)))
(t
(do ((q children (cdr q)))
((null (cdr q))
(cond ((null ref-child)
(setf (slot-value new-child 'parent) node)
(setf (cdr q) (cons new-child nil)))
(t
;; NOT_FOUND_ERR
(error "~S is no child of ~S." ref-child node))))
(cond ((eq (cadr q) ref-child)
(setf (slot-value new-child 'parent) node)
(setf (cdr q) (cons new-child (cdr q)))
(return))))))
new-child))
(defmethod dom:insert-before ((node node) (fragment document-fragment) ref-child)
(dolist (child (dom:child-nodes fragment))
(dom:insert-before node child ref-child))
fragment)
(defmethod dom:replace-child ((node node) (new-child node) (old-child node))
(ensure-valid-insertion-request node new-child)
(with-slots (children) node
(do ((q children (cdr q)))
((null q)
;; NOT_FOUND_ERR
(error "~S is no child of ~S." old-child node))
(cond ((eq (car q) old-child)
(setf (car q) new-child)
(setf (slot-value new-child 'parent) node)
(setf (slot-value old-child 'parent) nil)
(return))))
old-child))
(defmethod dom:append-child ((node node) (new-child node))
(ensure-valid-insertion-request node new-child)
(with-slots (children) node
(setf children (nconc children (list new-child)))
(setf (slot-value new-child 'parent) node)
new-child))
(defmethod dom:has-child-nodes ((node node))
(not (null (slot-value node 'children))))
(defmethod dom:append-child ((node node) (new-child document-fragment))
(dolist (child (dom:child-nodes new-child))
(dom:append-child node child))
new-child)
;; was auf node noch implemetiert werden muss:
;; - node-type
;; - can-adopt-p
;; - ggf attributes
;; - node-name
;; - node-value
;; node-name
(defmethod dom:node-name ((self document))
'#.(string-rod "#document"))
(defmethod dom:node-name ((self document-fragment))
'#.(string-rod "#document-fragment"))
(defmethod dom:node-name ((self text))
'#.(string-rod "#text"))
(defmethod dom:node-name ((self cdata-section))
'#.(string-rod "#cdata-section"))
(defmethod dom:node-name ((self comment))
'#.(string-rod "#comment"))
(defmethod dom:node-name ((self attribute))
(dom:name self))
(defmethod dom:node-name ((self element))
(dom:tag-name self))
(defmethod dom:node-name ((self document-type))
(dom:name self))
(defmethod dom:node-name ((self notation))
(dom:name self))
(defmethod dom:node-name ((self entity))
(dom:name self))
(defmethod dom:node-name ((self entity-reference))
(dom:name self))
(defmethod dom:node-name ((self processing-instruction))
(dom:target self))
;; node-type
(defmethod dom:node-type ((self document)) :document)
(defmethod dom:node-type ((self document-fragment)) :document-fragment)
(defmethod dom:node-type ((self text)) :text)
(defmethod dom:node-type ((self comment)) :comment)
(defmethod dom:node-type ((self cdata-section)) :cdata-section)
(defmethod dom:node-type ((self attribute)) :attribute)
(defmethod dom:node-type ((self element)) :element)
(defmethod dom:node-type ((self document-type)) :document-type)
(defmethod dom:node-type ((self notation)) :notation)
(defmethod dom:node-type ((self entity)) :entity)
(defmethod dom:node-type ((self entity-reference)) :entity-reference)
(defmethod dom:node-type ((self processing-instruction)) :processing-instruction)
;; node-value
(defmethod dom:node-value ((self document)) nil)
(defmethod dom:node-value ((self document-fragment)) nil)
(defmethod dom:node-value ((self character-data)) (dom:data self))
(defmethod dom:node-value ((self attribute)) (dom:name self))
(defmethod dom:node-value ((self element)) nil)
(defmethod dom:node-value ((self document-type)) nil)
(defmethod dom:node-value ((self notation)) nil)
(defmethod dom:node-value ((self entity)) nil)
(defmethod dom:node-value ((self entity-reference)) nil)
(defmethod dom:node-value ((self processing-instruction)) (dom:data self))
;; attributes
;; (gibt es nur auf element)
(defmethod dom:attributes ((self node))
nil)
;; dann fehlt noch can-adopt und attribute conventions fuer adoption
;;; NAMED-NODE-MAP
(defmethod dom:get-named-item ((self named-node-map) name)
(setf name (rod name))
(with-slots (items) self
(dolist (k items nil)
(cond ((rod= name (dom:node-name k))
(return k))))))
(defmethod dom:set-named-item ((self named-node-map) arg)
(let ((name (dom:node-name arg)))
(with-slots (items) self
(dolist (k items (progn (setf items (cons arg items))nil))
(cond ((rod= name (dom:node-name k))
(setf items (cons arg (delete k items)))
(return k)))))))
(defmethod dom:remove-named-item ((self named-node-map) name)
(setf name (rod name))
(with-slots (items) self
(dolist (k items nil)
(cond ((rod= name (dom:node-name k))
(setf items (delete k items))
(return k))))))
(defmethod dom:length ((self named-node-map))
(with-slots (items) self
(length items)))
(defmethod dom:item ((self named-node-map) index)
(with-slots (items) self
(elt items index)))
;;; CHARACTER-DATA
(defmethod dom:length ((node character-data))
(length (slot-value node 'value)))
(defmethod dom:substring-data ((node character-data) offset count)
(subseq (slot-value node 'value) offset (+ offset count)))
(defmethod dom:append-data ((node character-data) arg)
(setq arg (rod arg))
(with-slots (value) node
(setf value (concatenate (type-of value) value arg)))
(values))
(defmethod dom:delete-data ((node character-data) offset count)
(with-slots (value) node
(let ((new (make-array (- (length value) count) :element-type (type-of value))))
(replace new value
:start1 0 :end1 offset
:start2 0 :end2 offset)
(replace new value
:start1 offset :end1 (length new)
:start2 (+ offset count) :end2 (length value))
(setf value new)))
(values))
(defmethod dom:replace-data ((node character-data) offset count arg)
(setf arg (rod arg))
(with-slots (value) node
(replace value arg
:start1 offset :end1 (+ offset count)
:start2 0 :end2 count))
(values))
;;; ATTR
;; hmm... value muss noch entities lesen und text-nodes in die hierarchie h<>ngen.
(defmethod (setf dom:value) (new-value (node attribute))
(setf (slot-value node 'value) (rod new-value)))
;;; ELEMENT
(defmethod dom:get-attribute-node ((element element) name)
(dom:get-named-item (dom:attributes element) name))
(defmethod dom:set-attribute-node ((element element) (new-attr attribute))
(dom:set-named-item (dom:attributes element) new-attr))
(defmethod dom:get-attribute ((element element) name)
(let ((a (dom:get-attribute-node element name)))
(if a
(dom:value a)
nil)))
(defmethod dom:set-attribute ((element element) name value)
(with-slots (owner) element
(dom:set-attribute-node
element (make-instance 'attribute
:owner owner
:name name
:value value
:specified-p t))
(values)))
(defmethod dom:remove-attribute-node ((element element) (old-attr attribute))
(let ((res (dom:remove-named-item element (dom:name old-attr))))
(if res
res
;; NOT_FOUND_ERR
(error "Attribute not found."))))
(defmethod dom:get-elements-by-tag-name ((element element) name)
name
(error "Not implemented."))
(defmethod dom:normalize ((element element))
(error "Not implemented.") )
;;; TEXT
(defmethod dom:split-text ((text text) offset)
offset
(error "Not implemented."))
;;; COMMENT -- nix
;;; CDATA-SECTION -- nix
;;; DOCUMENT-TYPE -- missing
;;; NOTATION -- nix
;;; ENTITY -- nix
;;; ENTITY-REFERENCE -- nix
;;; PROCESSING-INSTRUCTION -- nix
;; Notbehelf!
(defun can-adopt-p (x y) x y t)
;;; predicates
(defmethod dom:node-p ((object node)) t)
(defmethod dom:node-p ((object t)) nil)
(defmethod dom:document-p ((object document)) t)
(defmethod dom:document-p ((object t)) nil)
(defmethod dom:document-fragment-p ((object document-fragment)) t)
(defmethod dom:document-fragment-p ((object t)) nil)
(defmethod dom:character-data-p ((object character-data)) t)
(defmethod dom:character-data-p ((object t)) nil)
(defmethod dom:attribute-p ((object attribute)) t)
(defmethod dom:attribute-p ((object t)) nil)
(defmethod dom:element-p ((object element)) t)
(defmethod dom:element-p ((object t)) nil)
(defmethod dom:text-node-p ((object text)) t)
(defmethod dom:text-node-p ((object t)) nil)
(defmethod dom:comment-p ((object comment)) t)
(defmethod dom:comment-p ((object t)) nil)
(defmethod dom:cdata-section-p ((object cdata-section)) t)
(defmethod dom:cdata-section-p ((object t)) nil)
(defmethod dom:document-type-p ((object document-type)) t)
(defmethod dom:document-type-p ((object t)) nil)
(defmethod dom:notation-p ((object notation)) t)
(defmethod dom:notation-p ((object t)) nil)
(defmethod dom:entity-p ((object entity)) t)
(defmethod dom:entity-p ((object t)) nil)
(defmethod dom:entity-reference-p ((object entity-reference)) t)
(defmethod dom:entity-reference-p ((object t)) nil)
(defmethod dom:processing-instruction-p ((object processing-instruction)) t)
(defmethod dom:processing-instruction-p ((object t)) nil)
(defmethod dom:named-node-map-p ((object named-node-map)) t)
(defmethod dom:named-node-map-p ((object t)) nil)

102
xml/dompack.lisp
View File

@ -1,102 +0,0 @@
(defpackage :dom
(:use)
(:export
;; methods
#:has-feature
#:doctype
#:implementation
#:document-element
#:create-element
#:create-document-fragment
#:create-text-node
#:create-comment
#:create-cdata-section
#:create-processing-instruction
#:create-attribute
#:create-entity-reference
#:get-elements-by-tag-name
#:node-name
#:node-value
#:node-type
#:parent-node
#:child-nodes
#:first-child
#:last-child
#:previous-sibling
#:next-sibling
#:attributes
#:owner-document
#:insert-before
#:replace-child
#:remove-child
#:append-child
#:has-child-nodes
#:clone-node
#:item
#:length
#:get-named-item
#:set-named-item
#:remove-named-item
#:data
#:substring-data
#:append-data
#:insert-data
#:delete-data
#:replace-data
#:name
#:specified
#:value
#:tag-name
#:get-attribute
#:set-attribute
#:remove-atttribute
#:get-attribute-node
#:set-attribute-node
#:remove-attribute-node
#:normalize
#:split-text
#:entities
#:notations
#:public-id
#:system-id
#:notation-name
#:target
;; protocol classes
#:dom-implementation
#:document-fragment
#:document
#:node
#:node-list
#:named-node-map
#:character-data
#:attr
#:element
#:text
#:comment
#:cdata-section
#:document-type
#:notation
#:entity
#:entity-reference
#:processing-instruction
;;
#:items
;;
#:node-p
#:document-p
#:document-fragment-p
#:character-data-p
#:attribute-p
#:element-p
#:text-node-p
#:comment-p
#:cdata-section-p
#:document-type-p
#:notation-p
#:entity-p
#:entity-reference-p
#:processing-instruction-p
#:named-node-map-p
))

568
xml/encodings-data.lisp
View File

@ -1,568 +0,0 @@
(in-package :encoding)
(progn
(add-name :us-ascii "ANSI_X3.4-1968")
(add-name :us-ascii "iso-ir-6")
(add-name :us-ascii "ANSI_X3.4-1986")
(add-name :us-ascii "ISO_646.irv:1991")
(add-name :us-ascii "ASCII")
(add-name :us-ascii "ISO646-US")
(add-name :us-ascii "US-ASCII")
(add-name :us-ascii "us")
(add-name :us-ascii "IBM367")
(add-name :us-ascii "cp367")
(add-name :us-ascii "csASCII")
(add-name :iso-8859-1 "ISO_8859-1:1987")
(add-name :iso-8859-1 "iso-ir-100")
(add-name :iso-8859-1 "ISO_8859-1")
(add-name :iso-8859-1 "ISO-8859-1")
(add-name :iso-8859-1 "latin1")
(add-name :iso-8859-1 "l1")
(add-name :iso-8859-1 "IBM819")
(add-name :iso-8859-1 "CP819")
(add-name :iso-8859-1 "csISOLatin1")
(add-name :iso-8859-2 "ISO_8859-2:1987")
(add-name :iso-8859-2 "iso-ir-101")
(add-name :iso-8859-2 "ISO_8859-2")
(add-name :iso-8859-2 "ISO-8859-2")
(add-name :iso-8859-2 "latin2")
(add-name :iso-8859-2 "l2")
(add-name :iso-8859-2 "csISOLatin2")
(add-name :iso-8859-3 "ISO_8859-3:1988")
(add-name :iso-8859-3 "iso-ir-109")
(add-name :iso-8859-3 "ISO_8859-3")
(add-name :iso-8859-3 "ISO-8859-3")
(add-name :iso-8859-3 "latin3")
(add-name :iso-8859-3 "l3")
(add-name :iso-8859-3 "csISOLatin3")
(add-name :iso-8859-4 "ISO_8859-4:1988")
(add-name :iso-8859-4 "iso-ir-110")
(add-name :iso-8859-4 "ISO_8859-4")
(add-name :iso-8859-4 "ISO-8859-4")
(add-name :iso-8859-4 "latin4")
(add-name :iso-8859-4 "l4")
(add-name :iso-8859-4 "csISOLatin4")
(add-name :iso-8859-6 "ISO_8859-6:1987")
(add-name :iso-8859-6 "iso-ir-127")
(add-name :iso-8859-6 "ISO_8859-6")
(add-name :iso-8859-6 "ISO-8859-6")
(add-name :iso-8859-6 "ECMA-114")
(add-name :iso-8859-6 "ASMO-708")
(add-name :iso-8859-6 "arabic")
(add-name :iso-8859-6 "csISOLatinArabic")
(add-name :iso-8859-7 "ISO_8859-7:1987")
(add-name :iso-8859-7 "iso-ir-126")
(add-name :iso-8859-7 "ISO_8859-7")
(add-name :iso-8859-7 "ISO-8859-7")
(add-name :iso-8859-7 "ELOT_928")
(add-name :iso-8859-7 "ECMA-118")
(add-name :iso-8859-7 "greek")
(add-name :iso-8859-7 "greek8")
(add-name :iso-8859-7 "csISOLatinGreek")
(add-name :iso-8859-8 "ISO_8859-8:1988")
(add-name :iso-8859-8 "iso-ir-138")
(add-name :iso-8859-8 "ISO_8859-8")
(add-name :iso-8859-8 "ISO-8859-8")
(add-name :iso-8859-8 "hebrew")
(add-name :iso-8859-8 "csISOLatinHebrew")
(add-name :iso-8859-5 "ISO_8859-5:1988")
(add-name :iso-8859-5 "iso-ir-144")
(add-name :iso-8859-5 "ISO_8859-5")
(add-name :iso-8859-5 "ISO-8859-5")
(add-name :iso-8859-5 "cyrillic")
(add-name :iso-8859-5 "csISOLatinCyrillic")
(add-name :iso-8859-9 "ISO_8859-9:1989")
(add-name :iso-8859-9 "iso-ir-148")
(add-name :iso-8859-9 "ISO_8859-9")
(add-name :iso-8859-9 "ISO-8859-9")
(add-name :iso-8859-9 "latin5")
(add-name :iso-8859-9 "l5")
(add-name :iso-8859-9 "csISOLatin5")
(add-name :iso-8859-15 "ISO_8859-15")
(add-name :iso-8859-15 "ISO-8859-15")
(add-name :iso-8859-14 "ISO_8859-14")
(add-name :iso-8859-14 "ISO-8859-14")
(add-name :koi8-r "KOI8-R")
(add-name :koi8-r "csKOI8R")
(add-name :utf-8 "UTF-8")
(add-name :utf-16 "UTF-16")
(add-name :ucs-4 "ISO-10646-UCS-4")
(add-name :ucs-4 "UCS-4")
(add-name :ucs-2 "ISO-10646-UCS-2")
(add-name :ucs-2 "UCS-2") )
(progn
(define-encoding :iso-8859-1
(make-simple-8-bit-encoding
:charset (find-charset :iso-8859-1)))
(define-encoding :iso-8859-2
(make-simple-8-bit-encoding
:charset (find-charset :iso-8859-2)))
(define-encoding :iso-8859-3
(make-simple-8-bit-encoding
:charset (find-charset :iso-8859-3)))
(define-encoding :iso-8859-4
(make-simple-8-bit-encoding
:charset (find-charset :iso-8859-4)))
(define-encoding :iso-8859-5
(make-simple-8-bit-encoding
:charset (find-charset :iso-8859-5)))
(define-encoding :iso-8859-6
(make-simple-8-bit-encoding
:charset (find-charset :iso-8859-6)))
(define-encoding :iso-8859-7
(make-simple-8-bit-encoding
:charset (find-charset :iso-8859-7)))
(define-encoding :iso-8859-8
(make-simple-8-bit-encoding
:charset (find-charset :iso-8859-8)))
(define-encoding :iso-8859-14
(make-simple-8-bit-encoding
:charset (find-charset :iso-8859-14)))
(define-encoding :iso-8859-15
(make-simple-8-bit-encoding
:charset (find-charset :iso-8859-15)))
(define-encoding :koi8-r
(make-simple-8-bit-encoding
:charset (find-charset :koi8-r)))
(define-encoding :utf-8 :utf-8)
)
(progn
(define-8-bit-charset :iso-8859-1
#| #o00x |# #x0000 #x0001 #x0002 #x0003 #x0004 #x0005 #x0006 #x0007
#| #o01x |# #x0008 #x0009 #x000A #x000B #x000C #x000A #x000E #x000F
#| #o02x |# #x0010 #x0011 #x0012 #x0013 #x0014 #x0015 #x0016 #x0017
#| #o03x |# #x0018 #x0019 #x001A #x001B #x001C #x001D #x001E #x001F
#| #o04x |# #x0020 #x0021 #x0022 #x0023 #x0024 #x0025 #x0026 #x0027
#| #o05x |# #x0028 #x0029 #x002A #x002B #x002C #x002D #x002E #x002F
#| #o06x |# #x0030 #x0031 #x0032 #x0033 #x0034 #x0035 #x0036 #x0037
#| #o07x |# #x0038 #x0039 #x003A #x003B #x003C #x003D #x003E #x003F
#| #o10x |# #x0040 #x0041 #x0042 #x0043 #x0044 #x0045 #x0046 #x0047
#| #o11x |# #x0048 #x0049 #x004A #x004B #x004C #x004D #x004E #x004F
#| #o12x |# #x0050 #x0051 #x0052 #x0053 #x0054 #x0055 #x0056 #x0057
#| #o13x |# #x0058 #x0059 #x005A #x005B #x005C #x005D #x005E #x005F
#| #o14x |# #x0060 #x0061 #x0062 #x0063 #x0064 #x0065 #x0066 #x0067
#| #o15x |# #x0068 #x0069 #x006A #x006B #x006C #x006D #x006E #x006F
#| #o16x |# #x0070 #x0071 #x0072 #x0073 #x0074 #x0075 #x0076 #x0077
#| #o17x |# #x0078 #x0079 #x007A #x007B #x007C #x007D #x007E #x007F
#| #o20x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o21x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o22x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o23x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o24x |# #x00A0 #x00A1 #x00A2 #x00A3 #x00A4 #x00A5 #x00A6 #x00A7
#| #o25x |# #x00A8 #x00A9 #x00AA #x00AB #x00AC #x00AD #x00AE #x00AF
#| #o26x |# #x00B0 #x00B1 #x00B2 #x00B3 #x00B4 #x00B5 #x00B6 #x00B7
#| #o27x |# #x00B8 #x00B9 #x00BA #x00BB #x00BC #x00BD #x00BE #x00BF
#| #o30x |# #x00C0 #x00C1 #x00C2 #x00C3 #x00C4 #x00C5 #x00C6 #x00C7
#| #o31x |# #x00C8 #x00C9 #x00CA #x00CB #x00CC #x00CD #x00CE #x00CF
#| #o32x |# #x00D0 #x00D1 #x00D2 #x00D3 #x00D4 #x00D5 #x00D6 #x00D7
#| #o33x |# #x00D8 #x00D9 #x00DA #x00DB #x00DC #x00DD #x00DE #x00DF
#| #o34x |# #x00E0 #x00E1 #x00E2 #x00E3 #x00E4 #x00E5 #x00E6 #x00E7
#| #o35x |# #x00E8 #x00E9 #x00EA #x00EB #x00EC #x00ED #x00EE #x00EF
#| #o36x |# #x00F0 #x00F1 #x00F2 #x00F3 #x00F4 #x00F5 #x00F6 #x00F7
#| #o37x |# #x00F8 #x00F9 #x00FA #x00FB #x00FC #x00FD #x00FE #x00FF)
(define-8-bit-charset :iso-8859-2
#| #o00x |# #x0000 #x0001 #x0002 #x0003 #x0004 #x0005 #x0006 #x0007
#| #o01x |# #x0008 #x0009 #x000A #x000B #x000C #x000A #x000E #x000F
#| #o02x |# #x0010 #x0011 #x0012 #x0013 #x0014 #x0015 #x0016 #x0017
#| #o03x |# #x0018 #x0019 #x001A #x001B #x001C #x001D #x001E #x001F
#| #o04x |# #x0020 #x0021 #x0022 #x0023 #x0024 #x0025 #x0026 #x0027
#| #o05x |# #x0028 #x0029 #x002A #x002B #x002C #x002D #x002E #x002F
#| #o06x |# #x0030 #x0031 #x0032 #x0033 #x0034 #x0035 #x0036 #x0037
#| #o07x |# #x0038 #x0039 #x003A #x003B #x003C #x003D #x003E #x003F
#| #o10x |# #x0040 #x0041 #x0042 #x0043 #x0044 #x0045 #x0046 #x0047
#| #o11x |# #x0048 #x0049 #x004A #x004B #x004C #x004D #x004E #x004F
#| #o12x |# #x0050 #x0051 #x0052 #x0053 #x0054 #x0055 #x0056 #x0057
#| #o13x |# #x0058 #x0059 #x005A #x005B #x005C #x005D #x005E #x005F
#| #o14x |# #x0060 #x0061 #x0062 #x0063 #x0064 #x0065 #x0066 #x0067
#| #o15x |# #x0068 #x0069 #x006A #x006B #x006C #x006D #x006E #x006F
#| #o16x |# #x0070 #x0071 #x0072 #x0073 #x0074 #x0075 #x0076 #x0077
#| #o17x |# #x0078 #x0079 #x007A #x007B #x007C #x007D #x007E #x007F
#| #o20x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o21x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o22x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o23x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o24x |# #x00A0 #x0104 #x02D8 #x0141 #x00A4 #x013D #x015A #x00A7
#| #o25x |# #x00A8 #x0160 #x015E #x0164 #x0179 #x00AD #x017D #x017B
#| #o26x |# #x00B0 #x0105 #x02DB #x0142 #x00B4 #x013E #x015B #x02C7
#| #o27x |# #x00B8 #x0161 #x015F #x0165 #x017A #x02DD #x017E #x017C
#| #o30x |# #x0154 #x00C1 #x00C2 #x0102 #x00C4 #x0139 #x0106 #x00C7
#| #o31x |# #x010C #x00C9 #x0118 #x00CB #x011A #x00CD #x00CE #x010E
#| #o32x |# #x0110 #x0143 #x0147 #x00D3 #x00D4 #x0150 #x00D6 #x00D7
#| #o33x |# #x0158 #x016E #x00DA #x0170 #x00DC #x00DD #x0162 #x00DF
#| #o34x |# #x0155 #x00E1 #x00E2 #x0103 #x00E4 #x013A #x0107 #x00E7
#| #o35x |# #x010D #x00E9 #x0119 #x00EB #x011B #x00ED #x00EE #x010F
#| #o36x |# #x0111 #x0144 #x0148 #x00F3 #x00F4 #x0151 #x00F6 #x00F7
#| #o37x |# #x0159 #x016F #x00FA #x0171 #x00FC #x00FD #x0163 #x02D9)
(define-8-bit-charset :iso-8859-3
#| #o00x |# #x0000 #x0001 #x0002 #x0003 #x0004 #x0005 #x0006 #x0007
#| #o01x |# #x0008 #x0009 #x000A #x000B #x000C #x000A #x000E #x000F
#| #o02x |# #x0010 #x0011 #x0012 #x0013 #x0014 #x0015 #x0016 #x0017
#| #o03x |# #x0018 #x0019 #x001A #x001B #x001C #x001D #x001E #x001F
#| #o04x |# #x0020 #x0021 #x0022 #x0023 #x0024 #x0025 #x0026 #x0027
#| #o05x |# #x0028 #x0029 #x002A #x002B #x002C #x002D #x002E #x002F
#| #o06x |# #x0030 #x0031 #x0032 #x0033 #x0034 #x0035 #x0036 #x0037
#| #o07x |# #x0038 #x0039 #x003A #x003B #x003C #x003D #x003E #x003F
#| #o10x |# #x0040 #x0041 #x0042 #x0043 #x0044 #x0045 #x0046 #x0047
#| #o11x |# #x0048 #x0049 #x004A #x004B #x004C #x004D #x004E #x004F
#| #o12x |# #x0050 #x0051 #x0052 #x0053 #x0054 #x0055 #x0056 #x0057
#| #o13x |# #x0058 #x0059 #x005A #x005B #x005C #x005D #x005E #x005F
#| #o14x |# #x0060 #x0061 #x0062 #x0063 #x0064 #x0065 #x0066 #x0067
#| #o15x |# #x0068 #x0069 #x006A #x006B #x006C #x006D #x006E #x006F
#| #o16x |# #x0070 #x0071 #x0072 #x0073 #x0074 #x0075 #x0076 #x0077
#| #o17x |# #x0078 #x0079 #x007A #x007B #x007C #x007D #x007E #x007F
#| #o20x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o21x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o22x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o23x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o24x |# #x00A0 #x0126 #x02D8 #x00A3 #x00A4 #xFFFF #x0124 #x00A7
#| #o25x |# #x00A8 #x0130 #x015E #x011E #x0134 #x00AD #xFFFF #x017B
#| #o26x |# #x00B0 #x0127 #x00B2 #x00B3 #x00B4 #x00B5 #x0125 #x00B7
#| #o27x |# #x00B8 #x0131 #x015F #x011F #x0135 #x00BD #xFFFF #x017C
#| #o30x |# #x00C0 #x00C1 #x00C2 #xFFFF #x00C4 #x010A #x0108 #x00C7
#| #o31x |# #x00C8 #x00C9 #x00CA #x00CB #x00CC #x00CD #x00CE #x00CF
#| #o32x |# #xFFFF #x00D1 #x00D2 #x00D3 #x00D4 #x0120 #x00D6 #x00D7
#| #o33x |# #x011C #x00D9 #x00DA #x00DB #x00DC #x016C #x015C #x00DF
#| #o34x |# #x00E0 #x00E1 #x00E2 #xFFFF #x00E4 #x010B #x0109 #x00E7
#| #o35x |# #x00E8 #x00E9 #x00EA #x00EB #x00EC #x00ED #x00EE #x00EF
#| #o36x |# #xFFFF #x00F1 #x00F2 #x00F3 #x00F4 #x0121 #x00F6 #x00F7
#| #o37x |# #x011D #x00F9 #x00FA #x00FB #x00FC #x016D #x015D #x02D9)
(define-8-bit-charset :iso-8859-4
#| #o00x |# #x0000 #x0001 #x0002 #x0003 #x0004 #x0005 #x0006 #x0007
#| #o01x |# #x0008 #x0009 #x000A #x000B #x000C #x000A #x000E #x000F
#| #o02x |# #x0010 #x0011 #x0012 #x0013 #x0014 #x0015 #x0016 #x0017
#| #o03x |# #x0018 #x0019 #x001A #x001B #x001C #x001D #x001E #x001F
#| #o04x |# #x0020 #x0021 #x0022 #x0023 #x0024 #x0025 #x0026 #x0027
#| #o05x |# #x0028 #x0029 #x002A #x002B #x002C #x002D #x002E #x002F
#| #o06x |# #x0030 #x0031 #x0032 #x0033 #x0034 #x0035 #x0036 #x0037
#| #o07x |# #x0038 #x0039 #x003A #x003B #x003C #x003D #x003E #x003F
#| #o10x |# #x0040 #x0041 #x0042 #x0043 #x0044 #x0045 #x0046 #x0047
#| #o11x |# #x0048 #x0049 #x004A #x004B #x004C #x004D #x004E #x004F
#| #o12x |# #x0050 #x0051 #x0052 #x0053 #x0054 #x0055 #x0056 #x0057
#| #o13x |# #x0058 #x0059 #x005A #x005B #x005C #x005D #x005E #x005F
#| #o14x |# #x0060 #x0061 #x0062 #x0063 #x0064 #x0065 #x0066 #x0067
#| #o15x |# #x0068 #x0069 #x006A #x006B #x006C #x006D #x006E #x006F
#| #o16x |# #x0070 #x0071 #x0072 #x0073 #x0074 #x0075 #x0076 #x0077
#| #o17x |# #x0078 #x0079 #x007A #x007B #x007C #x007D #x007E #x007F
#| #o20x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o21x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o22x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o23x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o24x |# #x00A0 #x0104 #x0138 #x0156 #x00A4 #x0128 #x013B #x00A7
#| #o25x |# #x00A8 #x0160 #x0112 #x0122 #x0166 #x00AD #x017D #x00AF
#| #o26x |# #x00B0 #x0105 #x02DB #x0157 #x00B4 #x0129 #x013C #x02C7
#| #o27x |# #x00B8 #x0161 #x0113 #x0123 #x0167 #x014A #x017E #x014B
#| #o30x |# #x0100 #x00C1 #x00C2 #x00C3 #x00C4 #x00C5 #x00C6 #x012E
#| #o31x |# #x010C #x00C9 #x0118 #x00CB #x0116 #x00CD #x00CE #x012A
#| #o32x |# #x0110 #x0145 #x014C #x0136 #x00D4 #x00D5 #x00D6 #x00D7
#| #o33x |# #x00D8 #x0172 #x00DA #x00DB #x00DC #x0168 #x016A #x00DF
#| #o34x |# #x0101 #x00E1 #x00E2 #x00E3 #x00E4 #x00E5 #x00E6 #x012F
#| #o35x |# #x010D #x00E9 #x0119 #x00EB #x0117 #x00ED #x00EE #x012B
#| #o36x |# #x0111 #x0146 #x014D #x0137 #x00F4 #x00F5 #x00F6 #x00F7
#| #o37x |# #x00F8 #x0173 #x00FA #x00FB #x00FC #x0169 #x016B #x02D9)
(define-8-bit-charset :iso-8859-5
#| #o00x |# #x0000 #x0001 #x0002 #x0003 #x0004 #x0005 #x0006 #x0007
#| #o01x |# #x0008 #x0009 #x000A #x000B #x000C #x000A #x000E #x000F
#| #o02x |# #x0010 #x0011 #x0012 #x0013 #x0014 #x0015 #x0016 #x0017
#| #o03x |# #x0018 #x0019 #x001A #x001B #x001C #x001D #x001E #x001F
#| #o04x |# #x0020 #x0021 #x0022 #x0023 #x0024 #x0025 #x0026 #x0027
#| #o05x |# #x0028 #x0029 #x002A #x002B #x002C #x002D #x002E #x002F
#| #o06x |# #x0030 #x0031 #x0032 #x0033 #x0034 #x0035 #x0036 #x0037
#| #o07x |# #x0038 #x0039 #x003A #x003B #x003C #x003D #x003E #x003F
#| #o10x |# #x0040 #x0041 #x0042 #x0043 #x0044 #x0045 #x0046 #x0047
#| #o11x |# #x0048 #x0049 #x004A #x004B #x004C #x004D #x004E #x004F
#| #o12x |# #x0050 #x0051 #x0052 #x0053 #x0054 #x0055 #x0056 #x0057
#| #o13x |# #x0058 #x0059 #x005A #x005B #x005C #x005D #x005E #x005F
#| #o14x |# #x0060 #x0061 #x0062 #x0063 #x0064 #x0065 #x0066 #x0067
#| #o15x |# #x0068 #x0069 #x006A #x006B #x006C #x006D #x006E #x006F
#| #o16x |# #x0070 #x0071 #x0072 #x0073 #x0074 #x0075 #x0076 #x0077
#| #o17x |# #x0078 #x0079 #x007A #x007B #x007C #x007D #x007E #x007F
#| #o20x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o21x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o22x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o23x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o24x |# #x00A0 #x0401 #x0402 #x0403 #x0404 #x0405 #x0406 #x0407
#| #o25x |# #x0408 #x0409 #x040A #x040B #x040C #x00AD #x040E #x040F
#| #o26x |# #x0410 #x0411 #x0412 #x0413 #x0414 #x0415 #x0416 #x0417
#| #o27x |# #x0418 #x0419 #x041A #x041B #x041C #x041D #x041E #x041F
#| #o30x |# #x0420 #x0421 #x0422 #x0423 #x0424 #x0425 #x0426 #x0427
#| #o31x |# #x0428 #x0429 #x042A #x042B #x042C #x042D #x042E #x042F
#| #o32x |# #x0430 #x0431 #x0432 #x0433 #x0434 #x0435 #x0436 #x0437
#| #o33x |# #x0438 #x0439 #x043A #x043B #x043C #x043D #x043E #x043F
#| #o34x |# #x0440 #x0441 #x0442 #x0443 #x0444 #x0445 #x0446 #x0447
#| #o35x |# #x0448 #x0449 #x044A #x044B #x044C #x044D #x044E #x044F
#| #o36x |# #x2116 #x0451 #x0452 #x0453 #x0454 #x0455 #x0456 #x0457
#| #o37x |# #x0458 #x0459 #x045A #x045B #x045C #x00A7 #x045E #x045F)
(define-8-bit-charset :iso-8859-6
#| #o00x |# #x0000 #x0001 #x0002 #x0003 #x0004 #x0005 #x0006 #x0007
#| #o01x |# #x0008 #x0009 #x000A #x000B #x000C #x000A #x000E #x000F
#| #o02x |# #x0010 #x0011 #x0012 #x0013 #x0014 #x0015 #x0016 #x0017
#| #o03x |# #x0018 #x0019 #x001A #x001B #x001C #x001D #x001E #x001F
#| #o04x |# #x0020 #x0021 #x0022 #x0023 #x0024 #x0025 #x0026 #x0027
#| #o05x |# #x0028 #x0029 #x002A #x002B #x002C #x002D #x002E #x002F
#| #o06x |# #x0660 #x0661 #x0662 #x0663 #x0664 #x0665 #x0666 #x0667
#| #o07x |# #x0668 #x0669 #x003A #x003B #x003C #x003D #x003E #x003F
#| #o10x |# #x0040 #x0041 #x0042 #x0043 #x0044 #x0045 #x0046 #x0047
#| #o11x |# #x0048 #x0049 #x004A #x004B #x004C #x004D #x004E #x004F
#| #o12x |# #x0050 #x0051 #x0052 #x0053 #x0054 #x0055 #x0056 #x0057
#| #o13x |# #x0058 #x0059 #x005A #x005B #x005C #x005D #x005E #x005F
#| #o14x |# #x0060 #x0061 #x0062 #x0063 #x0064 #x0065 #x0066 #x0067
#| #o15x |# #x0068 #x0069 #x006A #x006B #x006C #x006D #x006E #x006F
#| #o16x |# #x0070 #x0071 #x0072 #x0073 #x0074 #x0075 #x0076 #x0077
#| #o17x |# #x0078 #x0079 #x007A #x007B #x007C #x007D #x007E #x007F
#| #o20x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o21x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o22x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o23x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o24x |# #x00A0 #xFFFF #xFFFF #xFFFF #x00A4 #xFFFF #xFFFF #xFFFF
#| #o25x |# #xFFFF #xFFFF #xFFFF #xFFFF #x060C #x00AD #xFFFF #xFFFF
#| #o26x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o27x |# #xFFFF #xFFFF #xFFFF #x061B #xFFFF #xFFFF #xFFFF #x061F
#| #o30x |# #xFFFF #x0621 #x0622 #x0623 #x0624 #x0625 #x0626 #x0627
#| #o31x |# #x0628 #x0629 #x062A #x062B #x062C #x062D #x062E #x062F
#| #o32x |# #x0630 #x0631 #x0632 #x0633 #x0634 #x0635 #x0636 #x0637
#| #o33x |# #x0638 #x0639 #x063A #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o34x |# #x0640 #x0641 #x0642 #x0643 #x0644 #x0645 #x0646 #x0647
#| #o35x |# #x0648 #x0649 #x064A #x064B #x064C #x064D #x064E #x064F
#| #o36x |# #x0650 #x0651 #x0652 #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o37x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF)
(define-8-bit-charset :iso-8859-7
#| #o00x |# #x0000 #x0001 #x0002 #x0003 #x0004 #x0005 #x0006 #x0007
#| #o01x |# #x0008 #x0009 #x000A #x000B #x000C #x000A #x000E #x000F
#| #o02x |# #x0010 #x0011 #x0012 #x0013 #x0014 #x0015 #x0016 #x0017
#| #o03x |# #x0018 #x0019 #x001A #x001B #x001C #x001D #x001E #x001F
#| #o04x |# #x0020 #x0021 #x0022 #x0023 #x0024 #x0025 #x0026 #x0027
#| #o05x |# #x0028 #x0029 #x002A #x002B #x002C #x002D #x002E #x002F
#| #o06x |# #x0030 #x0031 #x0032 #x0033 #x0034 #x0035 #x0036 #x0037
#| #o07x |# #x0038 #x0039 #x003A #x003B #x003C #x003D #x003E #x003F
#| #o10x |# #x0040 #x0041 #x0042 #x0043 #x0044 #x0045 #x0046 #x0047
#| #o11x |# #x0048 #x0049 #x004A #x004B #x004C #x004D #x004E #x004F
#| #o12x |# #x0050 #x0051 #x0052 #x0053 #x0054 #x0055 #x0056 #x0057
#| #o13x |# #x0058 #x0059 #x005A #x005B #x005C #x005D #x005E #x005F
#| #o14x |# #x0060 #x0061 #x0062 #x0063 #x0064 #x0065 #x0066 #x0067
#| #o15x |# #x0068 #x0069 #x006A #x006B #x006C #x006D #x006E #x006F
#| #o16x |# #x0070 #x0071 #x0072 #x0073 #x0074 #x0075 #x0076 #x0077
#| #o17x |# #x0078 #x0079 #x007A #x007B #x007C #x007D #x007E #x007F
#| #o20x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o21x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o22x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o23x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o24x |# #x00A0 #x02BD #x02BC #x00A3 #xFFFF #xFFFF #x00A6 #x00A7
#| #o25x |# #x00A8 #x00A9 #xFFFF #x00AB #x00AC #x00AD #xFFFF #x2015
#| #o26x |# #x00B0 #x00B1 #x00B2 #x00B3 #x0384 #x0385 #x0386 #x00B7
#| #o27x |# #x0388 #x0389 #x038A #x00BB #x038C #x00BD #x038E #x038F
#| #o30x |# #x0390 #x0391 #x0392 #x0393 #x0394 #x0395 #x0396 #x0397
#| #o31x |# #x0398 #x0399 #x039A #x039B #x039C #x039D #x039E #x039F
#| #o32x |# #x03A0 #x03A1 #xFFFF #x03A3 #x03A4 #x03A5 #x03A6 #x03A7
#| #o33x |# #x03A8 #x03A9 #x03AA #x03AB #x03AC #x03AD #x03AE #x03AF
#| #o34x |# #x03B0 #x03B1 #x03B2 #x03B3 #x03B4 #x03B5 #x03B6 #x03B7
#| #o35x |# #x03B8 #x03B9 #x03BA #x03BB #x03BC #x03BD #x03BE #x03BF
#| #o36x |# #x03C0 #x03C1 #x03C2 #x03C3 #x03C4 #x03C5 #x03C6 #x03C7
#| #o37x |# #x03C8 #x03C9 #x03CA #x03CB #x03CC #x03CD #x03CE #xFFFF)
(define-8-bit-charset :iso-8859-8
#| #o00x |# #x0000 #x0001 #x0002 #x0003 #x0004 #x0005 #x0006 #x0007
#| #o01x |# #x0008 #x0009 #x000A #x000B #x000C #x000A #x000E #x000F
#| #o02x |# #x0010 #x0011 #x0012 #x0013 #x0014 #x0015 #x0016 #x0017
#| #o03x |# #x0018 #x0019 #x001A #x001B #x001C #x001D #x001E #x001F
#| #o04x |# #x0020 #x0021 #x0022 #x0023 #x0024 #x0025 #x0026 #x0027
#| #o05x |# #x0028 #x0029 #x002A #x002B #x002C #x002D #x002E #x002F
#| #o06x |# #x0030 #x0031 #x0032 #x0033 #x0034 #x0035 #x0036 #x0037
#| #o07x |# #x0038 #x0039 #x003A #x003B #x003C #x003D #x003E #x003F
#| #o10x |# #x0040 #x0041 #x0042 #x0043 #x0044 #x0045 #x0046 #x0047
#| #o11x |# #x0048 #x0049 #x004A #x004B #x004C #x004D #x004E #x004F
#| #o12x |# #x0050 #x0051 #x0052 #x0053 #x0054 #x0055 #x0056 #x0057
#| #o13x |# #x0058 #x0059 #x005A #x005B #x005C #x005D #x005E #x005F
#| #o14x |# #x0060 #x0061 #x0062 #x0063 #x0064 #x0065 #x0066 #x0067
#| #o15x |# #x0068 #x0069 #x006A #x006B #x006C #x006D #x006E #x006F
#| #o16x |# #x0070 #x0071 #x0072 #x0073 #x0074 #x0075 #x0076 #x0077
#| #o17x |# #x0078 #x0079 #x007A #x007B #x007C #x007D #x007E #x007F
#| #o20x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o21x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o22x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o23x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o24x |# #x00A0 #xFFFF #x00A2 #x00A3 #x00A4 #x00A5 #x00A6 #x00A7
#| #o25x |# #x00A8 #x00A9 #x00D7 #x00AB #x00AC #x00AD #x00AE #x203E
#| #o26x |# #x00B0 #x00B1 #x00B2 #x00B3 #x00B4 #x00B5 #x00B6 #x00B7
#| #o27x |# #x00B8 #x00B9 #x00F7 #x00BB #x00BC #x00BD #x00BE #xFFFF
#| #o30x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o31x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o32x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o33x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #x2017
#| #o34x |# #x05D0 #x05D1 #x05D2 #x05D3 #x05D4 #x05D5 #x05D6 #x05D7
#| #o35x |# #x05D8 #x05D9 #x05DA #x05DB #x05DC #x05DD #x05DE #x05DF
#| #o36x |# #x05E0 #x05E1 #x05E2 #x05E3 #x05E4 #x05E5 #x05E6 #x05E7
#| #o37x |# #x05E8 #x05E9 #x05EA #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF)
(define-8-bit-charset :iso-8859-9
#| #o00x |# #x0000 #x0001 #x0002 #x0003 #x0004 #x0005 #x0006 #x0007
#| #o01x |# #x0008 #x0009 #x000A #x000B #x000C #x000A #x000E #x000F
#| #o02x |# #x0010 #x0011 #x0012 #x0013 #x0014 #x0015 #x0016 #x0017
#| #o03x |# #x0018 #x0019 #x001A #x001B #x001C #x001D #x001E #x001F
#| #o04x |# #x0020 #x0021 #x0022 #x0023 #x0024 #x0025 #x0026 #x0027
#| #o05x |# #x0028 #x0029 #x002A #x002B #x002C #x002D #x002E #x002F
#| #o06x |# #x0030 #x0031 #x0032 #x0033 #x0034 #x0035 #x0036 #x0037
#| #o07x |# #x0038 #x0039 #x003A #x003B #x003C #x003D #x003E #x003F
#| #o10x |# #x0040 #x0041 #x0042 #x0043 #x0044 #x0045 #x0046 #x0047
#| #o11x |# #x0048 #x0049 #x004A #x004B #x004C #x004D #x004E #x004F
#| #o12x |# #x0050 #x0051 #x0052 #x0053 #x0054 #x0055 #x0056 #x0057
#| #o13x |# #x0058 #x0059 #x005A #x005B #x005C #x005D #x005E #x005F
#| #o14x |# #x0060 #x0061 #x0062 #x0063 #x0064 #x0065 #x0066 #x0067
#| #o15x |# #x0068 #x0069 #x006A #x006B #x006C #x006D #x006E #x006F
#| #o16x |# #x0070 #x0071 #x0072 #x0073 #x0074 #x0075 #x0076 #x0077
#| #o17x |# #x0078 #x0079 #x007A #x007B #x007C #x007D #x007E #x007F
#| #o20x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o21x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o22x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o23x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o24x |# #x00A0 #x00A1 #x00A2 #x00A3 #x00A4 #x00A5 #x00A6 #x00A7
#| #o25x |# #x00A8 #x00A9 #x00AA #x00AB #x00AC #x00AD #x00AE #x00AF
#| #o26x |# #x00B0 #x00B1 #x00B2 #x00B3 #x00B4 #x00B5 #x00B6 #x00B7
#| #o27x |# #x00B8 #x00B9 #x00BA #x00BB #x00BC #x00BD #x00BE #x00BF
#| #o30x |# #x00C0 #x00C1 #x00C2 #x00C3 #x00C4 #x00C5 #x00C6 #x00C7
#| #o31x |# #x00C8 #x00C9 #x00CA #x00CB #x00CC #x00CD #x00CE #x00CF
#| #o32x |# #x011E #x00D1 #x00D2 #x00D3 #x00D4 #x00D5 #x00D6 #x00D7
#| #o33x |# #x00D8 #x00D9 #x00DA #x00DB #x00DC #x0130 #x015E #x00DF
#| #o34x |# #x00E0 #x00E1 #x00E2 #x00E3 #x00E4 #x00E5 #x00E6 #x00E7
#| #o35x |# #x00E8 #x00E9 #x00EA #x00EB #x00EC #x00ED #x00EE #x00EF
#| #o36x |# #x011F #x00F1 #x00F2 #x00F3 #x00F4 #x00F5 #x00F6 #x00F7
#| #o37x |# #x00F8 #x00F9 #x00FA #x00FB #x00FC #x0131 #x015F #x00FF)
(define-8-bit-charset :iso-8859-14
#| #o00x |# #x0000 #x0001 #x0002 #x0003 #x0004 #x0005 #x0006 #x0007
#| #o01x |# #x0008 #x0009 #x000A #x000B #x000C #x000A #x000E #x000F
#| #o02x |# #x0010 #x0011 #x0012 #x0013 #x0014 #x0015 #x0016 #x0017
#| #o03x |# #x0018 #x0019 #x001A #x001B #x001C #x001D #x001E #x001F
#| #o04x |# #x0020 #x0021 #x0022 #x0023 #x0024 #x0025 #x0026 #x0027
#| #o05x |# #x0028 #x0029 #x002A #x002B #x002C #x002D #x002E #x002F
#| #o06x |# #x0030 #x0031 #x0032 #x0033 #x0034 #x0035 #x0036 #x0037
#| #o07x |# #x0038 #x0039 #x003A #x003B #x003C #x003D #x003E #x003F
#| #o10x |# #x0040 #x0041 #x0042 #x0043 #x0044 #x0045 #x0046 #x0047
#| #o11x |# #x0048 #x0049 #x004A #x004B #x004C #x004D #x004E #x004F
#| #o12x |# #x0050 #x0051 #x0052 #x0053 #x0054 #x0055 #x0056 #x0057
#| #o13x |# #x0058 #x0059 #x005A #x005B #x005C #x005D #x005E #x005F
#| #o14x |# #x0060 #x0061 #x0062 #x0063 #x0064 #x0065 #x0066 #x0067
#| #o15x |# #x0068 #x0069 #x006A #x006B #x006C #x006D #x006E #x006F
#| #o16x |# #x0070 #x0071 #x0072 #x0073 #x0074 #x0075 #x0076 #x0077
#| #o17x |# #x0078 #x0079 #x007A #x007B #x007C #x007D #x007E #x007F
#| #o20x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o21x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o22x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o23x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o24x |# #x00A0 #x1E02 #x1E03 #x00A3 #x010A #x010B #x1E0A #x00A7
#| #o25x |# #x1E80 #x00A9 #x1E82 #x1E0B #x1EF2 #x00AD #x00AE #x0178
#| #o26x |# #x1E1E #x1E1F #x0120 #x0121 #x1E40 #x1E41 #x00B6 #x1E56
#| #o27x |# #x1E81 #x1E57 #x1E83 #x1E60 #x1EF3 #x1E84 #x1E85 #x1E61
#| #o30x |# #x00C0 #x00C1 #x00C2 #x00C3 #x00C4 #x00C5 #x00C6 #x00C7
#| #o31x |# #x00C8 #x00C9 #x00CA #x00CB #x00CC #x00CD #x00CE #x00CF
#| #o32x |# #x0174 #x00D1 #x00D2 #x00D3 #x00D4 #x00D5 #x00D6 #x1E6A
#| #o33x |# #x00D8 #x00D9 #x00DA #x00DB #x00DC #x00DD #x0176 #x00DF
#| #o34x |# #x00E0 #x00E1 #x00E2 #x00E3 #x00E4 #x00E5 #x00E6 #x00E7
#| #o35x |# #x00E8 #x00E9 #x00EA #x00EB #x00EC #x00ED #x00EE #x00EF
#| #o36x |# #x0175 #x00F1 #x00F2 #x00F3 #x00F4 #x00F5 #x00F6 #x1E6B
#| #o37x |# #x00F8 #x00F9 #x00FA #x00FB #x00FC #x00FD #x0177 #x00FF)
(define-8-bit-charset :iso-8859-15
#| #o00x |# #x0000 #x0001 #x0002 #x0003 #x0004 #x0005 #x0006 #x0007
#| #o01x |# #x0008 #x0009 #x000A #x000B #x000C #x000A #x000E #x000F
#| #o02x |# #x0010 #x0011 #x0012 #x0013 #x0014 #x0015 #x0016 #x0017
#| #o03x |# #x0018 #x0019 #x001A #x001B #x001C #x001D #x001E #x001F
#| #o04x |# #x0020 #x0021 #x0022 #x0023 #x0024 #x0025 #x0026 #x0027
#| #o05x |# #x0028 #x0029 #x002A #x002B #x002C #x002D #x002E #x002F
#| #o06x |# #x0030 #x0031 #x0032 #x0033 #x0034 #x0035 #x0036 #x0037
#| #o07x |# #x0038 #x0039 #x003A #x003B #x003C #x003D #x003E #x003F
#| #o10x |# #x0040 #x0041 #x0042 #x0043 #x0044 #x0045 #x0046 #x0047
#| #o11x |# #x0048 #x0049 #x004A #x004B #x004C #x004D #x004E #x004F
#| #o12x |# #x0050 #x0051 #x0052 #x0053 #x0054 #x0055 #x0056 #x0057
#| #o13x |# #x0058 #x0059 #x005A #x005B #x005C #x005D #x005E #x005F
#| #o14x |# #x0060 #x0061 #x0062 #x0063 #x0064 #x0065 #x0066 #x0067
#| #o15x |# #x0068 #x0069 #x006A #x006B #x006C #x006D #x006E #x006F
#| #o16x |# #x0070 #x0071 #x0072 #x0073 #x0074 #x0075 #x0076 #x0077
#| #o17x |# #x0078 #x0079 #x007A #x007B #x007C #x007D #x007E #x007F
#| #o20x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o21x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o22x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o23x |# #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF #xFFFF
#| #o24x |# #x00A0 #x00A1 #x00A2 #x00A3 #x20AC #x00A5 #x0160 #x00A7
#| #o25x |# #x0161 #x00A9 #x00AA #x00AB #x00AC #x00AD #x00AE #x00AF
#| #o26x |# #x00B0 #x00B1 #x00B2 #x00B3 #x017D #x00B5 #x00B6 #x00B7
#| #o27x |# #x017E #x00B9 #x00BA #x00BB #x0152 #x0153 #x0178 #x00BF
#| #o30x |# #x00C0 #x00C1 #x00C2 #x00C3 #x00C4 #x00C5 #x00C6 #x00C7
#| #o31x |# #x00C8 #x00C9 #x00CA #x00CB #x00CC #x00CD #x00CE #x00CF
#| #o32x |# #x00D0 #x00D1 #x00D2 #x00D3 #x00D4 #x00D5 #x00D6 #x00D7
#| #o33x |# #x00D8 #x00D9 #x00DA #x00DB #x00DC #x00DD #x00DE #x00DF
#| #o34x |# #x00E0 #x00E1 #x00E2 #x00E3 #x00E4 #x00E5 #x00E6 #x00E7
#| #o35x |# #x00E8 #x00E9 #x00EA #x00EB #x00EC #x00ED #x00EE #x00EF
#| #o36x |# #x00F0 #x00F1 #x00F2 #x00F3 #x00F4 #x00F5 #x00F6 #x00F7
#| #o37x |# #x00F8 #x00F9 #x00FA #x00FB #x00FC #x00FD #x00FE #x00FF)
(define-8-bit-charset :koi8-r
#| #o00x |# #x0000 #x0001 #x0002 #x0003 #x0004 #x0005 #x0006 #x0007
#| #o01x |# #x0008 #x0009 #x000A #x000B #x000C #x000A #x000E #x000F
#| #o02x |# #x0010 #x0011 #x0012 #x0013 #x0014 #x0015 #x0016 #x0017
#| #o03x |# #x0018 #x0019 #x001A #x001B #x001C #x001D #x001E #x001F
#| #o04x |# #x0020 #x0021 #x0022 #x0023 #x0024 #x0025 #x0026 #x0027
#| #o05x |# #x0028 #x0029 #x002A #x002B #x002C #x002D #x002E #x002F
#| #o06x |# #x0030 #x0031 #x0032 #x0033 #x0034 #x0035 #x0036 #x0037
#| #o07x |# #x0038 #x0039 #x003A #x003B #x003C #x003D #x003E #x003F
#| #o10x |# #x0040 #x0041 #x0042 #x0043 #x0044 #x0045 #x0046 #x0047
#| #o11x |# #x0048 #x0049 #x004A #x004B #x004C #x004D #x004E #x004F
#| #o12x |# #x0050 #x0051 #x0052 #x0053 #x0054 #x0055 #x0056 #x0057
#| #o13x |# #x0058 #x0059 #x005A #x005B #x005C #x005D #x005E #x005F
#| #o14x |# #x0060 #x0061 #x0062 #x0063 #x0064 #x0065 #x0066 #x0067
#| #o15x |# #x0068 #x0069 #x006A #x006B #x006C #x006D #x006E #x006F
#| #o16x |# #x0070 #x0071 #x0072 #x0073 #x0074 #x0075 #x0076 #x0077
#| #o17x |# #x0078 #x0079 #x007A #x007B #x007C #x007D #x007E #x007F
#| #o20x |# #x2500 #x2502 #x250C #x2510 #x2514 #x2518 #x251C #x2524
#| #o21x |# #x252C #x2534 #x253C #x2580 #x2584 #x2588 #x258C #x2590
#| #o22x |# #x2591 #x2592 #x2593 #x2320 #x25A0 #x2219 #x221A #x2248
#| #o23x |# #x2264 #x2265 #x00A0 #x2321 #x00B0 #x00B2 #x00B7 #x00F7
#| #o24x |# #x2550 #x2551 #x2552 #x0451 #x2553 #x2554 #x2555 #x2556
#| #o25x |# #x2557 #x2558 #x2559 #x255A #x255B #x255C #x255D #x255E
#| #o26x |# #x255F #x2560 #x2561 #x0401 #x2562 #x2563 #x2564 #x2565
#| #o27x |# #x2566 #x2567 #x2568 #x2569 #x256A #x256B #x256C #x00A9
#| #o30x |# #x044E #x0430 #x0431 #x0446 #x0434 #x0435 #x0444 #x0433
#| #o31x |# #x0445 #x0438 #x0439 #x043A #x043B #x043C #x043D #x043E
#| #o32x |# #x043F #x044F #x0440 #x0441 #x0442 #x0443 #x0436 #x0432
#| #o33x |# #x044C #x044B #x0437 #x0448 #x044D #x0449 #x0447 #x044A
#| #o34x |# #x042E #x0410 #x0411 #x0426 #x0414 #x0415 #x0424 #x0413
#| #o35x |# #x0425 #x0418 #x0419 #x041A #x041B #x041C #x041D #x041E
#| #o36x |# #x041F #x042F #x0420 #x0421 #x0422 #x0423 #x0416 #x0412
#| #o37x |# #x042C #x042B #x0417 #x0428 #x042D #x0429 #x0427 #x042A)
)

347
xml/encodings.lisp
View File

@ -1,347 +0,0 @@
(in-package :encoding)
;;;; ---------------------------------------------------------------------------
;;;; Encoding names
;;;;
(defvar *names* (make-hash-table :test #'eq))
(defun canon-name (string)
(with-output-to-string (bag)
(map nil (lambda (ch)
(cond ((char= ch #\_) (write-char #\- bag))
(t (write-char (char-upcase ch) bag))))
string)))
(defun canon-name-2 (string)
(with-output-to-string (bag)
(map nil (lambda (ch)
(cond ((char= ch #\_))
((char= ch #\-))
(t (write-char (char-upcase ch) bag))))
string)))
(defmethod encoding-names ((encoding symbol))
(gethash encoding *names*))
(defmethod (setf encoding-names) (new-value (encoding symbol))
(setf (gethash encoding *names*) new-value))
(defun add-name (encoding name)
(pushnew (canon-name name) (encoding-names encoding) :test #'string=))
(defun resolve-name (string)
(cond ((symbolp string)
string)
(t
(setq string (canon-name string))
(or
(block nil
(maphash (lambda (x y)
(when (member string y :test #'string=)
(return x)))
*names*)
nil)
(block nil
(maphash (lambda (x y)
(when (member string y
:test #'(lambda (x y)
(string= (canon-name-2 x)
(canon-name-2 y))))
(return x)))
*names*)
nil)))))
;;;; ---------------------------------------------------------------------------
;;;; Encodings
;;;;
(defvar *encodings* (make-hash-table :test #'eq))
(defmacro define-encoding (name init-form)
`(progn
(setf (gethash ',name *encodings*)
(list nil (lambda () ,init-form)))
',name))
(defun find-encoding (name)
(let ((x (gethash (resolve-name name) *encodings*)))
(and x
(or (first x)
(setf (first x) (funcall (second x)))))))
(defclass encoding () ())
(defclass simple-8-bit-encoding (encoding)
((table :initarg :table)))
(defun make-simple-8-bit-encoding (&key charset)
(make-instance 'simple-8-bit-encoding
:table (coerce (to-unicode-table charset) '(simple-array (unsigned-byte 16) (256)))))
;;;;;;;
(defmacro fx-op (op &rest xs)
`(the fixnum (,op ,@(mapcar (lambda (x) `(the fixnum ,x)) xs))))
(defmacro fx-pred (op &rest xs)
`(,op ,@(mapcar (lambda (x) `(the fixnum ,x)) xs)))
(defmacro %+ (&rest xs) `(fx-op + ,@xs))
(defmacro %- (&rest xs) `(fx-op - ,@xs))
(defmacro %* (&rest xs) `(fx-op * ,@xs))
(defmacro %/ (&rest xs) `(fx-op floor ,@xs))
(defmacro %and (&rest xs) `(fx-op logand ,@xs))
(defmacro %ior (&rest xs) `(fx-op logior ,@xs))
(defmacro %xor (&rest xs) `(fx-op logxor ,@xs))
(defmacro %ash (&rest xs) `(fx-op ash ,@xs))
(defmacro %mod (&rest xs) `(fx-op mod ,@xs))
(defmacro %= (&rest xs) `(fx-pred = ,@xs))
(defmacro %<= (&rest xs) `(fx-pred <= ,@xs))
(defmacro %>= (&rest xs) `(fx-pred >= ,@xs))
(defmacro %< (&rest xs) `(fx-pred < ,@xs))
(defmacro %> (&rest xs) `(fx-pred > ,@xs))
(defmethod decode-sequence ((encoding (eql :utf-16-big-endian))
in in-start in-end out out-start out-end eof?)
;; -> new wptr, new rptr
(let ((wptr out-start)
(rptr in-start))
(loop
(when (%= wptr out-end)
(return))
(when (>= (%+ rptr 1) in-end)
(return))
(let ((hi (aref in rptr))
(lo (aref in (%+ 1 rptr))))
(setf rptr (%+ 2 rptr))
(setf (aref out wptr) (logior (ash hi 8) lo))
(setf wptr (%+ 1 wptr))))
(values wptr rptr)))
(defmethod decode-sequence ((encoding (eql :utf-16-little-endian))
in in-start in-end out out-start out-end eof?)
;; -> new wptr, new rptr
(let ((wptr out-start)
(rptr in-start))
(loop
(when (%= wptr out-end)
(return))
(when (>= (%+ rptr 1) in-end)
(return))
(let ((lo (aref in (%+ 0 rptr)))
(hi (aref in (%+ 1 rptr))))
(setf rptr (%+ 2 rptr))
(setf (aref out wptr) (logior (ash hi 8) lo))
(setf wptr (%+ 1 wptr))))
(values wptr rptr)))
(defmethod decode-sequence ((encoding (eql :utf-8))
in in-start in-end out out-start out-end eof?)
(declare (optimize (speed 3) (safety 0))
(type (simple-array (unsigned-byte 8) (*)) in)
(type (simple-array rune (*)) out)
(type fixnum in-start in-end out-start out-end))
(let ((wptr out-start)
(rptr in-start)
byte0)
(macrolet ((put (x)
`((lambda (x)
(cond ((or (<= #xD800 x #xDBFF)
(<= #xDC00 x #xDFFF))
(error "Encoding UTF-16 in UTF-8? : #x~x." x)))
'(unless (data-char-p x)
(error "#x~x is not a data character." x))
;;(fresh-line)
;;(prin1 x) (princ "-> ")
(cond ((%> x #xFFFF)
(setf (aref out (%+ 0 wptr)) (%+ #xD7C0 (ash x -10))
(aref out (%+ 1 wptr)) (%ior #xDC00 (%and x #x3FF)))
(setf wptr (%+ wptr 2)))
(t
(setf (aref out wptr) x)
(setf wptr (%+ wptr 1)))))
,x))
(put1 (x)
`(progn
(setf (aref out wptr) ,x)
(setf wptr (%+ wptr 1)))))
(loop
(when (%= (+ wptr 1) out-end) (return))
(when (%>= rptr in-end) (return))
(setq byte0 (aref in rptr))
(cond ((= byte0 #x0D)
;; CR handling
;; we need to know the following character
(cond ((>= (%+ rptr 1) in-end)
;; no characters in buffer
(cond (eof?
;; at EOF, pass it as NL
(put #x0A)
(setf rptr (%+ rptr 1)))
(t
;; demand more characters
(return))))
((= (aref in (%+ rptr 1)) #x0A)
;; we see CR NL, so forget this CR and the next NL will be
;; inserted literally
(setf rptr (%+ rptr 1)))
(t
;; singleton CR, pass it as NL
(put #x0A)
(setf rptr (%+ rptr 1)))))
((%<= #|#b00000000|# byte0 #b01111111)
(put1 byte0)
(setf rptr (%+ rptr 1)))
((%<= #|#b10000000|# byte0 #b10111111)
(error "Corrupted UTF-8 input (initial byte was #b~8,'0B)" byte0)
(setf rptr (%+ rptr 1)))
((%<= #|#b11000000|# byte0 #b11011111)
(cond ((< (%+ rptr 2) in-end)
(put
(dpb (ldb (byte 5 0) byte0) (byte 5 6)
(dpb (ldb (byte 6 0) (aref in (%+ rptr 1))) (byte 6 0)
0)))
(setf rptr (%+ rptr 2)))
(t
(return))))
((%<= #|#b11100000|# byte0 #b11101111)
(cond ((< (%+ rptr 3) in-end)
(put
(dpb (ldb (byte 4 0) byte0) (byte 4 12)
(dpb (ldb (byte 6 0) (aref in (%+ 1 rptr))) (byte 6 6)
(dpb (ldb (byte 6 0) (aref in (%+ 2 rptr))) (byte 6 0)
0))))
(setf rptr (%+ rptr 3)))
(t
(return))))
((%<= #|#b11110000|# byte0 #b11110111)
(cond ((< (%+ rptr 4) in-end)
(put
(dpb (ldb (byte 3 0) byte0) (byte 3 18)
(dpb (ldb (byte 6 0) (aref in (%+ 1 rptr))) (byte 6 12)
(dpb (ldb (byte 6 0) (aref in (%+ 2 rptr))) (byte 6 6)
(dpb (ldb (byte 6 0) (aref in (%+ 3 rptr))) (byte 6 0)
0)))))
(setf rptr (%+ rptr 4)))
(t
(return))))
((%<= #|#b11111000|# byte0 #b11111011)
(cond ((< (%+ rptr 5) in-end)
(put
(dpb (ldb (byte 2 0) byte0) (byte 2 24)
(dpb (ldb (byte 6 0) (aref in (%+ 1 rptr))) (byte 6 18)
(dpb (ldb (byte 6 0) (aref in (%+ 2 rptr))) (byte 6 12)
(dpb (ldb (byte 6 0) (aref in (%+ 3 rptr))) (byte 6 6)
(dpb (ldb (byte 6 0) (aref in (%+ 4 rptr))) (byte 6 0)
0))))))
(setf rptr (%+ rptr 5)))
(t
(return))))
((%<= #|#b11111100|# byte0 #b11111101)
(cond ((< (%+ rptr 6) in-end)
(put
(dpb (ldb (byte 1 0) byte0) (byte 1 30)
(dpb (ldb (byte 6 0) (aref in (%+ 1 rptr))) (byte 6 24)
(dpb (ldb (byte 6 0) (aref in (%+ 2 rptr))) (byte 6 18)
(dpb (ldb (byte 6 0) (aref in (%+ 3 rptr))) (byte 6 12)
(dpb (ldb (byte 6 0) (aref in (%+ 4 rptr))) (byte 6 6)
(dpb (ldb (byte 6 0) (aref in (%+ 5 rptr))) (byte 6 0)
0)))))))
(setf rptr (%+ rptr 6)))
(t
(return))))
(t
(error "Corrupted UTF-8 input (initial byte was #b~8,'0B)" byte0)) ) ))
(values wptr rptr)) )
(defmethod encoding-p ((object (eql :utf-16-little-endian))) t)
(defmethod encoding-p ((object (eql :utf-16-big-endian))) t)
(defmethod encoding-p ((object (eql :utf-8))) t)
(defmethod encoding-p ((object encoding)) t)
(defmethod decode-sequence ((encoding simple-8-bit-encoding)
in in-start in-end
out out-start out-end
eof?)
(declare (optimize (speed 3) (safety 0))
(type (simple-array (unsigned-byte 8) (*)) in)
(type (simple-array rune (*)) out)
(type fixnum in-start in-end out-start out-end))
(let ((wptr out-start)
(rptr in-start)
(byte 0)
(table (slot-value encoding 'table)))
(declare (type fixnum wptr rptr)
(type (unsigned-byte 8) byte)
(type (simple-array (unsigned-byte 16) (*)) table))
(loop
(when (%= wptr out-end) (return))
(when (%>= rptr in-end) (return))
(setq byte (aref in rptr))
(cond ((= byte #x0D)
;; CR handling
;; we need to know the following character
(cond ((>= (%+ rptr 1) in-end)
;; no characters in buffer
(cond (eof?
;; at EOF, pass it as NL
(setf (aref out wptr) #x0A)
(setf wptr (%+ wptr 1))
(setf rptr (%+ rptr 1)))
(t
;; demand more characters
(return))))
((= (aref in (%+ rptr 1)) #x0A)
;; we see CR NL, so forget this CR and the next NL will be
;; inserted literally
(setf rptr (%+ rptr 1)))
(t
;; singleton CR, pass it as NL
(setf (aref out wptr) #x0A)
(setf wptr (%+ wptr 1))
(setf rptr (%+ rptr 1)))))
(t
(setf (aref out wptr) (aref table byte))
(setf wptr (%+ wptr 1))
(setf rptr (%+ rptr 1))) ))
(values wptr rptr)))
;;;; ---------------------------------------------------------------------------
;;;; Character sets
;;;;
(defvar *charsets* (make-hash-table :test #'eq))
(defclass 8-bit-charset ()
((name :initarg :name)
(to-unicode-table
:initarg :to-unicode-table
:reader to-unicode-table)))
(defmacro define-8-bit-charset (name &rest codes)
(assert (= 256 (length codes)))
`(progn
(setf (gethash ',name *charsets*)
(make-instance '8-bit-charset
:name ',name
:to-unicode-table
',(make-array 256
:element-type '(unsigned-byte 16)
:initial-contents codes)))
',name))
(defun find-charset (name)
(or (gethash name *charsets*)
(error "There is no character set named ~S." name)))

35
xml/string-dom.lisp
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(defpackage :string-dom
(:use))
(eval-when (:compile-toplevel :load-toplevel :execute)
(do-external-symbols (var :cdom)
(let* ((home-package
(if (member var '(cdom:data cdom:name cdom:value cdom:tag-name
cdom:node-name cdom:node-value
cdom:substring-data cdom:get-attribute))
:string-dom
:cdom))
(symbol (intern (symbol-name var) home-package)))
(import symbol :string-dom)
(export (list symbol) :string-dom))))
(defpackage :string-dom-impl (:use :cl))
(in-package :string-dom-impl)
(defun rod-to-string (frob)
(if (null frob)
nil
(map 'string #'code-char frob)))
(defun string-dom:data (node) (rod-to-string (cdom:data node)))
(defun string-dom:name (node) (rod-to-string (cdom:name node)))
(defun string-dom:value (node) (rod-to-string (cdom:value node)))
(defun string-dom:tag-name (node) (rod-to-string (cdom:tag-name node)))
(defun string-dom:node-name (node) (rod-to-string (cdom:node-name node)))
(defun string-dom:node-value (node) (rod-to-string (cdom:node-value node)))
(defun string-dom:substring-data (node offset count)
(rod-to-string (cdom:substring-data node offset count)))
(defun string-dom:get-attribute (elt name)
(rod-to-string (cdom:get-attribute elt name)))

172
xml/xml-canonic.lisp
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;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: XML; readtable: glisp; Encoding: utf-8; -*-
;;; ---------------------------------------------------------------------------
;;; Title: Dump canonic XML according to J.Clark
;;; Created: 1999-09-09
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; License: LGPL (See file COPYING for details).
;;; ---------------------------------------------------------------------------
;;; © copyright 1999 by Gilbert Baumann
;;; This library is free software; you can redistribute it and/or
;;; modify it under the terms of the GNU Library General Public
;;; License as published by the Free Software Foundation; either
;;; version 2 of the License, or (at your option) any later version.
;;;
;;; This library 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
;;; Library General Public License for more details.
;;;
;;; You should have received a copy of the GNU Library General Public
;;; License along with this library; if not, write to the
;;; Free Software Foundation, Inc., 59 Temple Place - Suite 330,
;;; Boston, MA 02111-1307 USA.
(in-package :xml)
;;
;; | Canonical XML
;; | =============
;; |
;; | This document defines a subset of XML called canonical XML. The
;; | intended use of canonical XML is in testing XML processors, as a
;; | representation of the result of parsing an XML document.
;; |
;; | Every well-formed XML document has a unique structurally equivalent
;; | canonical XML document. Two structurally equivalent XML documents have
;; | a byte-for-byte identical canonical XML document. Canonicalizing an
;; | XML document requires only information that an XML processor is
;; | required to make available to an application.
;; |
;; | A canonical XML document conforms to the following grammar:
;; |
;; | CanonXML ::= Pi* element Pi*
;; | element ::= Stag (Datachar | Pi | element)* Etag
;; | Stag ::= '<' Name Atts '>'
;; | Etag ::= '</' Name '>'
;; | Pi ::= '<?' Name ' ' (((Char - S) Char*)? - (Char* '?>' Char*)) '?>'
;; | Atts ::= (' ' Name '=' '"' Datachar* '"')*
;; | Datachar ::= '&amp;' | '&lt;' | '&gt;' | '&quot;'
;; | | '&#9;'| '&#10;'| '&#13;'
;; | | (Char - ('&' | '<' | '>' | '"' | #x9 | #xA | #xD))
;; | Name ::= (see XML spec)
;; | Char ::= (see XML spec)
;; | S ::= (see XML spec)
;; |
;; | Attributes are in lexicographical order (in Unicode bit order).
;; |
;; | A canonical XML document is encoded in UTF-8.
;; |
;; | Ignorable white space is considered significant and is treated
;; | equivalently to data.
;;
;; -- James Clark (jjc@jclark.com)
(defvar *quux*) ;!!!BIG HACK!!!
(defun unparse-document (doc sink)
(mapc (rcurry #'unparse-node sink) (dom:child-nodes doc)))
(defun unparse-node (node sink)
(cond ((dom:element-p node)
(write-rune #/< sink)
(write-rod (dom:tag-name node) sink)
;; atts
(let ((atts (sort (copy-list (dom:items (dom:attributes node)))
#'rod< :key #'dom:name)))
(dolist (a atts)
(write-rune #/space sink)
(write-rod (dom:name a) sink)
(write-rune #/= sink)
(write-rune #/\" sink)
(let ((*quux* nil))
(map nil (lambda (c) (unparse-datachar c sink)) (dom:value a)))
(write-rune #/\" sink)))
(write-rod '#.(string-rod ">") sink)
(dolist (k (dom:child-nodes node))
(unparse-node k sink))
(write-rod '#.(string-rod "</") sink)
(write-rod (dom:tag-name node) sink)
(write-rod '#.(string-rod ">") sink))
((dom:processing-instruction-p node)
(unless (rod-equal (dom:target node) '#.(string-rod "xml"))
(write-rod '#.(string-rod "<?") sink)
(write-rod (dom:target node) sink)
(write-rune #/space sink)
(write-rod (dom:data node) sink)
(write-rod '#.(string-rod "?>") sink) ))
((dom:text-node-p node)
(let ((*quux* nil))
(map nil (lambda (c) (unparse-datachar c sink))
(dom:data node))))
(t
(error "Oops in unparse: ~S." node))))
(defun unparse-datachar (c sink)
(cond ((rune= c #/&) (write-rod '#.(string-rod "&amp;") sink))
((rune= c #/<) (write-rod '#.(string-rod "&lt;") sink))
((rune= c #/>) (write-rod '#.(string-rod "&gt;") sink))
((rune= c #/\") (write-rod '#.(string-rod "&quot;") sink))
((rune= c #/U+0009) (write-rod '#.(string-rod "&#9;") sink))
((rune= c #/U+000A) (write-rod '#.(string-rod "&#10;") sink))
((rune= c #/U+000D) (write-rod '#.(string-rod "&#13;") sink))
(t
(write-rune c sink))))
(defun write-rod (rod sink)
(let ((*quux* nil))
(map nil (lambda (c) (write-rune c sink)) rod)))
(defun write-rune (rune sink)
(cond ((<= #xD800 rune #xDBFF)
(setf *quux* rune))
((<= #xDC00 rune #xDFFF)
(let ((q (logior (ash (- *quux* #xD7C0) 10) (- rune #xDC00))))
(write-rune-0 q sink))
(setf *quux* nil))
(t
(write-rune-0 rune sink))))
(defun write-rune-0 (rune sink)
(labels ((wr (x)
(write-char (code-char x) sink)))
(cond ((<= #x00000000 rune #x0000007F)
(wr rune))
((<= #x00000080 rune #x000007FF)
(wr (logior #b11000000 (ldb (byte 5 6) rune)))
(wr (logior #b10000000 (ldb (byte 6 0) rune))))
((<= #x00000800 rune #x0000FFFF)
(wr (logior #b11100000 (ldb (byte 4 12) rune)))
(wr (logior #b10000000 (ldb (byte 6 6) rune)))
(wr (logior #b10000000 (ldb (byte 6 0) rune))))
((<= #x00010000 rune #x001FFFFF)
(wr (logior #b11110000 (ldb (byte 3 18) rune)))
(wr (logior #b10000000 (ldb (byte 6 12) rune)))
(wr (logior #b10000000 (ldb (byte 6 6) rune)))
(wr (logior #b10000000 (ldb (byte 6 0) rune))))
((<= #x00200000 rune #x03FFFFFF)
(wr (logior #b11111000 (ldb (byte 2 24) rune)))
(wr (logior #b10000000 (ldb (byte 6 18) rune)))
(wr (logior #b10000000 (ldb (byte 6 12) rune)))
(wr (logior #b10000000 (ldb (byte 6 6) rune)))
(wr (logior #b10000000 (ldb (byte 6 0) rune))))
((<= #x04000000 rune #x7FFFFFFF)
(wr (logior #b11111100 (ldb (byte 1 30) rune)))
(wr (logior #b10000000 (ldb (byte 6 24) rune)))
(wr (logior #b10000000 (ldb (byte 6 18) rune)))
(wr (logior #b10000000 (ldb (byte 6 12) rune)))
(wr (logior #b10000000 (ldb (byte 6 6) rune)))
(wr (logior #b10000000 (ldb (byte 6 0) rune)))))))
(defun rod< (rod1 rod2)
(do ((i 0 (+ i 1)))
(nil)
(cond ((= i (length rod1))
(return t))
((= i (length rod2))
(return nil))
((< (aref rod1 i) (aref rod2 i))
(return t))
((> (aref rod1 i) (aref rod2 i))
(return nil)))))

370
xml/xml-stream.lisp
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;;; -*- Mode: Lisp; Syntax: Common-Lisp; Package: XML; readtable: glisp; Encoding: utf-8; -*-
;;; ---------------------------------------------------------------------------
;;; Title: Fast streams
;;; Created: 1999-07-17
;;; Author: Gilbert Baumann <unk6@rz.uni-karlsruhe.de>
;;; License: LGPL (See file COPYING for details).
;;; ---------------------------------------------------------------------------
;;; © copyright 1999 by Gilbert Baumann
;;; This library is free software; you can redistribute it and/or
;;; modify it under the terms of the GNU Library General Public
;;; License as published by the Free Software Foundation; either
;;; version 2 of the License, or (at your option) any later version.
;;;
;;; This library 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
;;; Library General Public License for more details.
;;;
;;; You should have received a copy of the GNU Library General Public
;;; License along with this library; if not, write to the
;;; Free Software Foundation, Inc., 59 Temple Place - Suite 330,
;;; Boston, MA 02111-1307 USA.
(in-package :xml)
;;; API
;;
;; MAKE-XSTREAM cl-stream &key name speed initial-speed [function]
;; MAKE-ROD-XSTREAM rod &key name [function]
;; CLOSE-XSTREAM xstream [function]
;; READ-RUNE xstream [macro]
;; PEEK-RUNE xstream [macro]
;; FREAD-RUNE xstream [function]
;; FPEEK-RUNE xstream [function]
;; XSTREAM-POSITION xstream [function]
;; XSTREAM-LINE-NUMBER xstream [function]
;; XSTREAM-COLUMN-NUMBER xstream [function]
;; XSTREAM-PLIST xstream [accessor]
;; XSTREAM-ENCODING xstream [accessor] <-- be careful here. [*]
;; [*] swichting the encoding on the fly is only possible when the
;; stream's buffer is empty; therefore to be able to switch the
;; encoding, while some runes are already read, set the stream's speed
;; to 1 initially (via the initial-speed argument for MAKE-XSTREAM)
;; and later set it to full speed. (The encoding of the runes
;; sequence, you fetch off with READ-RUNE is always UTF-16 though).
;; An encoding is simply something, which provides the DECODE-SEQUENCE
;; method.
;;; Controller protocol
;;
;; READ-OCTECTS sequence os-stream start end -> first-non-written
;; XSTREAM/CLOSE os-stream
;;
(eval-when (eval compile load)
(defparameter *fast* '(optimize (speed 3) (safety 0)))
;;(defparameter *fast* '(optimize (speed 2) (safety 3)))
)
;; Let us first define fast fixnum arithmetric get rid of type
;; checks. (After all we know what we do here).
(defmacro fx-op (op &rest xs)
`(the fixnum (,op ,@(mapcar (lambda (x) `(the fixnum ,x)) xs))))
(defmacro fx-pred (op &rest xs)
`(,op ,@(mapcar (lambda (x) `(the fixnum ,x)) xs)))
(defmacro %+ (&rest xs) `(fx-op + ,@xs))
(defmacro %- (&rest xs) `(fx-op - ,@xs))
(defmacro %* (&rest xs) `(fx-op * ,@xs))
(defmacro %/ (&rest xs) `(fx-op floor ,@xs))
(defmacro %and (&rest xs) `(fx-op logand ,@xs))
(defmacro %ior (&rest xs) `(fx-op logior ,@xs))
(defmacro %xor (&rest xs) `(fx-op logxor ,@xs))
(defmacro %ash (&rest xs) `(fx-op ash ,@xs))
(defmacro %mod (&rest xs) `(fx-op mod ,@xs))
(defmacro %= (&rest xs) `(fx-pred = ,@xs))
(defmacro %<= (&rest xs) `(fx-pred <= ,@xs))
(defmacro %>= (&rest xs) `(fx-pred >= ,@xs))
(defmacro %< (&rest xs) `(fx-pred < ,@xs))
(defmacro %> (&rest xs) `(fx-pred > ,@xs))
(deftype buffer-index ()
`(unsigned-byte ,(integer-length array-total-size-limit)))
(deftype buffer-byte ()
`(unsigned-byte 16))
(deftype octet ()
`(unsigned-byte 8))
;; The usage of a special marker for EOF is experimental and
;; considered unhygenic.
(defconstant +end+ #xFFFF
"Special marker inserted into stream buffers to indicate end of buffered data.")
(defvar +null-buffer+ (make-array 0 :element-type 'buffer-byte))
(defvar +null-octet-buffer+ (make-array 0 :element-type 'octet))
(defstruct (xstream
(:constructor make-xstream/low)
(:copier nil)
(:print-function print-xstream))
;;; Read buffer
;; the buffer itself
(buffer +null-buffer+
:type (simple-array buffer-byte (*)))
;; points to the next element of `buffer' containing the next rune
;; about to be read.
(read-ptr 0 :type buffer-index)
;; points to the first element of `buffer' not containing a rune to
;; be read.
(fill-ptr 0 :type buffer-index)
;;; OS buffer
;; a scratch pad for READ-SEQUENCE
(os-buffer +null-octet-buffer+
:type (simple-array octet (*)))
;; `os-left-start', `os-left-end' designate a region of os-buffer,
;; which still contains some undecoded data. This is needed because
;; of the DECODE-SEQUENCE protocol
(os-left-start 0 :type buffer-index)
(os-left-end 0 :type buffer-index)
;; How much to read each time
(speed 0 :type buffer-index)
;; Some stream object obeying to a certain protcol
os-stream
;; The external format
;; (some object offering the ENCODING protocol)
(encoding :utf-8)
;;A STREAM-NAME object
(name nil)
;; a plist a struct keeps the hack away
(plist nil)
;; Stream Position
(line-number 1 :type integer) ;current line number
(line-start 0 :type integer) ;stream position the current line starts at
(buffer-start 0 :type integer) ;stream position the current buffer starts at
;; There is no need to maintain a column counter for each character
;; read, since we can easily compute it from `line-start' and
;; `buffer-start'.
)
(defmacro read-rune (input)
"Read a single rune off the xstream `input'. In case of end of file :EOF
is returned."
`((lambda (input)
(declare (type xstream input)
#.*fast*)
(let ((rp (xstream-read-ptr input)))
(declare (type buffer-index rp))
(let ((ch (aref (the (simple-array buffer-byte (*)) (xstream-buffer input))
rp)))
(declare (type buffer-byte ch))
(setf (xstream-read-ptr input) (%+ rp 1))
(cond ((%= ch +end+)
(the (or (member :eof) rune)
(xstream-underflow input)))
((%= ch #x000A) ;line break
(account-for-line-break input)
(code-rune ch))
(t
(code-rune ch))))))
,input))
(defmacro peek-rune (input)
"Peek a single rune off the xstream `input'. In case of end of file :EOF
is returned."
`((lambda (input)
(declare (type xstream input)
#.*fast*)
(let ((rp (xstream-read-ptr input)))
(declare (type buffer-index rp))
(let ((ch (aref (the (simple-array buffer-byte (*)) (xstream-buffer input))
rp)))
(declare (type buffer-byte ch))
(cond ((%= ch +end+)
(prog1
(the (or (member :eof) rune) (xstream-underflow input))
(setf (xstream-read-ptr input) 0)))
(t
(code-rune ch))))))
,input))
(defmacro consume-rune (input)
"Like READ-RUNE, but does not actually return the read rune."
`((lambda (input)
(declare (type xstream input)
#.*fast*)
(let ((rp (xstream-read-ptr input)))
(declare (type buffer-index rp))
(let ((ch (aref (the (simple-array buffer-byte (*)) (xstream-buffer input))
rp)))
(declare (type buffer-byte ch))
(setf (xstream-read-ptr input) (%+ rp 1))
(when (%= ch +end+)
(xstream-underflow input))
(when (%= ch #x000A) ;line break
(account-for-line-break input) )))
nil)
,input))
(defsubst unread-rune (rune input)
"Unread the last recently read rune; if there wasn't such a rune, you
deserve to loose."
(declare (ignore rune))
(decf (xstream-read-ptr input))
(when (%= (peek-rune input) #x000A) ;was it a line break?
(unaccount-for-line-break input)))
(defun fread-rune (input)
(read-rune input))
(defun fpeek-rune (input)
(peek-rune input))
;;; Line counting
(defun account-for-line-break (input)
(declare (type xstream input))
(incf (xstream-line-number input))
(setf (xstream-line-start input)
(+ (xstream-buffer-start input) (xstream-read-ptr input))))
(defun unaccount-for-line-break (input)
;; incomplete!
;; We better use a traditional lookahead technique or forbid unread-rune.
(decf (xstream-line-number input)))
;; User API:
(defun xstream-position (input)
(+ (xstream-buffer-start input) (xstream-read-ptr input)))
;; xstream-line-number is structure accessor
(defun xstream-column-number (input)
(+ (- (xstream-position input)
(xstream-line-start input))
1))
;;; Underflow
;;(defun read-runes (sequence input))
(defun xstream-underflow (input)
(declare (type xstream input))
;; we are about to fill new data into the buffer, so we need to
;; adjust buffer-start.
(incf (xstream-buffer-start input)
(- (xstream-fill-ptr input) 0))
(let (n m)
;; when there is something left in the os-buffer, we move it to
;; the start of the buffer.
(setf m (- (xstream-os-left-end input) (xstream-os-left-start input)))
(unless (zerop m)
(replace (xstream-os-buffer input) (xstream-os-buffer input)
:start1 0 :end1 m
:start2 (xstream-os-left-start input)
:end2 (xstream-os-left-end input))
;; then we take care that the buffer is large enough to carry at
;; least 100 bytes (a random number)
(unless (>= (length (xstream-os-buffer input)) 100)
(error "You lost")
;; todo: enlarge buffer
))
(setf n
(read-octets (xstream-os-buffer input) (xstream-os-stream input)
m (min (1- (length (xstream-os-buffer input)))
(+ m (xstream-speed input)))))
(cond ((%= n 0)
(setf (xstream-read-ptr input) 0
(xstream-fill-ptr input) n)
(setf (aref (xstream-buffer input) (xstream-fill-ptr input)) +end+)
:eof)
(t
(multiple-value-bind (fnw fnr)
(decode-sequence (xstream-encoding input)
(xstream-os-buffer input) 0 n
(xstream-buffer input) 0 (1- (length (xstream-buffer input)))
(= n m))
(setf (xstream-os-left-start input) fnr
(xstream-os-left-end input) n
(xstream-read-ptr input) 0
(xstream-fill-ptr input) fnw)
(setf (aref (xstream-buffer input) (xstream-fill-ptr input)) +end+)
(read-rune input))))))
;;; constructor
(defun make-xstream (os-stream &key name (speed 8192) (initial-speed speed))
(let ()
(multiple-value-bind (encoding preread) (figure-encoding os-stream)
(let ((osbuf (make-array speed :element-type '(unsigned-byte 8))))
(replace osbuf preread)
(make-xstream/low
:buffer (let ((r (make-array speed :element-type 'buffer-byte)))
(setf (%rune r 0) #xFFFF)
r)
:read-ptr 0
:fill-ptr 0
:os-buffer osbuf
:speed initial-speed
:os-stream os-stream
:os-left-start 0
:os-left-end (length preread)
:encoding encoding
:name name)))))
(defmethod figure-encoding ((stream glisp:gstream))
;; For HTML iso-8859-1 is the default
(values (xml::find-encoding :iso-8859-1) nil))
(defun make-rod-xstream (string &key name)
(let ((n (length string)))
(let ((buffer (make-array (1+ n) :element-type 'buffer-byte)))
(declare (type (simple-array buffer-byte (*)) buffer))
;; copy the rod
(do ((i (1- n) (- i 1)))
((< i 0))
(declare (type fixnum i))
(setf (aref buffer i) (rune-code (%rune string i))))
(setf (aref buffer n) +end+)
;;
(make-xstream/low :buffer buffer
:read-ptr 0
:fill-ptr n
;; :os-buffer nil
:speed 1
:os-stream nil
:name name))))
;;; misc
(defun close-xstream (input)
(xstream/close (xstream-os-stream input)))
;;; controller implementations
(defmethod read-octets (sequence (stream stream) start end)
(#+CLISP lisp:read-byte-sequence
#-CLISP read-sequence
sequence stream :start start :end end))
(defmethod read-octets (sequence (stream null) start end)
(declare (ignore sequence start end))
0)
(defmethod xstream/close ((stream stream))
(close stream))
(defmethod xstream/close ((stream null))
nil)

23
xmlconf.lisp
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(defpackage xmlconf
(:use :cl)
(:alias (:string-dom :dom)))
(in-package :xmlconf)
(defun test-xml-conformance (directory)
(let ((xmlconf (xml:parse-file (merge-pathnames "xmlconf.xml" directory))))
(dolist (test (dom:get-elements-by-tag-name xmlconf "test"))
(when (equal (dom:get-attribute test "TYPE") "valid")
(let* ((base (dom:get-attribute (dom:parent-node test) "xml:base"))
(uri (dom:get-attribute test "URI")))
(unless base
(inspect test))
(princ uri)
(handler-case
(progn
(xml:parse-file
(merge-pathnames uri (merge-pathnames base directory)))
(format t " ok~%"))
(serious-condition (c)
(format t " FAILED:~% ~A~%[~A]~%"
c
(dom:data (car (dom:child-nodes test)))))))))))