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Itext is a java library to create and manipulate PDFs. This is a fork of version 2.1.7 the last MPL/LGPL version. It's focused basically on mantain compatibility with newer bouncycastle releases and small bugfixes.

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/*
 * Copyright 1999-2004 The Apache Software Foundation.
 * 
 * Licensed 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.
 */

/* $Id: HyphenationTree.java 3117 2008-01-31 05:53:22Z xlv $ */
 
package com.lowagie.text.pdf.hyphenation;

import java.io.InputStream;
import java.util.ArrayList;
import java.util.HashMap;

/**
 * This tree structure stores the hyphenation patterns in an efficient
 * way for fast lookup. It provides the provides the method to
 * hyphenate a word.
 *
 * @author Carlos Villegas 
 */
public class HyphenationTree extends TernaryTree 
            implements PatternConsumer {

    private static final long serialVersionUID = -7763254239309429432L;

	/**
     * value space: stores the interletter values
     */
    protected ByteVector vspace;

    /**
     * This map stores hyphenation exceptions
     */
    protected HashMap stoplist;

    /**
     * This map stores the character classes
     */
    protected TernaryTree classmap;

    /**
     * Temporary map to store interletter values on pattern loading.
     */
    private transient TernaryTree ivalues;

    public HyphenationTree() {
        stoplist = new HashMap(23);    // usually a small table
        classmap = new TernaryTree();
        vspace = new ByteVector();
        vspace.alloc(1);    // this reserves index 0, which we don't use
    }

    /**
     * Packs the values by storing them in 4 bits, two values into a byte
     * Values range is from 0 to 9. We use zero as terminator,
     * so we'll add 1 to the value.
     * @param values a string of digits from '0' to '9' representing the
     * interletter values.
     * @return the index into the vspace array where the packed values
     * are stored.
     */
    protected int packValues(String values) {
        int i, n = values.length();
        int m = (n & 1) == 1 ? (n >> 1) + 2 : (n >> 1) + 1;
        int offset = vspace.alloc(m);
        byte[] va = vspace.getArray();
        for (i = 0; i < n; i++) {
            int j = i >> 1;
            byte v = (byte)((values.charAt(i) - '0' + 1) & 0x0f);
            if ((i & 1) == 1) {
                va[j + offset] = (byte)(va[j + offset] | v);
            } else {
                va[j + offset] = (byte)(v << 4);    // big endian
            }
        }
        va[m - 1 + offset] = 0;    // terminator
        return offset;
    }

    protected String unpackValues(int k) {
        StringBuffer buf = new StringBuffer();
        byte v = vspace.get(k++);
        while (v != 0) {
            char c = (char)((v >>> 4) - 1 + '0');
            buf.append(c);
            c = (char)(v & 0x0f);
            if (c == 0) {
                break;
            }
            c = (char)(c - 1 + '0');
            buf.append(c);
            v = vspace.get(k++);
        }
        return buf.toString();
    }

    public void loadSimplePatterns(InputStream stream) {
        SimplePatternParser pp = new SimplePatternParser();
        ivalues = new TernaryTree();

        pp.parse(stream, this);

        // patterns/values should be now in the tree
        // let's optimize a bit
        trimToSize();
        vspace.trimToSize();
        classmap.trimToSize();

        // get rid of the auxiliary map
        ivalues = null;
    }


    public String findPattern(String pat) {
        int k = super.find(pat);
        if (k >= 0) {
            return unpackValues(k);
        }
        return "";
    }

    /**
     * String compare, returns 0 if equal or
     * t is a substring of s
     */
    protected int hstrcmp(char[] s, int si, char[] t, int ti) {
        for (; s[si] == t[ti]; si++, ti++) {
            if (s[si] == 0) {
                return 0;
            }
        }
        if (t[ti] == 0) {
            return 0;
        }
        return s[si] - t[ti];
    }

    protected byte[] getValues(int k) {
        StringBuffer buf = new StringBuffer();
        byte v = vspace.get(k++);
        while (v != 0) {
            char c = (char)((v >>> 4) - 1);
            buf.append(c);
            c = (char)(v & 0x0f);
            if (c == 0) {
                break;
            }
            c = (char)(c - 1);
            buf.append(c);
            v = vspace.get(k++);
        }
        byte[] res = new byte[buf.length()];
        for (int i = 0; i < res.length; i++) {
            res[i] = (byte)buf.charAt(i);
        }
        return res;
    }

    /**
     * 

Search for all possible partial matches of word starting * at index an update interletter values. In other words, it * does something like:

* * for(i=0; i *

But it is done in an efficient way since the patterns are * stored in a ternary tree. In fact, this is the whole purpose * of having the tree: doing this search without having to test * every single pattern. The number of patterns for languages * such as English range from 4000 to 10000. Thus, doing thousands * of string comparisons for each word to hyphenate would be * really slow without the tree. The tradeoff is memory, but * using a ternary tree instead of a trie, almost halves the * the memory used by Lout or TeX. It's also faster than using * a hash table

* @param word null terminated word to match * @param index start index from word * @param il interletter values array to update */ protected void searchPatterns(char[] word, int index, byte[] il) { byte[] values; int i = index; char p, q; char sp = word[i]; p = root; while (p > 0 && p < sc.length) { if (sc[p] == 0xFFFF) { if (hstrcmp(word, i, kv.getArray(), lo[p]) == 0) { values = getValues(eq[p]); // data pointer is in eq[] int j = index; for (int k = 0; k < values.length; k++) { if (j < il.length && values[k] > il[j]) { il[j] = values[k]; } j++; } } return; } int d = sp - sc[p]; if (d == 0) { if (sp == 0) { break; } sp = word[++i]; p = eq[p]; q = p; // look for a pattern ending at this position by searching for // the null char ( splitchar == 0 ) while (q > 0 && q < sc.length) { if (sc[q] == 0xFFFF) { // stop at compressed branch break; } if (sc[q] == 0) { values = getValues(eq[q]); int j = index; for (int k = 0; k < values.length; k++) { if (j < il.length && values[k] > il[j]) { il[j] = values[k]; } j++; } break; } else { q = lo[q]; /** * actually the code should be: * q = sc[q] < 0 ? hi[q] : lo[q]; * but java chars are unsigned */ } } } else { p = d < 0 ? lo[p] : hi[p]; } } } /** * Hyphenate word and return a Hyphenation object. * @param word the word to be hyphenated * @param remainCharCount Minimum number of characters allowed * before the hyphenation point. * @param pushCharCount Minimum number of characters allowed after * the hyphenation point. * @return a {@link Hyphenation Hyphenation} object representing * the hyphenated word or null if word is not hyphenated. */ public Hyphenation hyphenate(String word, int remainCharCount, int pushCharCount) { char[] w = word.toCharArray(); return hyphenate(w, 0, w.length, remainCharCount, pushCharCount); } /** * w = "****nnllllllnnn*****", * where n is a non-letter, l is a letter, * all n may be absent, the first n is at offset, * the first l is at offset + iIgnoreAtBeginning; * word = ".llllll.'\0'***", * where all l in w are copied into word. * In the first part of the routine len = w.length, * in the second part of the routine len = word.length. * Three indices are used: * index(w), the index in w, * index(word), the index in word, * letterindex(word), the index in the letter part of word. * The following relations exist: * index(w) = offset + i - 1 * index(word) = i - iIgnoreAtBeginning * letterindex(word) = index(word) - 1 * (see first loop). * It follows that: * index(w) - index(word) = offset - 1 + iIgnoreAtBeginning * index(w) = letterindex(word) + offset + iIgnoreAtBeginning */ /** * Hyphenate word and return an array of hyphenation points. * @param w char array that contains the word * @param offset Offset to first character in word * @param len Length of word * @param remainCharCount Minimum number of characters allowed * before the hyphenation point. * @param pushCharCount Minimum number of characters allowed after * the hyphenation point. * @return a {@link Hyphenation Hyphenation} object representing * the hyphenated word or null if word is not hyphenated. */ public Hyphenation hyphenate(char[] w, int offset, int len, int remainCharCount, int pushCharCount) { int i; char[] word = new char[len + 3]; // normalize word char[] c = new char[2]; int iIgnoreAtBeginning = 0; int iLength = len; boolean bEndOfLetters = false; for (i = 1; i <= len; i++) { c[0] = w[offset + i - 1]; int nc = classmap.find(c, 0); if (nc < 0) { // found a non-letter character ... if (i == (1 + iIgnoreAtBeginning)) { // ... before any letter character iIgnoreAtBeginning ++; } else { // ... after a letter character bEndOfLetters = true; } iLength --; } else { if (!bEndOfLetters) { word[i - iIgnoreAtBeginning] = (char)nc; } else { return null; } } } len = iLength; if (len < (remainCharCount + pushCharCount)) { // word is too short to be hyphenated return null; } int[] result = new int[len + 1]; int k = 0; // check exception list first String sw = new String(word, 1, len); if (stoplist.containsKey(sw)) { // assume only simple hyphens (Hyphen.pre="-", Hyphen.post = Hyphen.no = null) ArrayList hw = (ArrayList)stoplist.get(sw); int j = 0; for (i = 0; i < hw.size(); i++) { Object o = hw.get(i); // j = index(sw) = letterindex(word)? // result[k] = corresponding index(w) if (o instanceof String) { j += ((String)o).length(); if (j >= remainCharCount && j < (len - pushCharCount)) { result[k++] = j + iIgnoreAtBeginning; } } } } else { // use algorithm to get hyphenation points word[0] = '.'; // word start marker word[len + 1] = '.'; // word end marker word[len + 2] = 0; // null terminated byte[] il = new byte[len + 3]; // initialized to zero for (i = 0; i < len + 1; i++) { searchPatterns(word, i, il); } // hyphenation points are located where interletter value is odd // i is letterindex(word), // i + 1 is index(word), // result[k] = corresponding index(w) for (i = 0; i < len; i++) { if (((il[i + 1] & 1) == 1) && i >= remainCharCount && i <= (len - pushCharCount)) { result[k++] = i + iIgnoreAtBeginning; } } } if (k > 0) { // trim result array int[] res = new int[k]; System.arraycopy(result, 0, res, 0, k); return new Hyphenation(new String(w, offset, len), res); } else { return null; } } /** * Add a character class to the tree. It is used by * {@link SimplePatternParser SimplePatternParser} as callback to * add character classes. Character classes define the * valid word characters for hyphenation. If a word contains * a character not defined in any of the classes, it is not hyphenated. * It also defines a way to normalize the characters in order * to compare them with the stored patterns. Usually pattern * files use only lower case characters, in this case a class * for letter 'a', for example, should be defined as "aA", the first * character being the normalization char. */ public void addClass(String chargroup) { if (chargroup.length() > 0) { char equivChar = chargroup.charAt(0); char[] key = new char[2]; key[1] = 0; for (int i = 0; i < chargroup.length(); i++) { key[0] = chargroup.charAt(i); classmap.insert(key, 0, equivChar); } } } /** * Add an exception to the tree. It is used by * {@link SimplePatternParser SimplePatternParser} class as callback to * store the hyphenation exceptions. * @param word normalized word * @param hyphenatedword a vector of alternating strings and * {@link Hyphen hyphen} objects. */ public void addException(String word, ArrayList hyphenatedword) { stoplist.put(word, hyphenatedword); } /** * Add a pattern to the tree. Mainly, to be used by * {@link SimplePatternParser SimplePatternParser} class as callback to * add a pattern to the tree. * @param pattern the hyphenation pattern * @param ivalue interletter weight values indicating the * desirability and priority of hyphenating at a given point * within the pattern. It should contain only digit characters. * (i.e. '0' to '9'). */ public void addPattern(String pattern, String ivalue) { int k = ivalues.find(ivalue); if (k <= 0) { k = packValues(ivalue); ivalues.insert(ivalue, (char)k); } insert(pattern, (char)k); } public void printStats() { System.out.println("Value space size = " + Integer.toString(vspace.length())); super.printStats(); } }




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