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/*
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 *
 *   http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 * KIND, either express or implied.  See the License for the
 * specific language governing permissions and limitations
 * under the License.
 */

package freemarker.template.utility;

import static freemarker.template.utility.StringUtil.JsStringEncQuotation.*;

import java.io.IOException;
import java.io.UnsupportedEncodingException;
import java.io.Writer;
import java.util.HashMap;
import java.util.Locale;
import java.util.Map;
import java.util.StringTokenizer;
import java.util.regex.Pattern;

import freemarker.core.Environment;
import freemarker.core.ParseException;
import freemarker.ext.dom._ExtDomApi;
import freemarker.template.Version;

/**
 *  Some text related utilities.
 */
public class StringUtil {
    
    /**
     *  Used to look up if the chars with low code needs to be escaped, but note that it gives bad result for '=', as
     *  there the it matters if it's after '['.
     */
    private static final char[] ESCAPES = createEscapes();
    
    private static final char[] LT = new char[] { '&', 'l', 't', ';' };
    private static final char[] GT = new char[] { '&', 'g', 't', ';' };
    private static final char[] AMP = new char[] { '&', 'a', 'm', 'p', ';' };
    private static final char[] QUOT = new char[] { '&', 'q', 'u', 'o', 't', ';' };
    private static final char[] HTML_APOS = new char[] { '&', '#', '3', '9', ';' };
    private static final char[] XML_APOS = new char[] { '&', 'a', 'p', 'o', 's', ';' };

    /*
     *  For better performance most methods are folded down. Don't you scream... :)
     */

    /**
     *  HTML encoding (does not convert line breaks and apostrophe-quote).
     *  Replaces all '>' '<' '&' and '"' with entity reference, but not "'" (apostrophe-quote).
     *  The last is not escaped as back then when this was written some user agents didn't understood 
     *  "&apos;" nor "&#39;".
     *    
     *  @deprecated Use {@link #XHTMLEnc(String)} instead, because it escapes apostrophe-quote too.
     */
    @Deprecated
    public static String HTMLEnc(String s) {
        return XMLEncNA(s);
    }

    /**
     *  XML Encoding.
     *  Replaces all '>' '<' '&', "'" and '"' with entity reference
     */
    public static String XMLEnc(String s) {
        return XMLOrHTMLEnc(s, true, true, XML_APOS);
    }

    /**
     * Like {@link #XMLEnc(String)}, but writes the result into a {@link Writer}.
     * 
     * @since 2.3.24
     */
    public static void XMLEnc(String s, Writer out) throws IOException {
        XMLOrHTMLEnc(s, XML_APOS, out);
    }
    
    /**
     *  XHTML Encoding.
     *  Replaces all '>' '<' '&', "'" and '"' with entity reference
     *  suitable for XHTML decoding in common user agents (including legacy
     *  user agents, which do not decode "&apos;" to "'", so "&#39;" is used
     *  instead [see http://www.w3.org/TR/xhtml1/#C_16])
     */
    public static String XHTMLEnc(String s) {
        return XMLOrHTMLEnc(s, true, true, HTML_APOS);
    }

    /**
     * Like {@link #XHTMLEnc(String)}, but writes the result into a {@link Writer}.
     * 
     * @since 2.3.24
     */
    public static void XHTMLEnc(String s, Writer out) throws IOException {
        XMLOrHTMLEnc(s, HTML_APOS, out);
    }
    
    private static String XMLOrHTMLEnc(String s, boolean escGT, boolean escQuot, char[] apos) {
        final int ln = s.length();
        
        // First we find out if we need to escape, and if so, what the length of the output will be:
        int firstEscIdx = -1;
        int lastEscIdx = 0;
        int plusOutLn = 0;
        for (int i = 0; i < ln; i++) {
            escape: do {
                final char c = s.charAt(i);
                switch (c) {
                case '<':
                    plusOutLn += LT.length - 1;
                    break;
                case '>':
                    if (!(escGT || maybeCDataEndGT(s, i))) {
                        break escape;
                    }
                    plusOutLn += GT.length - 1;
                    break;
                case '&':
                    plusOutLn += AMP.length - 1;
                    break;
                case '"':
                    if (!escQuot) {
                        break escape;
                    }
                    plusOutLn += QUOT.length - 1;
                    break;
                case '\'': // apos
                    if (apos == null) {
                        break escape;
                    }
                    plusOutLn += apos.length - 1;
                    break;
                default:
                    break escape;
                }
                
                if (firstEscIdx == -1) {
                    firstEscIdx = i;
                }
                lastEscIdx = i;
            } while (false);
        }
        
        if (firstEscIdx == -1) {
            return s; // Nothing to escape
        } else {
            final char[] esced = new char[ln + plusOutLn];
            if (firstEscIdx != 0) {
                s.getChars(0, firstEscIdx, esced, 0);
            }
            int dst = firstEscIdx;
            scan: for (int i = firstEscIdx; i <= lastEscIdx; i++) {
                final char c = s.charAt(i);
                switch (c) {
                case '<':
                    dst = shortArrayCopy(LT, esced, dst);
                    continue scan;
                case '>':
                    if (!(escGT || maybeCDataEndGT(s, i))) {
                        break;
                    }
                    dst = shortArrayCopy(GT, esced, dst);
                    continue scan;
                case '&':
                    dst = shortArrayCopy(AMP, esced, dst);
                    continue scan;
                case '"':
                    if (!escQuot) {
                        break;
                    }
                    dst = shortArrayCopy(QUOT, esced, dst);
                    continue scan;
                case '\'': // apos
                    if (apos == null) {
                        break;
                    }
                    dst = shortArrayCopy(apos, esced, dst);
                    continue scan;
                }
                esced[dst++] = c;
            }
            if (lastEscIdx != ln - 1) {
                s.getChars(lastEscIdx + 1, ln, esced, dst);
            }
            
            return String.valueOf(esced);
        }
    }
    
    private static boolean maybeCDataEndGT(String s, int i) {
        if (i == 0) return true;
        if (s.charAt(i - 1) != ']') return false;
        if (i == 1 || s.charAt(i - 2) == ']') return true;
        return false;
    }

    private static void XMLOrHTMLEnc(String s, char[] apos, Writer out) throws IOException {
        int writtenEnd = 0;  // exclusive end
        int ln = s.length();
        for (int i = 0; i < ln; i++) {
            char c = s.charAt(i);
            if (c == '<' || c == '>' || c == '&' || c == '"' || c == '\'') {
                int flushLn = i - writtenEnd;
                if (flushLn != 0) {
                    out.write(s, writtenEnd, flushLn);
                }
                writtenEnd = i + 1;
                
                switch (c) {
                case '<': out.write(LT); break;
                case '>': out.write(GT); break;
                case '&': out.write(AMP); break;
                case '"': out.write(QUOT); break;
                default: out.write(apos); break;
                }
            }
        }
        if (writtenEnd < ln) {
            out.write(s, writtenEnd, ln - writtenEnd);
        }
    }
    
    /**
     * For efficiently copying very short char arrays.
     */
    private static int shortArrayCopy(char[] src, char[] dst, int dstOffset) {
        int ln = src.length;
        for (int i = 0; i < ln; i++) {
            dst[dstOffset++] = src[i];
        }
        return dstOffset;
    }
    
    /**
     *  XML encoding without replacing apostrophes.
     *  @see #XMLEnc(String)
     */
    public static String XMLEncNA(String s) {
        return XMLOrHTMLEnc(s, true, true, null);
    }

    /**
     *  XML encoding for attribute values quoted with {@code "} (not with {@code '}!).
     *  Also can be used for HTML attributes that are quoted with {@code "}.
     *  @see #XMLEnc(String)
     */
    public static String XMLEncQAttr(String s) {
        return XMLOrHTMLEnc(s, false, true, null);
    }

    /**
     *  XML encoding without replacing apostrophes and quotation marks and
     *  greater-thans (except in {@code ]]>}).
     *  @see #XMLEnc(String)
     */
    public static String XMLEncNQG(String s) {
        return XMLOrHTMLEnc(s, false, false, null);
    }
    
    /**
     *  Rich Text Format encoding (does not replace line breaks).
     *  Escapes all '\' '{' '}'.
     */
    public static String RTFEnc(String s) {
        int ln = s.length();
        
        // First we find out if we need to escape, and if so, what the length of the output will be:
        int firstEscIdx = -1;
        int lastEscIdx = 0;
        int plusOutLn = 0;
        for (int i = 0; i < ln; i++) {
            char c = s.charAt(i);
            if (c == '{' || c == '}' || c == '\\') {
                if (firstEscIdx == -1) {
                    firstEscIdx = i;
                }
                lastEscIdx = i;
                plusOutLn++;
            }
        }
        
        if (firstEscIdx == -1) {
            return s; // Nothing to escape
        } else {
            char[] esced = new char[ln + plusOutLn];
            if (firstEscIdx != 0) {
                s.getChars(0, firstEscIdx, esced, 0);
            }
            int dst = firstEscIdx;
            for (int i = firstEscIdx; i <= lastEscIdx; i++) {
                char c = s.charAt(i);
                if (c == '{' || c == '}' || c == '\\') {
                    esced[dst++] = '\\';
                }
                esced[dst++] = c;
            }
            if (lastEscIdx != ln - 1) {
                s.getChars(lastEscIdx + 1, ln, esced, dst);
            }
            
            return String.valueOf(esced);
        }
    }
    
    /**
     * Like {@link #RTFEnc(String)}, but writes the result into a {@link Writer}.
     * 
     * @since 2.3.24
     */
    public static void RTFEnc(String s, Writer out) throws IOException {
        int writtenEnd = 0;  // exclusive end
        int ln = s.length();
        for (int i = 0; i < ln; i++) {
            char c = s.charAt(i);
            if (c == '{' || c == '}' || c == '\\') {
                int flushLn = i - writtenEnd;
                if (flushLn != 0) {
                    out.write(s, writtenEnd, flushLn);
                }
                out.write('\\');
                writtenEnd = i; // Not i + 1, so c will be written out later
            }
        }
        if (writtenEnd < ln) {
            out.write(s, writtenEnd, ln - writtenEnd);
        }
    }
    

    /**
     * URL encoding (like%20this) for query parameter values, path segments, fragments; this encodes all
     * characters that are reserved anywhere.
     */
    public static String URLEnc(String s, String charset) throws UnsupportedEncodingException {
        return URLEnc(s, charset, false);
    }
    
    /**
     * Like {@link #URLEnc(String, String)} but doesn't escape the slash character ({@code /}).
     * This can be used to encode a path only if you know that no folder or file name will contain {@code /}
     * character (not in the path, but in the name itself), which usually stands, as the commonly used OS-es don't
     * allow that.
     * 
     * @since 2.3.21
     */
    public static String URLPathEnc(String s, String charset) throws UnsupportedEncodingException {
        return URLEnc(s, charset, true);
    }
    
    private static String URLEnc(String s, String charset, boolean keepSlash)
            throws UnsupportedEncodingException {
        int ln = s.length();
        int i;
        for (i = 0; i < ln; i++) {
            char c = s.charAt(i);
            if (!safeInURL(c, keepSlash)) {
                break;
            }
        }
        if (i == ln) {
            // Nothing to escape
            return s;
        }

        StringBuilder b = new StringBuilder(ln + ln / 3 + 2);
        b.append(s.substring(0, i));

        int encStart = i;
        for (i++; i < ln; i++) {
            char c = s.charAt(i);
            if (safeInURL(c, keepSlash)) {
                if (encStart != -1) {
                    byte[] o = s.substring(encStart, i).getBytes(charset);
                    for (int j = 0; j < o.length; j++) {
                        b.append('%');
                        byte bc = o[j];
                        int c1 = bc & 0x0F;
                        int c2 = (bc >> 4) & 0x0F;
                        b.append((char) (c2 < 10 ? c2 + '0' : c2 - 10 + 'A'));
                        b.append((char) (c1 < 10 ? c1 + '0' : c1 - 10 + 'A'));
                    }
                    encStart = -1;
                }
                b.append(c);
            } else {
                if (encStart == -1) {
                    encStart = i;
                }
            }
        }
        if (encStart != -1) {
            byte[] o = s.substring(encStart, i).getBytes(charset);
            for (int j = 0; j < o.length; j++) {
                b.append('%');
                byte bc = o[j];
                int c1 = bc & 0x0F;
                int c2 = (bc >> 4) & 0x0F;
                b.append((char) (c2 < 10 ? c2 + '0' : c2 - 10 + 'A'));
                b.append((char) (c1 < 10 ? c1 + '0' : c1 - 10 + 'A'));
            }
        }
        
        return b.toString();
    }

    private static boolean safeInURL(char c, boolean keepSlash) {
        return c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z'
                || c >= '0' && c <= '9'
                || c == '_' || c == '-' || c == '.' || c == '!' || c == '~'
                || c >= '\'' && c <= '*'
                || keepSlash && c == '/';
    }
    
    private static char[] createEscapes() {
        char[] escapes = new char['\\' + 1];
        for (int i = 0; i < 32; ++i) {
            escapes[i] = 1;
        }
        escapes['\\'] = '\\';
        escapes['\''] = '\'';
        escapes['"'] = '"';
        escapes['<'] = 'l';
        // As '=' is only escaped if it's after '[', we can't handle it here
        escapes['>'] = 'g';
        escapes['&'] = 'a';
        escapes['\b'] = 'b';
        escapes['\t'] = 't';
        escapes['\n'] = 'n';
        escapes['\f'] = 'f';
        escapes['\r'] = 'r';
        return escapes;
    }

    /**
     * Escapes a string according the FTL string literal escaping rules, assuming the literal is quoted with
     * {@code quotation}; it doesn't add the quotation marks itself.
     * 
     * @param quotation
     *            Either {@code '"'} or {@code '\''}. It's assumed that the string literal whose part we calculate is
     *            enclosed within this kind of quotation mark. Thus, the other kind of quotation character will not be
     *            escaped in the result.
     *
     * @since 2.3.22
     */
    public static String FTLStringLiteralEnc(String s, char quotation) {
        return FTLStringLiteralEnc(s, quotation, false);
    }
    
    /**
     * Escapes a string according the FTL string literal escaping rules; it doesn't add the quotation marks. As this
     * method doesn't know if the string literal is quoted with reuglar quotation marks or apostrophe quute, it will
     * escape both.
     * 
     * @see #FTLStringLiteralEnc(String, char)
     */
    public static String FTLStringLiteralEnc(String s) {
        return FTLStringLiteralEnc(s, (char) 0, false);
    }

    private static String FTLStringLiteralEnc(String s, char quotation, boolean addQuotation) {
        final int ln = s.length();
        
        final char otherQuotation;
        if (quotation == 0) {
            otherQuotation = 0;
        } else if (quotation == '"') {
            otherQuotation = '\'';
        } else if (quotation == '\'') {
            otherQuotation = '"';
        } else {
            throw new IllegalArgumentException("Unsupported quotation character: " + quotation);
        }
        
        final int escLn = ESCAPES.length;
        StringBuilder buf = null;
        for (int i = 0; i < ln; i++) {
            char c = s.charAt(i);
            char escape;
            if (c == '=') {
                escape = i > 0 && s.charAt(i - 1) == '[' ? '=' : 0;
            } else if (c < escLn) {
                escape = ESCAPES[c]; //
            } else if (c == '{' && i > 0 && isInterpolationStart(s.charAt(i - 1))) {
                escape = '{';
            } else {
                escape = 0;
            }
            if (escape == 0 || escape == otherQuotation) {
                if (buf != null) {
                    buf.append(c);
                }
            } else {
                if (buf == null) {
                    buf = new StringBuilder(s.length() + 4 + (addQuotation ? 2 : 0));
                    if (addQuotation) {
                        buf.append(quotation);
                    }
                    buf.append(s.substring(0, i));
                }
                if (escape == 1) {
                    // hex encoding for characters below 0x20
                    // that have no other escape representation
                    buf.append("\\x00");
                    int c2 = (c >> 4) & 0x0F;
                    c = (char) (c & 0x0F);
                    buf.append((char) (c2 < 10 ? c2 + '0' : c2 - 10 + 'A'));
                    buf.append((char) (c < 10 ? c + '0' : c - 10 + 'A'));
                } else {
                    buf.append('\\');
                    buf.append(escape);
                }
            }
        }
        
        if (buf == null) {
            return addQuotation ? quotation + s + quotation : s;
        } else {
            if (addQuotation) {
                buf.append(quotation);
            }
            return buf.toString();
        }
    }

    private static boolean isInterpolationStart(char c) {
        return c == '$' || c == '#';
    }

    /**
     * FTL string literal decoding.
     *
     * \\, \", \', \n, \t, \r, \b and \f will be replaced according to
     * Java rules. In additional, it knows \g, \l, \a and \{ which are
     * replaced with <, >, & and { respectively.
     * \x works as hexadecimal character code escape. The character
     * codes are interpreted according to UCS basic plane (Unicode).
     * "f\x006Fo", "f\x06Fo" and "f\x6Fo" will be "foo".
     * "f\x006F123" will be "foo123" as the maximum number of digits is 4.
     *
     * All other \X (where X is any character not mentioned above or End-of-string)
     * will cause a ParseException.
     *
     * @param s String literal without the surrounding quotation marks
     * @return String with all escape sequences resolved
     * @throws ParseException if there string contains illegal escapes
     */
    public static String FTLStringLiteralDec(String s) throws ParseException {

        int idx = s.indexOf('\\');
        if (idx == -1) {
            return s;
        }

        int lidx = s.length() - 1;
        int bidx = 0;
        StringBuilder buf = new StringBuilder(lidx);
        do {
            buf.append(s.substring(bidx, idx));
            if (idx >= lidx) {
                throw new ParseException("The last character of string literal is backslash", 0,0);
            }
            char c = s.charAt(idx + 1);
            switch (c) {
                case '"':
                    buf.append('"');
                    bidx = idx + 2;
                    break;
                case '\'':
                    buf.append('\'');
                    bidx = idx + 2;
                    break;
                case '\\':
                    buf.append('\\');
                    bidx = idx + 2;
                    break;
                case 'n':
                    buf.append('\n');
                    bidx = idx + 2;
                    break;
                case 'r':
                    buf.append('\r');
                    bidx = idx + 2;
                    break;
                case 't':
                    buf.append('\t');
                    bidx = idx + 2;
                    break;
                case 'f':
                    buf.append('\f');
                    bidx = idx + 2;
                    break;
                case 'b':
                    buf.append('\b');
                    bidx = idx + 2;
                    break;
                case 'g':
                    buf.append('>');
                    bidx = idx + 2;
                    break;
                case 'l':
                    buf.append('<');
                    bidx = idx + 2;
                    break;
                case 'a':
                    buf.append('&');
                    bidx = idx + 2;
                    break;
                case '{':
                case '=':
                    buf.append(c);
                    bidx = idx + 2;
                    break;
                case 'x': {
                    idx += 2;
                    int x = idx;
                    int y = 0;
                    int z = lidx > idx + 3 ? idx + 3 : lidx;
                    while (idx <= z) {
                        char b = s.charAt(idx);
                        if (b >= '0' && b <= '9') {
                            y <<= 4;
                            y += b - '0';
                        } else if (b >= 'a' && b <= 'f') {
                            y <<= 4;
                            y += b - 'a' + 10;
                        } else if (b >= 'A' && b <= 'F') {
                            y <<= 4;
                            y += b - 'A' + 10;
                        } else {
                            break;
                        }
                        idx++;
                    }
                    if (x < idx) {
                        buf.append((char) y);
                    } else {
                        throw new ParseException("Invalid \\x escape in a string literal",0,0);
                    }
                    bidx = idx;
                    break;
                }
                default:
                    throw new ParseException("Invalid escape sequence (\\" + c + ") in a string literal",0,0);
            }
            idx = s.indexOf('\\', bidx);
        } while (idx != -1);
        buf.append(s.substring(bidx));

        return buf.toString();
    }

    public static Locale deduceLocale(String input) {
       if (input == null) return null;
       Locale locale = Locale.getDefault();
       if (input.length() > 0 && input.charAt(0) == '"') input = input.substring(1, input.length() - 1);
       StringTokenizer st = new StringTokenizer(input, ",_ ");
       String lang = "", country = "";
       if (st.hasMoreTokens()) {
          lang = st.nextToken();
       }
       if (st.hasMoreTokens()) {
          country = st.nextToken();
       }
       if (!st.hasMoreTokens()) {
          locale = new Locale(lang, country);
       } else {
          locale = new Locale(lang, country, st.nextToken());
       }
       return locale;
    }

    public static String capitalize(String s) {
        StringTokenizer st = new StringTokenizer(s, " \t\r\n", true);
        StringBuilder buf = new StringBuilder(s.length());
        while (st.hasMoreTokens()) {
            String tok = st.nextToken();
            buf.append(tok.substring(0, 1).toUpperCase());
            buf.append(tok.substring(1).toLowerCase());
        }
        return buf.toString();
    }

    public static boolean getYesNo(String s) {
        if (s.startsWith("\"")) {
            s = s.substring(1, s.length() - 1);

        }
        if (s.equalsIgnoreCase("n")
                || s.equalsIgnoreCase("no")
                || s.equalsIgnoreCase("f")
                || s.equalsIgnoreCase("false")) {
            return false;
        } else if (s.equalsIgnoreCase("y")
                || s.equalsIgnoreCase("yes")
                || s.equalsIgnoreCase("t")
                || s.equalsIgnoreCase("true")) {
            return true;
        }
        throw new IllegalArgumentException("Illegal boolean value: " + s);
    }

    /**
     * Splits a string at the specified character.
     */
    public static String[] split(String s, char c) {
        int i, b, e;
        int cnt;
        String res[];
        int ln = s.length();

        i = 0;
        cnt = 1;
        while ((i = s.indexOf(c, i)) != -1) {
            cnt++;
            i++;
        }
        res = new String[cnt];

        i = 0;
        b = 0;
        while (b <= ln) {
            e = s.indexOf(c, b);
            if (e == -1) e = ln;
            res[i++] = s.substring(b, e);
            b = e + 1;
        }
        return res;
    }

    /**
     * Splits a string at the specified string.
     * 
     * @param sep
     *            The string that separates the items of the resulting array. Since 2.3.28, if this is 0 length, then
     *            each character will be a separate item in the array.
     */
    public static String[] split(String s, String sep, boolean caseInsensitive) {
        int sepLn = sep.length();

        String convertedS = caseInsensitive ? s.toLowerCase() : s;
        int sLn = s.length();
        
        if (sepLn == 0) {
            String[] res = new String[sLn];
            for (int i = 0; i < sLn; i++) {
                res[i] = String.valueOf(s.charAt(i));
            }
            return res;
        }

        String splitString = caseInsensitive ? sep.toLowerCase() : sep;
        String res[];
        
        {
            int next = 0;
            int count = 1;
            while ((next = convertedS.indexOf(splitString, next)) != -1) {
                count++;
                next += sepLn;
            }
            res = new String[count];
        }

        int dst = 0;
        int next = 0;
        while (next <= sLn) {
            int end = convertedS.indexOf(splitString, next);
            if (end == -1) end = sLn;
            res[dst++] = s.substring(next, end);
            next = end + sepLn;
        }
        return res;
    }

    /**
     * Same as {@link #replace(String, String, String, boolean, boolean)} with two {@code false} parameters. 
     * @since 2.3.20
     */
    public static String replace(String text, String oldSub, String newSub) {
        return replace(text, oldSub, newSub, false, false);
    }
    
    /**
     * Replaces all occurrences of a sub-string in a string.
     * @param text The string where it will replace oldsub with
     *     newsub.
     * @return String The string after the replacements.
     */
    public static String replace(String text, 
                                  String oldsub, 
                                  String newsub, 
                                  boolean caseInsensitive,
                                  boolean firstOnly) {
        StringBuilder buf;
        int tln;
        int oln = oldsub.length();
        
        if (oln == 0) {
            int nln = newsub.length();
            if (nln == 0) {
                return text;
            } else {
                if (firstOnly) {
                    return newsub + text;
                } else {
                    tln = text.length();
                    buf = new StringBuilder(tln + (tln + 1) * nln);
                    buf.append(newsub);
                    for (int i = 0; i < tln; i++) {
                        buf.append(text.charAt(i));
                        buf.append(newsub);
                    }
                    return buf.toString();
                }
            }
        } else {
            oldsub = caseInsensitive ? oldsub.toLowerCase() : oldsub;
            String input = caseInsensitive ? text.toLowerCase() : text;
            int e = input.indexOf(oldsub);
            if (e == -1) {
                return text;
            }
            int b = 0;
            tln = text.length();
            buf = new StringBuilder(
                    tln + Math.max(newsub.length() - oln, 0) * 3);
            do {
                buf.append(text.substring(b, e));
                buf.append(newsub);
                b = e + oln;
                e = input.indexOf(oldsub, b);
            } while (e != -1 && !firstOnly);
            buf.append(text.substring(b));
            return buf.toString();
        }
    }

    /**
     * Removes a line-break from the end of the string (if there's any).
     */
    public static String chomp(String s) {
        if (s.endsWith("\r\n")) return s.substring(0, s.length() - 2);
        if (s.endsWith("\r") || s.endsWith("\n"))
                return s.substring(0, s.length() - 1);
        return s;
    }

    /**
     * Converts a 0-length string to null, leaves the string as is otherwise.
     * @param s maybe {@code null}.
     */
    public static String emptyToNull(String s) {
    	if (s == null) return null;
    	return s.length() == 0 ? null : s;
    }
    
    /**
     * Converts the parameter with toString (if it's not null) and passes it to
     * {@link #jQuote(String)}.
     */
    public static String jQuote(Object obj) {
        return jQuote(obj != null ? obj.toString() : null);
    }
    
    /**
     * Quotes string as Java Language string literal.
     * Returns string "null" if s
     * is null.
     */
    public static String jQuote(String s) {
        if (s == null) {
            return "null";
        }
        return javaStringEnc(s, true);
    }

    /**
     * Converts the parameter with toString (if not
     * null)and passes it to {@link #jQuoteNoXSS(String)}. 
     */
    public static String jQuoteNoXSS(Object obj) {
        return jQuoteNoXSS(obj != null ? obj.toString() : null);
    }
    
    /**
     * Same as {@link #jQuoteNoXSS(String)} but also escapes '<'
     * as \u003C. This is used for log messages to prevent XSS
     * on poorly written Web-based log viewers. 
     */
    public static String jQuoteNoXSS(String s) {
        if (s == null) {
            return "null";
        }
        int ln = s.length();
        StringBuilder b = new StringBuilder(ln + 6);
        b.append('"');
        for (int i = 0; i < ln; i++) {
            char c = s.charAt(i);
            if (c == '"') {
                b.append("\\\"");
            } else if (c == '\\') {
                b.append("\\\\");
            } else if (c == '<') {
                b.append("\\u003C");
            } else if (c < 0x20) {
                if (c == '\n') {
                    b.append("\\n");
                } else if (c == '\r') {
                    b.append("\\r");
                } else if (c == '\f') {
                    b.append("\\f");
                } else if (c == '\b') {
                    b.append("\\b");
                } else if (c == '\t') {
                    b.append("\\t");
                } else {
                    b.append("\\u00");
                    b.append(toHexDigitLowerCase(c / 0x10));
                    b.append(toHexDigitLowerCase(c & 0xF));
                }
            } else {
                b.append(c);
            }
        } // for each character
        b.append('"');
        return b.toString();
    }
    
    /**
     * Creates a quoted FTL string literal from a string, using escaping where necessary. The result either
     * uses regular quotation marks (UCS 0x22) or apostrophe-quotes (UCS 0x27), depending on the string content.
     * (Currently, apostrophe-quotes will be chosen exactly when the string contains regular quotation character and
     * doesn't contain apostrophe-quote character.)
     *
     * @param s
     *            The value that should be converted to an FTL string literal whose evaluated value equals to {@code s}
     *
     * @since 2.3.22
     */
    public static String ftlQuote(String s) {
        char quotation;
        if (s.indexOf('"') != -1 && s.indexOf('\'') == -1) {
            quotation = '\'';
        } else {
            quotation = '\"';
        }
        return FTLStringLiteralEnc(s, quotation, true);
    }
    
    /**
     * Tells if a character can occur on the beginning of an FTL identifier expression (without escaping). 
     * 
     * @since 2.3.22
     */
    public static boolean isFTLIdentifierStart(final char c) {
        // This code was generated on JDK 1.8.0_20 Win64 with src/main/misc/identifierChars/IdentifierCharGenerator.java
        if (c < 0xAA) { // This branch was edited for speed.
            if (c >= 'a' && c <= 'z' || c >= '@' && c <= 'Z') {
                return true;
            } else {
                return c == '$' || c == '_'; 
            }
        } else { // c >= 0xAA
            if (c < 0xA7F8) {
                if (c < 0x2D6F) {
                    if (c < 0x2128) {
                        if (c < 0x2090) {
                            if (c < 0xD8) {
                                if (c < 0xBA) {
                                    return c == 0xAA || c == 0xB5;
                                } else { // c >= 0xBA
                                    return c == 0xBA || c >= 0xC0 && c <= 0xD6;
                                }
                            } else { // c >= 0xD8
                                if (c < 0x2071) {
                                    return c >= 0xD8 && c <= 0xF6 || c >= 0xF8 && c <= 0x1FFF;
                                } else { // c >= 0x2071
                                    return c == 0x2071 || c == 0x207F;
                                }
                            }
                        } else { // c >= 0x2090
                            if (c < 0x2115) {
                                if (c < 0x2107) {
                                    return c >= 0x2090 && c <= 0x209C || c == 0x2102;
                                } else { // c >= 0x2107
                                    return c == 0x2107 || c >= 0x210A && c <= 0x2113;
                                }
                            } else { // c >= 0x2115
                                if (c < 0x2124) {
                                    return c == 0x2115 || c >= 0x2119 && c <= 0x211D;
                                } else { // c >= 0x2124
                                    return c == 0x2124 || c == 0x2126;
                                }
                            }
                        }
                    } else { // c >= 0x2128
                        if (c < 0x2C30) {
                            if (c < 0x2145) {
                                if (c < 0x212F) {
                                    return c == 0x2128 || c >= 0x212A && c <= 0x212D;
                                } else { // c >= 0x212F
                                    return c >= 0x212F && c <= 0x2139 || c >= 0x213C && c <= 0x213F;
                                }
                            } else { // c >= 0x2145
                                if (c < 0x2183) {
                                    return c >= 0x2145 && c <= 0x2149 || c == 0x214E;
                                } else { // c >= 0x2183
                                    return c >= 0x2183 && c <= 0x2184 || c >= 0x2C00 && c <= 0x2C2E;
                                }
                            }
                        } else { // c >= 0x2C30
                            if (c < 0x2D00) {
                                if (c < 0x2CEB) {
                                    return c >= 0x2C30 && c <= 0x2C5E || c >= 0x2C60 && c <= 0x2CE4;
                                } else { // c >= 0x2CEB
                                    return c >= 0x2CEB && c <= 0x2CEE || c >= 0x2CF2 && c <= 0x2CF3;
                                }
                            } else { // c >= 0x2D00
                                if (c < 0x2D2D) {
                                    return c >= 0x2D00 && c <= 0x2D25 || c == 0x2D27;
                                } else { // c >= 0x2D2D
                                    return c == 0x2D2D || c >= 0x2D30 && c <= 0x2D67;
                                }
                            }
                        }
                    }
                } else { // c >= 0x2D6F
                    if (c < 0x31F0) {
                        if (c < 0x2DD0) {
                            if (c < 0x2DB0) {
                                if (c < 0x2DA0) {
                                    return c == 0x2D6F || c >= 0x2D80 && c <= 0x2D96;
                                } else { // c >= 0x2DA0
                                    return c >= 0x2DA0 && c <= 0x2DA6 || c >= 0x2DA8 && c <= 0x2DAE;
                                }
                            } else { // c >= 0x2DB0
                                if (c < 0x2DC0) {
                                    return c >= 0x2DB0 && c <= 0x2DB6 || c >= 0x2DB8 && c <= 0x2DBE;
                                } else { // c >= 0x2DC0
                                    return c >= 0x2DC0 && c <= 0x2DC6 || c >= 0x2DC8 && c <= 0x2DCE;
                                }
                            }
                        } else { // c >= 0x2DD0
                            if (c < 0x3031) {
                                if (c < 0x2E2F) {
                                    return c >= 0x2DD0 && c <= 0x2DD6 || c >= 0x2DD8 && c <= 0x2DDE;
                                } else { // c >= 0x2E2F
                                    return c == 0x2E2F || c >= 0x3005 && c <= 0x3006;
                                }
                            } else { // c >= 0x3031
                                if (c < 0x3040) {
                                    return c >= 0x3031 && c <= 0x3035 || c >= 0x303B && c <= 0x303C;
                                } else { // c >= 0x3040
                                    return c >= 0x3040 && c <= 0x318F || c >= 0x31A0 && c <= 0x31BA;
                                }
                            }
                        }
                    } else { // c >= 0x31F0
                        if (c < 0xA67F) {
                            if (c < 0xA4D0) {
                                if (c < 0x3400) {
                                    return c >= 0x31F0 && c <= 0x31FF || c >= 0x3300 && c <= 0x337F;
                                } else { // c >= 0x3400
                                    return c >= 0x3400 && c <= 0x4DB5 || c >= 0x4E00 && c <= 0xA48C;
                                }
                            } else { // c >= 0xA4D0
                                if (c < 0xA610) {
                                    return c >= 0xA4D0 && c <= 0xA4FD || c >= 0xA500 && c <= 0xA60C;
                                } else { // c >= 0xA610
                                    return c >= 0xA610 && c <= 0xA62B || c >= 0xA640 && c <= 0xA66E;
                                }
                            }
                        } else { // c >= 0xA67F
                            if (c < 0xA78B) {
                                if (c < 0xA717) {
                                    return c >= 0xA67F && c <= 0xA697 || c >= 0xA6A0 && c <= 0xA6E5;
                                } else { // c >= 0xA717
                                    return c >= 0xA717 && c <= 0xA71F || c >= 0xA722 && c <= 0xA788;
                                }
                            } else { // c >= 0xA78B
                                if (c < 0xA7A0) {
                                    return c >= 0xA78B && c <= 0xA78E || c >= 0xA790 && c <= 0xA793;
                                } else { // c >= 0xA7A0
                                    return c >= 0xA7A0 && c <= 0xA7AA;
                                }
                            }
                        }
                    }
                }
            } else { // c >= 0xA7F8
                if (c < 0xAB20) {
                    if (c < 0xAA44) {
                        if (c < 0xA8FB) {
                            if (c < 0xA840) {
                                if (c < 0xA807) {
                                    return c >= 0xA7F8 && c <= 0xA801 || c >= 0xA803 && c <= 0xA805;
                                } else { // c >= 0xA807
                                    return c >= 0xA807 && c <= 0xA80A || c >= 0xA80C && c <= 0xA822;
                                }
                            } else { // c >= 0xA840
                                if (c < 0xA8D0) {
                                    return c >= 0xA840 && c <= 0xA873 || c >= 0xA882 && c <= 0xA8B3;
                                } else { // c >= 0xA8D0
                                    return c >= 0xA8D0 && c <= 0xA8D9 || c >= 0xA8F2 && c <= 0xA8F7;
                                }
                            }
                        } else { // c >= 0xA8FB
                            if (c < 0xA984) {
                                if (c < 0xA930) {
                                    return c == 0xA8FB || c >= 0xA900 && c <= 0xA925;
                                } else { // c >= 0xA930
                                    return c >= 0xA930 && c <= 0xA946 || c >= 0xA960 && c <= 0xA97C;
                                }
                            } else { // c >= 0xA984
                                if (c < 0xAA00) {
                                    return c >= 0xA984 && c <= 0xA9B2 || c >= 0xA9CF && c <= 0xA9D9;
                                } else { // c >= 0xAA00
                                    return c >= 0xAA00 && c <= 0xAA28 || c >= 0xAA40 && c <= 0xAA42;
                                }
                            }
                        }
                    } else { // c >= 0xAA44
                        if (c < 0xAAC0) {
                            if (c < 0xAA80) {
                                if (c < 0xAA60) {
                                    return c >= 0xAA44 && c <= 0xAA4B || c >= 0xAA50 && c <= 0xAA59;
                                } else { // c >= 0xAA60
                                    return c >= 0xAA60 && c <= 0xAA76 || c == 0xAA7A;
                                }
                            } else { // c >= 0xAA80
                                if (c < 0xAAB5) {
                                    return c >= 0xAA80 && c <= 0xAAAF || c == 0xAAB1;
                                } else { // c >= 0xAAB5
                                    return c >= 0xAAB5 && c <= 0xAAB6 || c >= 0xAAB9 && c <= 0xAABD;
                                }
                            }
                        } else { // c >= 0xAAC0
                            if (c < 0xAAF2) {
                                if (c < 0xAADB) {
                                    return c == 0xAAC0 || c == 0xAAC2;
                                } else { // c >= 0xAADB
                                    return c >= 0xAADB && c <= 0xAADD || c >= 0xAAE0 && c <= 0xAAEA;
                                }
                            } else { // c >= 0xAAF2
                                if (c < 0xAB09) {
                                    return c >= 0xAAF2 && c <= 0xAAF4 || c >= 0xAB01 && c <= 0xAB06;
                                } else { // c >= 0xAB09
                                    return c >= 0xAB09 && c <= 0xAB0E || c >= 0xAB11 && c <= 0xAB16;
                                }
                            }
                        }
                    }
                } else { // c >= 0xAB20
                    if (c < 0xFB46) {
                        if (c < 0xFB13) {
                            if (c < 0xAC00) {
                                if (c < 0xABC0) {
                                    return c >= 0xAB20 && c <= 0xAB26 || c >= 0xAB28 && c <= 0xAB2E;
                                } else { // c >= 0xABC0
                                    return c >= 0xABC0 && c <= 0xABE2 || c >= 0xABF0 && c <= 0xABF9;
                                }
                            } else { // c >= 0xAC00
                                if (c < 0xD7CB) {
                                    return c >= 0xAC00 && c <= 0xD7A3 || c >= 0xD7B0 && c <= 0xD7C6;
                                } else { // c >= 0xD7CB
                                    return c >= 0xD7CB && c <= 0xD7FB || c >= 0xF900 && c <= 0xFB06;
                                }
                            }
                        } else { // c >= 0xFB13
                            if (c < 0xFB38) {
                                if (c < 0xFB1F) {
                                    return c >= 0xFB13 && c <= 0xFB17 || c == 0xFB1D;
                                } else { // c >= 0xFB1F
                                    return c >= 0xFB1F && c <= 0xFB28 || c >= 0xFB2A && c <= 0xFB36;
                                }
                            } else { // c >= 0xFB38
                                if (c < 0xFB40) {
                                    return c >= 0xFB38 && c <= 0xFB3C || c == 0xFB3E;
                                } else { // c >= 0xFB40
                                    return c >= 0xFB40 && c <= 0xFB41 || c >= 0xFB43 && c <= 0xFB44;
                                }
                            }
                        }
                    } else { // c >= 0xFB46
                        if (c < 0xFF21) {
                            if (c < 0xFDF0) {
                                if (c < 0xFD50) {
                                    return c >= 0xFB46 && c <= 0xFBB1 || c >= 0xFBD3 && c <= 0xFD3D;
                                } else { // c >= 0xFD50
                                    return c >= 0xFD50 && c <= 0xFD8F || c >= 0xFD92 && c <= 0xFDC7;
                                }
                            } else { // c >= 0xFDF0
                                if (c < 0xFE76) {
                                    return c >= 0xFDF0 && c <= 0xFDFB || c >= 0xFE70 && c <= 0xFE74;
                                } else { // c >= 0xFE76
                                    return c >= 0xFE76 && c <= 0xFEFC || c >= 0xFF10 && c <= 0xFF19;
                                }
                            }
                        } else { // c >= 0xFF21
                            if (c < 0xFFCA) {
                                if (c < 0xFF66) {
                                    return c >= 0xFF21 && c <= 0xFF3A || c >= 0xFF41 && c <= 0xFF5A;
                                } else { // c >= 0xFF66
                                    return c >= 0xFF66 && c <= 0xFFBE || c >= 0xFFC2 && c <= 0xFFC7;
                                }
                            } else { // c >= 0xFFCA
                                if (c < 0xFFDA) {
                                    return c >= 0xFFCA && c <= 0xFFCF || c >= 0xFFD2 && c <= 0xFFD7;
                                } else { // c >= 0xFFDA
                                    return c >= 0xFFDA && c <= 0xFFDC;
                                }
                            }
                        }
                    }
                }
            }
        }
    }

    /**
     * Tells if a character can occur in an FTL identifier expression (without escaping) as other than the first
     * character. 
     * 
     * @since 2.3.22
     */
    public static boolean isFTLIdentifierPart(final char c) {
        return isFTLIdentifierStart(c) || (c >= '0' && c <= '9');  
    }

    /**
     * Tells if a character can occur in an FTL identifier if it's preceded with a backslash. For example, {@code "-"}
     * is a such character (as you can have an identifier like {@code foo\-bar} in FTL), but {@code "f"} is not, as
     * it needn't be, and can't be escaped.
     *
     * @since 2.3.31
     */
    public static boolean isBackslashEscapedFTLIdentifierCharacter(final char c) {
        return c == '-' || c == '.' || c == ':' || c ==  '#';
    }

    /**
     * Escapes the {@code String} with the escaping rules of Java language
     * string literals, so it's safe to insert the value into a string literal.
     * The resulting string will not be quoted.
     *
     * See more details at {@link #javaStringEnc(String, boolean)}, as this just calls that with {@code false} as the
     * 2nd argument.
     */
    public static String javaStringEnc(String s) {
        return javaStringEnc(s, false);
    }

    /**
     * Escapes the {@code String} with the escaping rules of Java language string literals, and then if {@code quote} is
     * true, it also adds quotation marks before and after it.
     *
     * 

All characters under UCS code point 0x20 will be escaped. * Where they have no dedicated escape sequence in Java, they will * be replaced with hexadecimal escape ({@code \}uXXXX). * * @see #jQuote(String) */ public static String javaStringEnc(String s, boolean quote) { int ln = s.length(); for (int i = 0; i < ln; i++) { char c = s.charAt(i); if (c == '"' || c == '\\' || c < 0x20) { StringBuilder b = new StringBuilder(ln + (quote ? 6 : 4)); if (quote) { b.append("\""); } b.append(s, 0, i); while (true) { if (c == '"') { b.append("\\\""); } else if (c == '\\') { b.append("\\\\"); } else if (c < 0x20) { if (c == '\n') { b.append("\\n"); } else if (c == '\r') { b.append("\\r"); } else if (c == '\f') { b.append("\\f"); } else if (c == '\b') { b.append("\\b"); } else if (c == '\t') { b.append("\\t"); } else { b.append("\\u00"); b.append(toHexDigitLowerCase(c / 0x10)); b.append(toHexDigitLowerCase(c & 0xF)); } } else { b.append(c); } i++; if (i >= ln) { if (quote) { b.append("\""); } return b.toString(); } c = s.charAt(i); } } // if has to be escaped } // for each character return quote ? '"' + s + '"' : s; } /** * Escapes a {@link String} to be safely insertable into a JavaScript string literal; for more see * {@link #jsStringEnc(String, JsStringEncCompatibility, JsStringEncQuotation) * jsStringEnc(s, JsStringEncCompatibility.JAVA_SCRIPT, null)}. */ public static String javaScriptStringEnc(String s) { return jsStringEnc(s, JsStringEncCompatibility.JAVA_SCRIPT); } /** * Escapes a {@link String} to be safely insertable into a JSON string literal; for more see * {@link #jsStringEnc(String, JsStringEncCompatibility, JsStringEncQuotation) * jsStringEnc(s, JsStringEncCompatibility.JSON, null)}. */ public static String jsonStringEnc(String s) { return jsStringEnc(s, JsStringEncCompatibility.JSON); } private static final int NO_ESC = 0; private static final int ESC_HEXA = 1; private static final int ESC_BACKSLASH = 3; /** * Escapes a {@link String} to be safely insertable into a JSON or JavaScript string literal; for more see * {@link #jsStringEnc(String, JsStringEncCompatibility, JsStringEncQuotation) * jsStringEnc(s, json ? JsStringEncCompatibility.JSON : JsStringEncCompatibility.JAVA_SCRIPT, null)}. * * @since 2.3.20 * @deprecated Use {@link #jsStringEnc(String, JsStringEncCompatibility)} instead. */ @Deprecated public static String jsStringEnc(String s, boolean json) { return jsStringEnc(s, json ? JsStringEncCompatibility.JSON : JsStringEncCompatibility.JAVA_SCRIPT, null); } /** * Escapes a {@link String} to be safely insertable into a JSON or JavaScript string literal; for more see * {@link #jsStringEnc(String, JsStringEncCompatibility, JsStringEncQuotation) jsStringEnc(s, compatibility, null)}. * * @since 2.3.32 */ public static String jsStringEnc(String s, JsStringEncCompatibility compatibility) { return jsStringEnc(s, compatibility, null); } /** * Escapes a {@link String} to be safely insertable into a JavaScript or a JSON string literal, and if the 3rd * argument is {@code true}, also adds quotation marks around it. * If instead the caller ensures that the quotation marks are there, then in JSON mode (2nd argument), the quotation * marks must be {@code "}, not {@code '}, because for JSON we won't escape {@code '}. * *

The escaping rules guarantee that if the inside of the JavaScript/JSON string literal is from one or more * touching pieces that were escaped with this, no character sequence can occur that closes the * JavaScript/JSON string literal, or has a meaning in HTML/XML that causes the HTML script section to be closed. * (If, however, the escaped section is preceded by or followed by strings from other sources, this can't be * guaranteed in some rare cases. Like x = "</${a?js_string}" might closes the "script" * element if {@code a} is {@code "script>"}.) * * The escaped characters are: * *

* * * * * * * * * * *
Characters escaped by jsStringEnc
Input * Output *
{@code "} * {@code \"} *
{@code '} if not in JSON-mode, nor is the {@code quited} argument {@code true} * {@code \'} *
{@code \} * {@code \\} *
{@code /} if the method can't know that it won't be directly after < * {@code \/} *
> if the method can't know that it won't be directly after {@code ]]} or {@code --} * JavaScript: \>; JSON: {@code \}{@code u003E} *
< if the method can't know that it won't be directly followed by {@code !} or {@code ?} * \{@code u}003C *
* u0000-u001f (UNICODE control characters - disallowed by JSON)
* u007f-u009f (UNICODE control characters - disallowed by JSON) *
{@code \n}, {@code \r} and such, or if there's no such dedicated escape: * JavaScript: \xXX, JSON: \{@code u}XXXX *
* u2028 (Line separator - source code line-break in ECMAScript)
* u2029 (Paragraph separator - source code line-break in ECMAScript)
*
\{@code u}XXXX *
* * @param s The string to escape * @param compatibility If escaping should restrict itself to rules that are valid in JSON, in JavaScript, or in both. * @param quotation In not {@code null}, quotation marks of this type are added around the value. * * @since 2.3.32 */ public static String jsStringEnc(String s, JsStringEncCompatibility compatibility, JsStringEncQuotation quotation) { NullArgumentException.check("s", s); int ln = s.length(); StringBuilder sb; if (quotation == null) { sb = null; } else { if (quotation == APOSTROPHE && compatibility.jsonCompatible) { throw new IllegalArgumentException("JSON compatible mode doesn't allow quotationMode=" + quotation); } sb = new StringBuilder(ln + 8); sb.append(quotation.getSymbol()); } for (int i = 0; i < ln; i++) { final char c = s.charAt(i); final int escapeType; // if (!(c > '>' && c < 0x7F && c != '\\') && c != ' ' && !(c >= 0xA0 && c < 0x2028)) { // skip common chars if (c <= 0x1F) { // control chars range 1 if (c == '\n') { escapeType = 'n'; } else if (c == '\r') { escapeType = 'r'; } else if (c == '\f') { escapeType = 'f'; } else if (c == '\b') { escapeType = 'b'; } else if (c == '\t') { escapeType = 't'; } else { escapeType = ESC_HEXA; } } else if (c == '"') { escapeType = quotation == APOSTROPHE ? NO_ESC : ESC_BACKSLASH; } else if (c == '\'') { escapeType = !compatibility.javaScriptCompatible || quotation == QUOTATION_MARK ? NO_ESC : (compatibility.jsonCompatible ? ESC_HEXA : ESC_BACKSLASH); } else if (c == '\\') { escapeType = ESC_BACKSLASH; } else if (c == '/' && (i == 0 && quotation == null || i != 0 && s.charAt(i - 1) == '<')) { // against closing elements with "') { // against "]]> and "-->" final boolean dangerous; if (quotation != null && i < 2) { dangerous = false; } else if (i == 0) { dangerous = true; } else { final char prevC = s.charAt(i - 1); if (prevC == ']' || prevC == '-') { if (i == 1) { dangerous = true; } else { final char prevPrevC = s.charAt(i - 2); dangerous = prevPrevC == prevC; } } else { dangerous = false; } } escapeType = dangerous ? (compatibility.jsonCompatible ? ESC_HEXA : ESC_BACKSLASH) : NO_ESC; } else if (c == '<') { // against "= 0x7F && c <= 0x9F) // control chars range 2 || (c == 0x2028 || c == 0x2029) // UNICODE line terminators ) { escapeType = ESC_HEXA; } else { escapeType = NO_ESC; } if (escapeType != NO_ESC) { // If needs escaping if (sb == null) { sb = new StringBuilder(ln + 6); sb.append(s, 0, i); } sb.append('\\'); if (escapeType > 0x20) { sb.append((char) escapeType); } else if (escapeType == ESC_HEXA) { if (!compatibility.jsonCompatible && c < 0x100) { sb.append('x'); sb.append(toHexDigitUpperCase(c >> 4)); sb.append(toHexDigitUpperCase(c & 0xF)); } else { sb.append('u'); int cp = c; sb.append(toHexDigitUpperCase((cp >> 12) & 0xF)); sb.append(toHexDigitUpperCase((cp >> 8) & 0xF)); sb.append(toHexDigitUpperCase((cp >> 4) & 0xF)); sb.append(toHexDigitUpperCase(cp & 0xF)); } } else { // escapeType == ESC_BACKSLASH sb.append(c); } continue; } // Falls through when escapeType == NO_ESC } // Needs no escaping if (sb != null) sb.append(c); } // for each character if (quotation != null) { sb.append(quotation.getSymbol()); } return sb == null ? s : sb.toString(); } private static char toHexDigitLowerCase(int d) { return (char) (d < 0xA ? d + '0' : d - 0xA + 'a'); } private static char toHexDigitUpperCase(int d) { return (char) (d < 0xA ? d + '0' : d - 0xA + 'A'); } /** * Parses a name-value pair list, where the pairs are separated with comma, * and the name and value is separated with colon. * The keys and values can contain only letters, digits and {@code _}. They * can't be quoted. White-space around the keys and values are ignored. The * value can be omitted if defaultValue is not null. When a * value is omitted, then the colon after the key must be omitted as well. * The same key can't be used for multiple times. * * @param s the string to parse. * For example: "strong:100, soft:900". * @param defaultValue the value used when the value is omitted in a * key-value pair. * * @return the map that contains the name-value pairs. * * @throws java.text.ParseException if the string is not a valid name-value * pair list. */ public static Map parseNameValuePairList(String s, String defaultValue) throws java.text.ParseException { Map map = new HashMap(); char c = ' '; int ln = s.length(); int p = 0; int keyStart; int valueStart; String key; String value; fetchLoop: while (true) { // skip ws while (p < ln) { c = s.charAt(p); if (!Character.isWhitespace(c)) { break; } p++; } if (p == ln) { break fetchLoop; } keyStart = p; // seek key end while (p < ln) { c = s.charAt(p); if (!(Character.isLetterOrDigit(c) || c == '_')) { break; } p++; } if (keyStart == p) { throw new java.text.ParseException( "Expecting letter, digit or \"_\" " + "here, (the first character of the key) but found " + jQuote(String.valueOf(c)) + " at position " + p + ".", p); } key = s.substring(keyStart, p); // skip ws while (p < ln) { c = s.charAt(p); if (!Character.isWhitespace(c)) { break; } p++; } if (p == ln) { if (defaultValue == null) { throw new java.text.ParseException( "Expecting \":\", but reached " + "the end of the string " + " at position " + p + ".", p); } value = defaultValue; } else if (c != ':') { if (defaultValue == null || c != ',') { throw new java.text.ParseException( "Expecting \":\" here, but found " + jQuote(String.valueOf(c)) + " at position " + p + ".", p); } // skip "," p++; value = defaultValue; } else { // skip ":" p++; // skip ws while (p < ln) { c = s.charAt(p); if (!Character.isWhitespace(c)) { break; } p++; } if (p == ln) { throw new java.text.ParseException( "Expecting the value of the key " + "here, but reached the end of the string " + " at position " + p + ".", p); } valueStart = p; // seek value end while (p < ln) { c = s.charAt(p); if (!(Character.isLetterOrDigit(c) || c == '_')) { break; } p++; } if (valueStart == p) { throw new java.text.ParseException( "Expecting letter, digit or \"_\" " + "here, (the first character of the value) " + "but found " + jQuote(String.valueOf(c)) + " at position " + p + ".", p); } value = s.substring(valueStart, p); // skip ws while (p < ln) { c = s.charAt(p); if (!Character.isWhitespace(c)) { break; } p++; } // skip "," if (p < ln) { if (c != ',') { throw new java.text.ParseException( "Excpecting \",\" or the end " + "of the string here, but found " + jQuote(String.valueOf(c)) + " at position " + p + ".", p); } else { p++; } } } // store the key-value pair if (map.put(key, value) != null) { throw new java.text.ParseException( "Dublicated key: " + jQuote(key), keyStart); } } return map; } /** * Used internally by the XML DOM wrapper to check if the subvariable name is just an element name, or a more * complex XPath expression. * * @return whether the name is a valid XML element name. (This routine might only be 99% accurate. REVISIT) * * @deprecated Don't use this outside FreeMarker; it's name if misleading, and it doesn't follow the XML specs. */ @Deprecated static public boolean isXMLID(String name) { return _ExtDomApi.isXMLNameLike(name); } /** * @return whether the qname matches the combination of nodeName, nsURI, and environment prefix settings. */ static public boolean matchesName(String qname, String nodeName, String nsURI, Environment env) { return _ExtDomApi.matchesName(qname, nodeName, nsURI, env); } /** * Pads the string at the left with spaces until it reaches the desired * length. If the string is longer than this length, then it returns the * unchanged string. * * @param s the string that will be padded. * @param minLength the length to reach. */ public static String leftPad(String s, int minLength) { return leftPad(s, minLength, ' '); } /** * Pads the string at the left with the specified character until it reaches * the desired length. If the string is longer than this length, then it * returns the unchanged string. * * @param s the string that will be padded. * @param minLength the length to reach. * @param filling the filling pattern. */ public static String leftPad(String s, int minLength, char filling) { int ln = s.length(); if (minLength <= ln) { return s; } StringBuilder res = new StringBuilder(minLength); int dif = minLength - ln; for (int i = 0; i < dif; i++) { res.append(filling); } res.append(s); return res.toString(); } /** * Pads the string at the left with a filling pattern until it reaches the * desired length. If the string is longer than this length, then it returns * the unchanged string. For example: leftPad('ABC', 9, '1234') * returns "123412ABC". * * @param s the string that will be padded. * @param minLength the length to reach. * @param filling the filling pattern. Must be at least 1 characters long. * Can't be null. */ public static String leftPad(String s, int minLength, String filling) { int ln = s.length(); if (minLength <= ln) { return s; } StringBuilder res = new StringBuilder(minLength); int dif = minLength - ln; int fln = filling.length(); if (fln == 0) { throw new IllegalArgumentException( "The \"filling\" argument can't be 0 length string."); } int cnt = dif / fln; for (int i = 0; i < cnt; i++) { res.append(filling); } cnt = dif % fln; for (int i = 0; i < cnt; i++) { res.append(filling.charAt(i)); } res.append(s); return res.toString(); } /** * Pads the string at the right with spaces until it reaches the desired * length. If the string is longer than this length, then it returns the * unchanged string. * * @param s the string that will be padded. * @param minLength the length to reach. */ public static String rightPad(String s, int minLength) { return rightPad(s, minLength, ' '); } /** * Pads the string at the right with the specified character until it * reaches the desired length. If the string is longer than this length, * then it returns the unchanged string. * * @param s the string that will be padded. * @param minLength the length to reach. * @param filling the filling pattern. */ public static String rightPad(String s, int minLength, char filling) { int ln = s.length(); if (minLength <= ln) { return s; } StringBuilder res = new StringBuilder(minLength); res.append(s); int dif = minLength - ln; for (int i = 0; i < dif; i++) { res.append(filling); } return res.toString(); } /** * Pads the string at the right with a filling pattern until it reaches the * desired length. If the string is longer than this length, then it returns * the unchanged string. For example: rightPad('ABC', 9, '1234') * returns "ABC412341". Note that the filling pattern is * started as if you overlay "123412341" with the left-aligned * "ABC", so it starts with "4". * * @param s the string that will be padded. * @param minLength the length to reach. * @param filling the filling pattern. Must be at least 1 characters long. * Can't be null. */ public static String rightPad(String s, int minLength, String filling) { int ln = s.length(); if (minLength <= ln) { return s; } StringBuilder res = new StringBuilder(minLength); res.append(s); int dif = minLength - ln; int fln = filling.length(); if (fln == 0) { throw new IllegalArgumentException( "The \"filling\" argument can't be 0 length string."); } int start = ln % fln; int end = fln - start <= dif ? fln : start + dif; for (int i = start; i < end; i++) { res.append(filling.charAt(i)); } dif -= end - start; int cnt = dif / fln; for (int i = 0; i < cnt; i++) { res.append(filling); } cnt = dif % fln; for (int i = 0; i < cnt; i++) { res.append(filling.charAt(i)); } return res.toString(); } /** * Converts a version number string to an integer for easy comparison. * The version number must start with numbers separated with * dots. There can be any number of such dot-separated numbers, but only * the first three will be considered. After the numbers arbitrary text can * follow, and will be ignored. * * The string will be trimmed before interpretation. * * @return major * 1000000 + minor * 1000 + micro */ public static int versionStringToInt(String version) { return new Version(version).intValue(); } /** * Tries to run {@code toString()}, but if that fails, returns a * {@code "[com.example.SomeClass.toString() failed: " + e + "]"} instead. Also, it returns {@code null} for * {@code null} parameter. * * @since 2.3.20 */ public static String tryToString(Object object) { if (object == null) return null; try { return object.toString(); } catch (Throwable e) { return failedToStringSubstitute(object, e); } } private static String failedToStringSubstitute(Object object, Throwable e) { String eStr; try { eStr = e.toString(); } catch (Throwable e2) { eStr = ClassUtil.getShortClassNameOfObject(e); } return "[" + ClassUtil.getShortClassNameOfObject(object) + ".toString() failed: " + eStr + "]"; } /** * Converts {@code 1}, {@code 2}, {@code 3} and so forth to {@code "A"}, {@code "B"}, {@code "C"} and so fort. When * reaching {@code "Z"}, it continues like {@code "AA"}, {@code "AB"}, etc. The lowest supported number is 1, but * there's no upper limit. * * @throws IllegalArgumentException * If the argument is 0 or less. * * @since 2.3.22 */ public static String toUpperABC(int n) { return toABC(n, 'A'); } /** * Same as {@link #toUpperABC(int)}, but produces lower case result, like {@code "ab"}. * * @since 2.3.22 */ public static String toLowerABC(int n) { return toABC(n, 'a'); } /** * @param oneDigit * The character that stands for the value 1. */ private static String toABC(final int n, char oneDigit) { if (n < 1) { throw new IllegalArgumentException("Can't convert 0 or negative " + "numbers to latin-number: " + n); } // First find out how many "digits" will we need. We start from A, then // try AA, then AAA, etc. (Note that the smallest digit is "A", which is // 1, not 0. Hence this isn't like a usual 26-based number-system): int reached = 1; int weight = 1; while (true) { int nextWeight = weight * 26; int nextReached = reached + nextWeight; if (nextReached <= n) { // So we will have one more digit weight = nextWeight; reached = nextReached; } else { // No more digits break; } } // Increase the digits of the place values until we get as close // to n as possible (but don't step over it). StringBuilder sb = new StringBuilder(); while (weight != 0) { // digitIncrease: how many we increase the digit which is already 1 final int digitIncrease = (n - reached) / weight; sb.append((char) (oneDigit + digitIncrease)); reached += digitIncrease * weight; weight /= 26; } return sb.toString(); } /** * Behaves exactly like {@link String#trim()}, but works on arrays. If the resulting array would have the same * content after trimming, it returns the original array instance. Otherwise it returns a new array instance (or * {@link CollectionUtils#EMPTY_CHAR_ARRAY}). * * @since 2.3.22 */ public static char[] trim(final char[] cs) { if (cs.length == 0) { return cs; } int start = 0; int end = cs.length; while (start < end && cs[start] <= ' ') { start++; } while (start < end && cs[end - 1] <= ' ') { end--; } if (start == 0 && end == cs.length) { return cs; } if (start == end) { return CollectionUtils.EMPTY_CHAR_ARRAY; } char[] newCs = new char[end - start]; System.arraycopy(cs, start, newCs, 0, end - start); return newCs; } /** * Tells if {@link String#trim()} will return a 0-length string for the {@link String} equivalent of the argument. * * @since 2.3.22 */ public static boolean isTrimmableToEmpty(char[] text) { return isTrimmableToEmpty(text, 0, text.length); } /** * Like {@link #isTrimmableToEmpty(char[])}, but acts on a sub-array that starts at {@code start} (inclusive index). * * @since 2.3.23 */ public static boolean isTrimmableToEmpty(char[] text, int start) { return isTrimmableToEmpty(text, start, text.length); } /** * Like {@link #isTrimmableToEmpty(char[])}, but acts on a sub-array that starts at {@code start} (inclusive index) * and ends at {@code end} (exclusive index). * * @since 2.3.23 */ public static boolean isTrimmableToEmpty(char[] text, int start, int end) { for (int i = start; i < end; i++) { // We follow Java's String.trim() here, which simply states that c <= ' ' is whitespace. if (text[i] > ' ') { return false; } } return true; } /** * Same as {@link #globToRegularExpression(String, boolean)} with {@code caseInsensitive} argument {@code false}. * * @since 2.3.24 */ public static Pattern globToRegularExpression(String glob) { return globToRegularExpression(glob, false); } /** * Creates a regular expression from a glob. The glob must use {@code /} for as file separator, not {@code \} * (backslash), and is always case sensitive. * *

This glob implementation recognizes these special characters: *

    *
  • {@code ?}: Wildcard that matches exactly one character, other than {@code /} *
  • {@code *}: Wildcard that matches zero, one or multiple characters, other than {@code /} *
  • {@code **}: Wildcard that matches zero, one or multiple directories. For example, {@code **}{@code /head.ftl} * matches {@code foo/bar/head.ftl}, {@code foo/head.ftl} and {@code head.ftl} too. {@code **} must be either * preceded by {@code /} or be at the beginning of the glob. {@code **} must be either followed by {@code /} or be * at the end of the glob. When {@code **} is at the end of the glob, it also matches file names, like * {@code a/**} matches {@code a/b/c.ftl}. If the glob only consist of a {@code **}, it will be a match for * everything. *
  • {@code \} (backslash): Makes the next character non-special (a literal). For example {@code How\?.ftl} will * match {@code How?.ftl}, but not {@code HowX.ftl}. Naturally, two backslashes produce one literal backslash. *
  • {@code [}: Reserved for future purposes; can't be used *
  • {: Reserved for future purposes; can't be used *
* * @since 2.3.24 */ public static Pattern globToRegularExpression(String glob, boolean caseInsensitive) { StringBuilder regex = new StringBuilder(); int nextStart = 0; boolean escaped = false; int ln = glob.length(); for (int idx = 0; idx < ln; idx++) { char c = glob.charAt(idx); if (!escaped) { if (c == '?') { appendLiteralGlobSection(regex, glob, nextStart, idx); regex.append("[^/]"); nextStart = idx + 1; } else if (c == '*') { appendLiteralGlobSection(regex, glob, nextStart, idx); if (idx + 1 < ln && glob.charAt(idx + 1) == '*') { if (!(idx == 0 || glob.charAt(idx - 1) == '/')) { throw new IllegalArgumentException( "The \"**\" wildcard must be directly after a \"/\" or it must be at the " + "beginning, in this glob: " + glob); } if (idx + 2 == ln) { // trailing "**" regex.append(".*"); idx++; } else { // "**/" if (!(idx + 2 < ln && glob.charAt(idx + 2) == '/')) { throw new IllegalArgumentException( "The \"**\" wildcard must be followed by \"/\", or must be at tehe end, " + "in this glob: " + glob); } regex.append("(.*?/)*"); idx += 2; // "*/".length() } } else { regex.append("[^/]*"); } nextStart = idx + 1; } else if (c == '\\') { escaped = true; } else if (c == '[' || c == '{') { throw new IllegalArgumentException( "The \"" + c + "\" glob operator is currently unsupported " + "(precede it with \\ for literal matching), " + "in this glob: " + glob); } } else { escaped = false; } } appendLiteralGlobSection(regex, glob, nextStart, glob.length()); return Pattern.compile(regex.toString(), caseInsensitive ? Pattern.CASE_INSENSITIVE | Pattern.UNICODE_CASE : 0); } private static void appendLiteralGlobSection(StringBuilder regex, String glob, int start, int end) { if (start == end) return; String part = unescapeLiteralGlobSection(glob.substring(start, end)); regex.append(Pattern.quote(part)); } private static String unescapeLiteralGlobSection(String s) { int backslashIdx = s.indexOf('\\'); if (backslashIdx == -1) { return s; } int ln = s.length(); StringBuilder sb = new StringBuilder(ln - 1); int nextStart = 0; do { sb.append(s, nextStart, backslashIdx); nextStart = backslashIdx + 1; } while ((backslashIdx = s.indexOf('\\', nextStart + 1)) != -1); if (nextStart < ln) { sb.append(s, nextStart, ln); } return sb.toString(); } /** * Used as the argument of {@link StringUtil#jsStringEnc(String, JsStringEncCompatibility, JsStringEncQuotation)}. * * @since 2.3.32 */ public enum JsStringEncCompatibility { /** * Output is expected to be used in JavaScript, not in JSON. */ JAVA_SCRIPT(true, false), /** * Output is expected to be used in JSON, not in JavaScript. While JSON is compatible with JavaScript, in this * mode we don't care about escaping apostrophe, as it's not special in JSON. */ JSON(false, true), /** * Output is expected to be used both in JSON and JavaScript. */ JAVA_SCRIPT_OR_JSON(true, true); JsStringEncCompatibility(boolean javaScriptCompatible, boolean jsonCompatible) { this.javaScriptCompatible = javaScriptCompatible; this.jsonCompatible = jsonCompatible; } private final boolean javaScriptCompatible; private final boolean jsonCompatible; boolean isJSONCompatible() { return jsonCompatible; } } /** * Used as the argument of {@link StringUtil#jsStringEnc(String, JsStringEncCompatibility, JsStringEncQuotation)}. * * @since 2.3.32 */ public enum JsStringEncQuotation { QUOTATION_MARK('"'), APOSTROPHE('\''); private final char symbol; JsStringEncQuotation(char symbol) { this.symbol = symbol; } public char getSymbol() { return symbol; } } }




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