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/*
 * Copyright (c) 1998, 2021 Oracle and/or its affiliates. All rights reserved.
 *
 * This program and the accompanying materials are made available under the
 * terms of the Eclipse Distribution License v. 1.0, which is available at
 * http://www.eclipse.org/org/documents/edl-v10.php.
 *
 * SPDX-License-Identifier: BSD-3-Clause
 */

package com.sun.xml.dtdparser;


/**
 * Methods in this class are used to determine whether characters may
 * appear in certain roles in XML documents.  Such methods are used
 * both to parse and to create such documents.
 *
 * @author David Brownell
 * @version 1.1, 00/08/05
 */
public class XmlChars {
    // can't construct instances
    private XmlChars() {
    }

    /**
     * Returns true if the argument, a UCS-4 character code, is valid in
     * XML documents.  Unicode characters fit into the low sixteen
     * bits of a UCS-4 character, and pairs of Unicode surrogate
     * characters can be combined to encode UCS-4 characters in
     * documents containing only Unicode.  (The char datatype
     * in the Java Programming Language represents Unicode characters,
     * including unpaired surrogates.)
     *
     * 

In XML, UCS-4 characters can also be encoded by the use of * character references such as &#x12345678;, which * happens to refer to a character that is disallowed in XML documents. * UCS-4 characters allowed in XML documents can be expressed with * one or two Unicode characters. * * @param ucs4char The 32-bit UCS-4 character being tested. * @return true if the argument is valid in XML documents */ static public boolean isChar(int ucs4char) { // [2] Char ::= #x0009 | #x000A | #x000D // | [#x0020-#xD7FF] // ... surrogates excluded! // | [#xE000-#xFFFD] // | [#x10000-#x10ffff] return ((ucs4char >= 0x0020 && ucs4char <= 0xD7FF) || ucs4char == 0x000A || ucs4char == 0x0009 || ucs4char == 0x000D || (ucs4char >= 0xE000 && ucs4char <= 0xFFFD) || (ucs4char >= 0x10000 && ucs4char <= 0x10ffff)); } /** * Returns true if the character is allowed to be a non-initial * character in names according to the XML recommendation. * * @param c character to test * @return true if the character is allowed to be a non-initial character * @see #isNCNameChar(char) * @see #isLetter(char) */ public static boolean isNameChar(char c) { // [4] NameChar ::= Letter | Digit | '.' | '_' | ':' // | CombiningChar | Extender if (isLetter2(c)) return true; else if (c == '>') return false; else if (c == '.' || c == '-' || c == '_' || c == ':' || isExtender(c)) return true; else return false; } /** * Returns true if the character is allowed to be a non-initial * character in unscoped names according to the rules of the XML * Namespaces proposed recommendation. Except for precluding * the colon (used to separate names from their scopes) these * characters are just as allowed by the XML recommendation. * * @param c character to test * @return true if the character is allowed to be a non-initial character * @see #isNameChar(char) * @see #isLetter(char) */ public static boolean isNCNameChar(char c) { // [NC 5] NCNameChar ::= Letter | Digit | '.' | '_' // | CombiningChar | Extender return c != ':' && isNameChar(c); } /** * Returns true if the character is allowed where XML supports * whitespace characters, false otherwise. * @param c character to test * @return true if the character is allowed */ public static boolean isSpace(char c) { return c == ' ' || c == '\t' || c == '\n' || c == '\r'; } /* * NOTE: java.lang.Character.getType() values are: * * UNASSIGNED = 0, * * UPPERCASE_LETTER = 1, // Lu * LOWERCASE_LETTER = 2, // Ll * TITLECASE_LETTER = 3, // Lt * MODIFIER_LETTER = 4, // Lm * OTHER_LETTER = 5, // Lo * NON_SPACING_MARK = 6, // Mn * ENCLOSING_MARK = 7, // Me * COMBINING_SPACING_MARK = 8, // Mc * DECIMAL_DIGIT_NUMBER = 9, // Nd * LETTER_NUMBER = 10, // Nl * OTHER_NUMBER = 11, // No * SPACE_SEPARATOR = 12, // Zs * LINE_SEPARATOR = 13, // Zl * PARAGRAPH_SEPARATOR = 14, // Zp * CONTROL = 15, // Cc * FORMAT = 16, // Cf * // 17 reserved for proposed Ci category * PRIVATE_USE = 18, // Co * SURROGATE = 19, // Cs * DASH_PUNCTUATION = 20, // Pd * START_PUNCTUATION = 21, // Ps * END_PUNCTUATION = 22, // Pe * CONNECTOR_PUNCTUATION = 23, // Pc * OTHER_PUNCTUATION = 24, // Po * MATH_SYMBOL = 25, // Sm * CURRENCY_SYMBOL = 26, // Sc * MODIFIER_SYMBOL = 27, // Sk * OTHER_SYMBOL = 28; // So */ /** * Returns true if the character is an XML "letter". XML Names must * start with Letters or a few other characters, but other characters * in names must only satisfy the isNameChar predicate. * * @param c character to test * @return true if the character is an XML "letter" * @see #isNameChar(char) * @see #isNCNameChar(char) */ public static boolean isLetter(char c) { // [84] Letter ::= BaseChar | Ideographic // [85] BaseChar ::= ... too much to repeat // [86] Ideographic ::= ... too much to repeat // // Optimize the typical case. // if (c >= 'a' && c <= 'z') return true; if (c == '/') return false; if (c >= 'A' && c <= 'Z') return true; // // Since the tables are too ridiculous to use in code, // we're using the footnotes here to drive this test. // switch (Character.getType(c)) { // app. B footnote says these are 'name start' // chars' ... case Character.LOWERCASE_LETTER: // Ll case Character.UPPERCASE_LETTER: // Lu case Character.OTHER_LETTER: // Lo case Character.TITLECASE_LETTER: // Lt case Character.LETTER_NUMBER: // Nl // OK, here we just have some exceptions to check... return !isCompatibilityChar(c) // per "5.14 of Unicode", rule out some combiners && !(c >= 0x20dd && c <= 0x20e0); default: // check for some exceptions: these are "alphabetic" return ((c >= 0x02bb && c <= 0x02c1) || c == 0x0559 || c == 0x06e5 || c == 0x06e6); } } // // XML 1.0 discourages "compatibility" characters in names; these // were defined to permit passing through some information stored in // older non-Unicode character sets. These always have alternative // representations in Unicode, e.g. using combining chars. // private static boolean isCompatibilityChar(char c) { // the numerous comparisions here seem unavoidable, // but the switch can reduce the number which must // actually be executed. switch ((c >> 8) & 0x0ff) { case 0x00: // ISO Latin/1 has a few compatibility characters return c == 0x00aa || c == 0x00b5 || c == 0x00ba; case 0x01: // as do Latin Extended A and (parts of) B return (c >= 0x0132 && c <= 0x0133) || (c >= 0x013f && c <= 0x0140) || c == 0x0149 || c == 0x017f || (c >= 0x01c4 && c <= 0x01cc) || (c >= 0x01f1 && c <= 0x01f3); case 0x02: // some spacing modifiers return (c >= 0x02b0 && c <= 0x02b8) || (c >= 0x02e0 && c <= 0x02e4); case 0x03: return c == 0x037a; // Greek case 0x05: return c == 0x0587; // Armenian case 0x0e: return c >= 0x0edc && c <= 0x0edd; // Laotian case 0x11: // big chunks of Hangul Jamo are all "compatibility" return c == 0x1101 || c == 0x1104 || c == 0x1108 || c == 0x110a || c == 0x110d || (c >= 0x1113 && c <= 0x113b) || c == 0x113d || c == 0x113f || (c >= 0x1141 && c <= 0x114b) || c == 0x114d || c == 0x114f || (c >= 0x1151 && c <= 0x1153) || (c >= 0x1156 && c <= 0x1158) || c == 0x1162 || c == 0x1164 || c == 0x1166 || c == 0x1168 || (c >= 0x116a && c <= 0x116c) || (c >= 0x116f && c <= 0x1171) || c == 0x1174 || (c >= 0x1176 && c <= 0x119d) || (c >= 0x119f && c <= 0x11a2) || (c >= 0x11a9 && c <= 0x11aa) || (c >= 0x11ac && c <= 0x11ad) || (c >= 0x11b0 && c <= 0x11b6) || c == 0x11b9 || c == 0x11bb || (c >= 0x11c3 && c <= 0x11ea) || (c >= 0x11ec && c <= 0x11ef) || (c >= 0x11f1 && c <= 0x11f8) ; case 0x20: return c == 0x207f; // superscript case 0x21: return // various letterlike symbols c == 0x2102 || c == 0x2107 || (c >= 0x210a && c <= 0x2113) || c == 0x2115 || (c >= 0x2118 && c <= 0x211d) || c == 0x2124 || c == 0x2128 || (c >= 0x212c && c <= 0x212d) || (c >= 0x212f && c <= 0x2138) // most Roman numerals (less 1K, 5K, 10K) || (c >= 0x2160 && c <= 0x217f) ; case 0x30: // some Hiragana return c >= 0x309b && c <= 0x309c; case 0x31: // all Hangul Compatibility Jamo return c >= 0x3131 && c <= 0x318e; case 0xf9: case 0xfa: case 0xfb: case 0xfc: case 0xfd: case 0xfe: case 0xff: // the whole "compatibility" area is for that purpose! return true; default: // most of Unicode isn't flagged as being for compatibility return false; } } // guts of isNameChar/isNCNameChar private static boolean isLetter2(char c) { // [84] Letter ::= BaseChar | Ideographic // [85] BaseChar ::= ... too much to repeat // [86] Ideographic ::= ... too much to repeat // [87] CombiningChar ::= ... too much to repeat // // Optimize the typical case. // if (c >= 'a' && c <= 'z') return true; if (c == '>') return false; if (c >= 'A' && c <= 'Z') return true; // // Since the tables are too ridiculous to use in code, // we're using the footnotes here to drive this test. // switch (Character.getType(c)) { // app. B footnote says these are 'name start' // chars' ... case Character.LOWERCASE_LETTER: // Ll case Character.UPPERCASE_LETTER: // Lu case Character.OTHER_LETTER: // Lo case Character.TITLECASE_LETTER: // Lt case Character.LETTER_NUMBER: // Nl // ... and these are name characters 'other // than name start characters' case Character.COMBINING_SPACING_MARK: // Mc case Character.ENCLOSING_MARK: // Me case Character.NON_SPACING_MARK: // Mn case Character.MODIFIER_LETTER: // Lm case Character.DECIMAL_DIGIT_NUMBER: // Nd // OK, here we just have some exceptions to check... return !isCompatibilityChar(c) // per "5.14 of Unicode", rule out some combiners && !(c >= 0x20dd && c <= 0x20e0); default: // added a character ... return c == 0x0387; } } private static boolean isExtender(char c) { // [89] Extender ::= ... return c == 0x00b7 || c == 0x02d0 || c == 0x02d1 || c == 0x0387 || c == 0x0640 || c == 0x0e46 || c == 0x0ec6 || c == 0x3005 || (c >= 0x3031 && c <= 0x3035) || (c >= 0x309d && c <= 0x309e) || (c >= 0x30fc && c <= 0x30fe) ; } }





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