2b59d9838d
up that String into tsheg bars, punctuation, etc., while finding errors. I've tested it some, but I'm not yet committing the tests. Next step: a converter that takes an ACIP file as input and outputs TMW+Latin.
333 lines
14 KiB
Java
333 lines
14 KiB
Java
/*
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The contents of this file are subject to the THDL Open Community License
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Version 1.0 (the "License"); you may not use this file except in compliance
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with the License. You may obtain a copy of the License on the THDL web site
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(http://www.thdl.org/).
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Software distributed under the License is distributed on an "AS IS" basis,
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WITHOUT WARRANTY OF ANY KIND, either express or implied. See the
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License for the specific terms governing rights and limitations under the
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License.
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The Initial Developer of this software is the Tibetan and Himalayan Digital
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Library (THDL). Portions created by the THDL are Copyright 2003 THDL.
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All Rights Reserved.
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Contributor(s): ______________________________________.
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*/
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package org.thdl.tib.text.ttt;
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import java.io.*;
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import java.util.ArrayList;
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import java.util.Stack;
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import org.thdl.util.ThdlDebug;
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/**
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* This class is able to break up Strings of ACIP text (for example, an
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* entire sutra file) into tsheg bars, comments, etc. Folio markers,
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* comments, and the like are segregated (so that consumers can ensure
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* that they remain in Latin), and Tibetan passages are broken up into
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* tsheg bars.
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* @author David Chandler
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*/
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public class ACIPTshegBarScanner {
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/** Returns a list of {@link ACIPString ACIPStrings} corresponding
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* to s, possibly the empty list (when the empty string is the
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* input). Each String is either a Latin comment, some Latin
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* text, a tsheg bar (minus the tsheg or shad or whatever), a
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* String of inter-tsheg-bar punctuation, etc.
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*
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* <p>This not only scans; it finds all the errors a parser would
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* too, like "NYA x" and "(" and ")" and "/NYA" etc. It puts
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* those in as ACIPStrings with type {@link ACIPString#ERROR}.
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*/
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public static ArrayList scan(String s) {
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// the size depends on whether it's mostly Tibetan or mostly
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// Latin and a number of other factors. This is meant to be
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// an underestimate, but not too much of an underestimate.
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ArrayList al = new ArrayList(s.length() / 10);
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int sl = s.length();
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int currentType = ACIPString.ERROR;
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int startOfString = 0;
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Stack bracketTypeStack = new Stack();
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int startSlashIndex = -1;
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int startParenIndex = -1;
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for (int i = 0; i < sl; i++) {
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if (i < startOfString) throw new Error("bad reset");
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char ch;
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ch = s.charAt(i);
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if (ACIPString.COMMENT == currentType && ch != ']')
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continue;
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switch (ch) {
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case ']':
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if (bracketTypeStack.empty()) {
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// Error.
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if (startOfString < i) {
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al.add(new ACIPString(s.substring(startOfString, i),
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currentType));
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}
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al.add(new ACIPString(s.substring(i, i+1), ACIPString.ERROR));
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startOfString = i+1;
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currentType = ACIPString.ERROR;
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} else {
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int stackTop = ((Integer)bracketTypeStack.pop()).intValue();
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String text = s.substring(startOfString, i+1);
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if (ACIPString.CORRECTION_START == stackTop) {
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char prevCh = s.charAt(i-1);
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if ('?' != prevCh) {
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currentType = ACIPString.PROBABLE_CORRECTION;
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} else {
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currentType = ACIPString.POSSIBLE_CORRECTION;
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}
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}
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al.add(new ACIPString(text, currentType));
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startOfString = i+1;
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currentType = ACIPString.ERROR;
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}
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break;
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case '[':
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// This definitely indicates a new token.
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if (startOfString < i) {
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al.add(new ACIPString(s.substring(startOfString, i),
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currentType));
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startOfString = i;
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currentType = ACIPString.ERROR;
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}
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String thingy = null;
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if (i + "[DD]".length() <= sl
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&& s.substring(i, i + "[DD]".length()).equals("[DD]")) {
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thingy = "[DD]";
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currentType = ACIPString.DD;
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} else if (i + "[DD1]".length() <= sl
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&& s.substring(i, i + "[DD1]".length()).equals("[DD1]")) {
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thingy = "[DD1]";
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currentType = ACIPString.DD;
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} else if (i + "[DD2]".length() <= sl
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&& s.substring(i, i + "[DD2]".length()).equals("[DD2]")) {
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thingy = "[DD2]";
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currentType = ACIPString.DD;
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} else if (i + "[DDD]".length() <= sl
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&& s.substring(i, i + "[DDD]".length()).equals("[DDD]")) {
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thingy = "[DDD]";
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currentType = ACIPString.DD;
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} else if (i + "[DR]".length() <= sl
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&& s.substring(i, i + "[DR]".length()).equals("[DR]")) {
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thingy = "[DR]";
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currentType = ACIPString.DR;
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} else if (i + "[LS]".length() <= sl
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&& s.substring(i, i + "[LS]".length()).equals("[LS]")) {
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thingy = "[LS]";
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currentType = ACIPString.LS;
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} else if (i + "[BP]".length() <= sl
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&& s.substring(i, i + "[BP]".length()).equals("[BP]")) {
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thingy = "[BP]";
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currentType = ACIPString.BP;
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} else if (i + "[?]".length() <= sl
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&& s.substring(i, i + "[?]".length()).equals("[?]")) {
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thingy = "[?]";
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currentType = ACIPString.QUESTION;
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}
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if (null != thingy) {
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al.add(new ACIPString(thingy,
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currentType));
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startOfString = i + thingy.length();
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i = startOfString - 1;
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} else {
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if (i + 1 < sl) {
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char nextCh = s.charAt(i+1);
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if ('*' == nextCh) {
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currentType = ACIPString.CORRECTION_START;
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bracketTypeStack.push(new Integer(currentType));
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break;
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} else if ('#' == nextCh) {
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currentType = ACIPString.COMMENT;
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bracketTypeStack.push(new Integer(currentType));
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break;
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}
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}
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// This is an error. DLC FIXME: in practice
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// [COMMENTS APPEAR WITHOUT # MARKS]. Though
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// "... [" could cause this too.
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al.add(new ACIPString(s.substring(i, i+1),
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ACIPString.ERROR));
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startOfString = i + 1;
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currentType = ACIPString.ERROR;
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}
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break; // end '[' case
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case '@':
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// This definitely indicates a new token.
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if (startOfString < i) {
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al.add(new ACIPString(s.substring(startOfString, i),
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currentType));
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startOfString = i;
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currentType = ACIPString.ERROR;
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}
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// We look for @N[AB], @NN[AB], @NNN[AB], @NNNN[AB],
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// @NNNNN[AB], and @NNNNNN[AB] only, that is from one
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// to six digits.
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for (int numdigits = 1; numdigits <= 5; numdigits++) {
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if (i+numdigits+1 < sl
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&& (s.charAt(i+numdigits+1) == 'A' || s.charAt(i+numdigits+1) == 'B')) {
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boolean allAreNumeric = true;
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for (int k = 1; k <= numdigits; k++) {
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if (!isNumeric(s.charAt(i+k))) {
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allAreNumeric = false;
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break;
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}
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}
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if (allAreNumeric) {
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al.add(new ACIPString(s.substring(i, i+numdigits+2), ACIPString.FOLIO_MARKER));
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startOfString = i+numdigits+2;
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currentType = ACIPString.ERROR;
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break;
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}
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}
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}
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if (startOfString == i) {
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al.add(new ACIPString(s.substring(i, i+1), ACIPString.ERROR));
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startOfString = i+1;
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currentType = ACIPString.ERROR;
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}
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break; // end '@' case
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case '/':
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// This definitely indicates a new token.
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if (startOfString < i) {
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al.add(new ACIPString(s.substring(startOfString, i),
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currentType));
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startOfString = i;
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currentType = ACIPString.ERROR;
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}
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if (startSlashIndex >= 0) {
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al.add(new ACIPString(s.substring(i, i+1), ACIPString.END_SLASH));
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startOfString = i+1;
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currentType = ACIPString.ERROR;
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startSlashIndex = -1;
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} else {
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startSlashIndex = i;
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al.add(new ACIPString(s.substring(i, i+1), ACIPString.START_SLASH));
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startOfString = i+1;
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currentType = ACIPString.ERROR;
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}
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break; // end '/' case
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case '(':
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case ')':
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// This definitely indicates a new token.
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if (startOfString < i) {
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al.add(new ACIPString(s.substring(startOfString, i),
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currentType));
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startOfString = i;
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currentType = ACIPString.ERROR;
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}
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// DLC support nesting like (NYA (BA))?
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if (startParenIndex >= 0) {
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if (ch == '(')
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al.add(new ACIPString("Nesting of parentheses () is not allowed", ACIPString.ERROR));
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else {
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al.add(new ACIPString(s.substring(i, i+1), ACIPString.END_PAREN));
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startParenIndex = -1;
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}
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startOfString = i+1;
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currentType = ACIPString.ERROR;
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} else {
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if (ch == ')')
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al.add(new ACIPString("Unexpected closing parenthesis )", ACIPString.ERROR));
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else {
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startParenIndex = i;
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al.add(new ACIPString(s.substring(i, i+1), ACIPString.START_PAREN));
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}
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startOfString = i+1;
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currentType = ACIPString.ERROR;
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}
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break; // end '/' case
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// Classic tsheg bar enders:
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case ' ':
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case '\t':
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case '\r':
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case '\n':
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case ',':
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case '*':
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case ';':
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case '`':
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case '#':
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// The tsheg bar ends here; new token.
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if (startOfString < i) {
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al.add(new ACIPString(s.substring(startOfString, i),
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currentType));
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}
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al.add(new ACIPString(s.substring(i, i+1),
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ACIPString.TIBETAN_PUNCTUATION));
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startOfString = i+1;
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currentType = ACIPString.ERROR;
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break; // end TIBETAN_PUNCTUATION case
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default:
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if (!(isNumeric(ch) || isAlpha(ch))) {
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if (startOfString < i) {
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al.add(new ACIPString(s.substring(startOfString, i),
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currentType));
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}
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al.add(new ACIPString(s.substring(i, i+1),
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ACIPString.ERROR));
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startOfString = i+1;
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currentType = ACIPString.ERROR;
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} else {
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// Continue through the loop.
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if (ACIPString.ERROR == currentType)
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currentType = ACIPString.TIBETAN_NON_PUNCTUATION;
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}
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break; // end default case
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}
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}
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if (startOfString < sl) {
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al.add(new ACIPString(s.substring(startOfString, sl),
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currentType));
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if (!bracketTypeStack.empty()) {
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al.add(new ACIPString("UNEXPECTED END OF INPUT",
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ACIPString.ERROR));
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}
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if (startSlashIndex >= 0) {
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al.add(new ACIPString("Slashes are supposed to occur in pairs, but the input had an unmatched '/' character.",
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ACIPString.ERROR));
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}
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if (startParenIndex >= 0) {
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al.add(new ACIPString("Parentheses are supposed to occur in pairs, but the input had an unmatched parenthesis.",
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ACIPString.ERROR));
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}
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}
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return al;
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}
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/** See implementation. */
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private static boolean isNumeric(char ch) {
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return ch >= '0' && ch <= '9';
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}
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/** See implementation. */
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private static boolean isAlpha(char ch) {
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return ch == '\''
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// combining punctuation:
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|| ch == '%'
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|| ch == 'o'
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|| ch == 'x'
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|| (ch >= 'A' && ch <= 'Z')
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|| (ch >= 'a' && ch <= 'z');
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}
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}
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