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view software/mpdl-services/mpiwg-mpdl-lt/src/de/mpg/mpiwg/berlin/mpdl/lt/text/norm/lang/MpdlNormalizerLexIT.java @ 23:e845310098ba
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author | Josef Willenborg <jwillenborg@mpiwg-berlin.mpg.de> |
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date | Tue, 27 Nov 2012 12:35:19 +0100 |
parents | 4a3641ae14d2 |
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/* The following code was generated by JFlex 1.4.3 on 28.03.12 18:57 */ /* * Normalization rules for Italian text * [this is a JFlex specification] * * Wolfgang Schmidle * version 2011-07-12 * */ package de.mpg.mpiwg.berlin.mpdl.lt.text.norm.lang; /** * This class is a scanner generated by * <a href="http://www.jflex.de/">JFlex</a> 1.4.3 * on 28.03.12 18:57 from the specification file * <tt>/Users/jwillenborg/test/jflexNew/MpdlNormalizerLexIT.lex</tt> */ public class MpdlNormalizerLexIT { /** This character denotes the end of file */ public static final int YYEOF = -1; /** initial size of the lookahead buffer */ private static final int ZZ_BUFFERSIZE = 16384; /** lexical states */ public static final int SEARCH = 6; public static final int DICT = 4; public static final int YYINITIAL = 0; public static final int DISP = 2; /** * ZZ_LEXSTATE[l] is the state in the DFA for the lexical state l * ZZ_LEXSTATE[l+1] is the state in the DFA for the lexical state l * at the beginning of a line * l is of the form l = 2*k, k a non negative integer */ private static final int ZZ_LEXSTATE[] = { 0, 0, 1, 2, 3, 4, 5, 6 }; /** * Translates characters to character classes */ private static final String ZZ_CMAP_PACKED = "\12\0\1\6\25\0\1\5\14\0\1\22\1\0\1\21\14\0\1\17"+ "\1\0\1\20\1\0\1\56\1\1\3\2\1\1\3\2\1\45\1\0"+ "\1\2\1\3\2\2\1\46\1\2\1\54\1\3\1\2\1\44\1\51"+ "\1\55\2\2\1\0\1\2\6\0\1\50\3\2\1\12\2\2\1\47"+ "\1\7\1\42\1\2\1\3\1\2\1\10\1\43\1\14\1\52\1\13"+ "\1\2\1\11\1\16\1\53\2\2\1\0\1\2\62\0\1\4\22\0"+ "\1\23\5\0\1\37\1\0\1\24\3\0\1\25\5\0\1\26\6\0"+ "\1\27\5\0\1\35\1\30\5\0\1\36\1\0\1\31\3\0\1\32"+ "\5\0\1\33\6\0\1\34\37\0\1\1\70\0\1\41\1\40\53\0"+ "\1\15\ufe80\0"; /** * Translates characters to character classes */ private static final char [] ZZ_CMAP = zzUnpackCMap(ZZ_CMAP_PACKED); /** * Translates DFA states to action switch labels. */ private static final int [] ZZ_ACTION = zzUnpackAction(); private static final String ZZ_ACTION_PACKED_0 = "\13\0\1\1\1\2\2\3\1\1\1\4\1\2\1\3"+ "\1\5\1\2\2\1\1\6\1\7\1\10\1\11\1\12"+ "\5\3\1\13\1\2\1\3\1\5\1\2\1\14\1\15"+ "\1\16\1\17\1\20\1\21\1\22\1\23\1\24\1\25"+ "\1\26\1\27\1\30\5\0\1\31\1\32\1\33\1\0"+ "\1\34\1\0\1\35\1\36\1\0\1\37\1\40\1\41"+ "\4\0\1\42\10\0\1\43\1\44\4\0\1\45\1\0"+ "\1\46\6\0\1\32\3\0\1\47\5\0\1\45\3\0"+ "\1\50"; private static int [] zzUnpackAction() { int [] result = new int[111]; int offset = 0; offset = zzUnpackAction(ZZ_ACTION_PACKED_0, offset, result); return result; } private static int zzUnpackAction(String packed, int offset, int [] result) { int i = 0; /* index in packed string */ int j = offset; /* index in unpacked array */ int l = packed.length(); while (i < l) { int count = packed.charAt(i++); int value = packed.charAt(i++); do result[j++] = value; while (--count > 0); } return j; } /** * Translates a state to a row index in the transition table */ private static final int [] ZZ_ROWMAP = zzUnpackRowMap(); private static final String ZZ_ROWMAP_PACKED_0 = "\0\0\0\57\0\136\0\215\0\274\0\353\0\u011a\0\u0149"+ "\0\u0178\0\u01a7\0\u01d6\0\u0205\0\u0205\0\u0205\0\u0234\0\u0263"+ "\0\u0205\0\u0292\0\u02c1\0\u0205\0\u02f0\0\u01a7\0\u031f\0\u0205"+ "\0\u0205\0\u0205\0\u0205\0\u0205\0\u034e\0\u037d\0\u03ac\0\u03db"+ "\0\u040a\0\u0205\0\u0439\0\u0468\0\u0497\0\u04c6\0\u04f5\0\u0205"+ "\0\u0205\0\u0205\0\u0205\0\u0205\0\u0205\0\u0205\0\u0205\0\u0205"+ "\0\u0205\0\u0205\0\u0205\0\u0524\0\u0553\0\u0582\0\u05b1\0\u05e0"+ "\0\u0205\0\u0205\0\u0205\0\u060f\0\u0205\0\u063e\0\u0205\0\u0205"+ "\0\u066d\0\u0205\0\u0205\0\u0205\0\u069c\0\u06cb\0\u06fa\0\u0729"+ "\0\u0205\0\u0758\0\u0787\0\u07b6\0\u07e5\0\u0814\0\u0205\0\u0843"+ "\0\u0872\0\u0205\0\u0205\0\u08a1\0\u08d0\0\u08ff\0\u0468\0\u092e"+ "\0\u095d\0\u0205\0\u098c\0\u09bb\0\u09ea\0\u0205\0\u0a19\0\u0a48"+ "\0\u0843\0\u0a77\0\u0aa6\0\u0ad5\0\u0205\0\u0b04\0\u0b33\0\u0b62"+ "\0\u0b91\0\u0bc0\0\u0205\0\u0bef\0\u0c1e\0\u0c4d\0\u0205"; private static int [] zzUnpackRowMap() { int [] result = new int[111]; int offset = 0; offset = zzUnpackRowMap(ZZ_ROWMAP_PACKED_0, offset, result); return result; } private static int zzUnpackRowMap(String packed, int offset, int [] result) { int i = 0; /* index in packed string */ int j = offset; /* index in unpacked array */ int l = packed.length(); while (i < l) { int high = packed.charAt(i++) << 16; result[j++] = high | packed.charAt(i++); } return j; } /** * The transition table of the DFA */ private static final int [] ZZ_TRANS = zzUnpackTrans(); private static final String ZZ_TRANS_PACKED_0 = "\17\0\1\12\2\0\1\13\34\0\1\14\1\15\1\16"+ "\1\17\1\20\1\14\1\21\1\22\1\16\1\23\1\15"+ "\1\17\1\16\1\24\1\25\1\26\2\14\1\27\5\14"+ "\2\15\1\14\2\15\1\30\1\31\1\32\1\33\1\34"+ "\1\14\1\15\1\35\2\15\1\16\1\15\1\25\1\36"+ "\1\37\1\40\1\41\1\42\1\14\1\15\1\16\1\17"+ "\1\20\1\14\1\21\1\43\1\16\1\23\1\15\1\17"+ "\1\44\1\45\1\46\1\26\2\14\1\27\5\14\2\15"+ "\1\14\2\15\1\30\1\31\1\32\1\33\1\34\1\14"+ "\1\15\1\35\2\15\1\47\1\15\1\46\1\36\1\37"+ "\1\40\1\41\1\42\1\14\1\15\1\16\1\17\1\20"+ "\1\14\1\50\1\22\1\16\1\23\1\15\1\17\1\16"+ "\1\24\1\25\1\26\2\14\1\27\1\51\1\52\1\53"+ "\1\54\1\55\1\56\1\57\1\60\1\61\1\62\1\30"+ "\1\31\1\32\1\33\1\34\1\14\1\15\1\35\2\15"+ "\1\16\1\15\1\25\1\36\1\37\1\40\1\41\1\42"+ "\1\14\1\15\1\16\1\17\1\20\1\14\1\50\1\43"+ "\1\16\1\23\1\15\1\17\1\44\1\45\1\46\1\26"+ "\2\14\1\27\1\51\1\52\1\53\1\54\1\55\1\56"+ "\1\57\1\60\1\61\1\62\1\30\1\31\1\32\1\33"+ "\1\34\1\14\1\15\1\35\2\15\1\47\1\15\1\46"+ "\1\36\1\37\1\40\1\41\1\42\1\14\1\15\1\16"+ "\1\17\1\20\1\14\1\63\1\22\1\16\1\23\1\15"+ "\1\17\1\16\1\24\1\25\1\26\2\14\1\27\1\51"+ "\1\52\1\53\1\54\1\55\1\56\1\57\1\60\1\61"+ "\1\62\1\30\1\31\1\32\1\33\1\34\1\14\1\15"+ "\1\35\2\15\1\16\1\15\1\25\1\36\1\37\1\40"+ "\1\41\1\42\1\14\1\15\1\16\1\17\1\20\1\14"+ "\1\63\1\43\1\16\1\23\1\15\1\17\1\44\1\45"+ "\1\46\1\26\2\14\1\27\1\51\1\52\1\53\1\54"+ "\1\55\1\56\1\57\1\60\1\61\1\62\1\30\1\31"+ "\1\32\1\33\1\34\1\14\1\15\1\35\2\15\1\47"+ "\1\15\1\46\1\36\1\37\1\40\1\41\1\42\7\0"+ "\1\64\4\0\1\65\1\66\46\0\1\67\51\0\17\70"+ "\2\0\36\70\17\0\1\12\171\0\1\71\1\0\1\71"+ "\6\0\1\72\113\0\1\73\23\0\1\74\50\0\1\75"+ "\5\0\1\75\2\0\1\75\3\0\1\75\11\0\2\75"+ "\1\0\2\75\1\0\3\75\2\0\1\75\1\0\2\75"+ "\1\0\2\75\12\0\1\72\11\0\1\12\104\0\1\76"+ "\64\0\1\77\5\0\2\100\1\101\3\0\2\100\1\0"+ "\3\100\4\0\1\101\12\0\1\100\6\0\1\100\2\0"+ "\1\100\2\0\4\100\54\0\1\102\1\0\1\103\3\0"+ "\2\104\1\105\3\0\2\104\1\0\3\104\4\0\1\105"+ "\12\0\1\104\6\0\1\104\2\0\1\104\2\0\4\104"+ "\11\0\1\106\31\0\1\73\26\0\1\107\56\0\1\107"+ "\3\0\1\110\41\0\1\111\5\0\1\111\2\0\1\111"+ "\3\0\1\111\11\0\2\111\1\0\2\111\1\0\3\111"+ "\2\0\1\111\1\0\2\111\1\0\2\111\50\0\1\112"+ "\4\0\1\113\16\0\1\114\60\0\1\115\56\0\1\115"+ "\3\0\1\116\44\0\1\117\15\0\1\117\34\0\17\70"+ "\1\0\1\120\1\121\35\70\43\0\1\122\61\0\1\123"+ "\15\0\1\124\56\0\1\125\55\0\1\126\4\0\1\127"+ "\10\0\1\126\47\0\1\130\47\0\1\131\7\0\1\127"+ "\5\0\1\131\42\0\1\132\56\0\1\132\1\133\1\134"+ "\52\0\1\135\4\0\1\65\10\0\1\135\47\0\1\136"+ "\47\0\1\137\7\0\1\65\5\0\1\137\53\0\1\140"+ "\37\0\17\70\1\0\1\141\1\121\35\70\2\0\2\100"+ "\4\0\2\100\1\0\3\100\17\0\1\100\6\0\1\100"+ "\2\0\1\100\2\0\4\100\3\0\2\104\4\0\2\104"+ "\1\0\3\104\17\0\1\104\6\0\1\104\2\0\1\104"+ "\2\0\4\104\6\0\1\142\55\0\1\143\15\0\1\143"+ "\41\0\1\144\57\0\1\145\54\0\1\146\3\0\1\147"+ "\11\0\1\146\41\0\1\150\56\0\1\151\72\0\1\152"+ "\46\0\1\127\52\0\1\153\65\0\1\127\47\0\1\154"+ "\114\0\1\155\24\0\1\65\61\0\1\65\42\0\17\156"+ "\2\0\36\156\10\0\1\147\54\0\1\157\50\0\17\156"+ "\1\0\1\72\36\156"; private static int [] zzUnpackTrans() { int [] result = new int[3196]; int offset = 0; offset = zzUnpackTrans(ZZ_TRANS_PACKED_0, offset, result); return result; } private static int zzUnpackTrans(String packed, int offset, int [] result) { int i = 0; /* index in packed string */ int j = offset; /* index in unpacked array */ int l = packed.length(); while (i < l) { int count = packed.charAt(i++); int value = packed.charAt(i++); value--; do result[j++] = value; while (--count > 0); } return j; } /* error codes */ private static final int ZZ_UNKNOWN_ERROR = 0; private static final int ZZ_NO_MATCH = 1; private static final int ZZ_PUSHBACK_2BIG = 2; /* error messages for the codes above */ private static final String ZZ_ERROR_MSG[] = { "Unkown internal scanner error", "Error: could not match input", "Error: pushback value was too large" }; /** * ZZ_ATTRIBUTE[aState] contains the attributes of state <code>aState</code> */ private static final int [] ZZ_ATTRIBUTE = zzUnpackAttribute(); private static final String ZZ_ATTRIBUTE_PACKED_0 = "\10\0\1\1\2\0\3\11\2\1\1\11\2\1\1\11"+ "\3\1\5\11\5\1\1\11\5\1\14\11\5\0\3\11"+ "\1\0\1\11\1\0\2\11\1\0\3\11\4\0\1\11"+ "\5\0\1\11\2\0\2\11\4\0\1\1\1\0\1\11"+ "\3\0\1\11\2\0\1\1\3\0\1\11\5\0\1\11"+ "\3\0\1\11"; private static int [] zzUnpackAttribute() { int [] result = new int[111]; int offset = 0; offset = zzUnpackAttribute(ZZ_ATTRIBUTE_PACKED_0, offset, result); return result; } private static int zzUnpackAttribute(String packed, int offset, int [] result) { int i = 0; /* index in packed string */ int j = offset; /* index in unpacked array */ int l = packed.length(); while (i < l) { int count = packed.charAt(i++); int value = packed.charAt(i++); do result[j++] = value; while (--count > 0); } return j; } /** the input device */ private java.io.Reader zzReader; /** the current state of the DFA */ private int zzState; /** the current lexical state */ private int zzLexicalState = YYINITIAL; /** this buffer contains the current text to be matched and is the source of the yytext() string */ private char zzBuffer[] = new char[ZZ_BUFFERSIZE]; /** the textposition at the last accepting state */ private int zzMarkedPos; /** the current text position in the buffer */ private int zzCurrentPos; /** startRead marks the beginning of the yytext() string in the buffer */ private int zzStartRead; /** endRead marks the last character in the buffer, that has been read from input */ private int zzEndRead; /** number of newlines encountered up to the start of the matched text */ private int yyline; /** the number of characters up to the start of the matched text */ private int yychar; /** * the number of characters from the last newline up to the start of the * matched text */ private int yycolumn; /** * zzAtBOL == true <=> the scanner is currently at the beginning of a line */ private boolean zzAtBOL = true; /** zzAtEOF == true <=> the scanner is at the EOF */ private boolean zzAtEOF; /** denotes if the user-EOF-code has already been executed */ private boolean zzEOFDone; /** For the backwards DFA of general lookahead statements */ private boolean [] zzFin = new boolean [ZZ_BUFFERSIZE+1]; /* user code: */ private static final int CONS = 1; private static final int VOWEL = 2; private int cv = 0; // consonant = 1, vowel = 2, everything else = 0 private String original = ""; private String normalized = ""; private int problem = 0; private void add (String norm) { original += yytext(); normalized += norm; } private static final String LB = "[\u002d\u00ad] "; /** * Creates a new scanner * There is also a java.io.InputStream version of this constructor. * * @param in the java.io.Reader to read input from. */ public MpdlNormalizerLexIT(java.io.Reader in) { this.zzReader = in; } /** * Creates a new scanner. * There is also java.io.Reader version of this constructor. * * @param in the java.io.Inputstream to read input from. */ public MpdlNormalizerLexIT(java.io.InputStream in) { this(new java.io.InputStreamReader(in)); } /** * Unpacks the compressed character translation table. * * @param packed the packed character translation table * @return the unpacked character translation table */ private static char [] zzUnpackCMap(String packed) { char [] map = new char[0x10000]; int i = 0; /* index in packed string */ int j = 0; /* index in unpacked array */ while (i < 184) { int count = packed.charAt(i++); char value = packed.charAt(i++); do map[j++] = value; while (--count > 0); } return map; } /** * Refills the input buffer. * * @return <code>false</code>, iff there was new input. * * @exception java.io.IOException if any I/O-Error occurs */ private boolean zzRefill() throws java.io.IOException { /* first: make room (if you can) */ if (zzStartRead > 0) { System.arraycopy(zzBuffer, zzStartRead, zzBuffer, 0, zzEndRead-zzStartRead); /* translate stored positions */ zzEndRead-= zzStartRead; zzCurrentPos-= zzStartRead; zzMarkedPos-= zzStartRead; zzStartRead = 0; } /* is the buffer big enough? */ if (zzCurrentPos >= zzBuffer.length) { /* if not: blow it up */ char newBuffer[] = new char[zzCurrentPos*2]; System.arraycopy(zzBuffer, 0, newBuffer, 0, zzBuffer.length); zzBuffer = newBuffer; } /* finally: fill the buffer with new input */ int numRead = zzReader.read(zzBuffer, zzEndRead, zzBuffer.length-zzEndRead); if (numRead > 0) { zzEndRead+= numRead; return false; } // unlikely but not impossible: read 0 characters, but not at end of stream if (numRead == 0) { int c = zzReader.read(); if (c == -1) { return true; } else { zzBuffer[zzEndRead++] = (char) c; return false; } } // numRead < 0 return true; } /** * Closes the input stream. */ public final void yyclose() throws java.io.IOException { zzAtEOF = true; /* indicate end of file */ zzEndRead = zzStartRead; /* invalidate buffer */ if (zzReader != null) zzReader.close(); } /** * Resets the scanner to read from a new input stream. * Does not close the old reader. * * All internal variables are reset, the old input stream * <b>cannot</b> be reused (internal buffer is discarded and lost). * Lexical state is set to <tt>ZZ_INITIAL</tt>. * * @param reader the new input stream */ public final void yyreset(java.io.Reader reader) { zzReader = reader; zzAtBOL = true; zzAtEOF = false; zzEOFDone = false; zzEndRead = zzStartRead = 0; zzCurrentPos = zzMarkedPos = 0; yyline = yychar = yycolumn = 0; zzLexicalState = YYINITIAL; } /** * Returns the current lexical state. */ public final int yystate() { return zzLexicalState; } /** * Enters a new lexical state * * @param newState the new lexical state */ public final void yybegin(int newState) { zzLexicalState = newState; } /** * Returns the text matched by the current regular expression. */ public final String yytext() { return new String( zzBuffer, zzStartRead, zzMarkedPos-zzStartRead ); } /** * Returns the character at position <tt>pos</tt> from the * matched text. * * It is equivalent to yytext().charAt(pos), but faster * * @param pos the position of the character to fetch. * A value from 0 to yylength()-1. * * @return the character at position pos */ public final char yycharat(int pos) { return zzBuffer[zzStartRead+pos]; } /** * Returns the length of the matched text region. */ public final int yylength() { return zzMarkedPos-zzStartRead; } /** * Reports an error that occured while scanning. * * In a wellformed scanner (no or only correct usage of * yypushback(int) and a match-all fallback rule) this method * will only be called with things that "Can't Possibly Happen". * If this method is called, something is seriously wrong * (e.g. a JFlex bug producing a faulty scanner etc.). * * Usual syntax/scanner level error handling should be done * in error fallback rules. * * @param errorCode the code of the errormessage to display */ private void zzScanError(int errorCode) { String message; try { message = ZZ_ERROR_MSG[errorCode]; } catch (ArrayIndexOutOfBoundsException e) { message = ZZ_ERROR_MSG[ZZ_UNKNOWN_ERROR]; } throw new Error(message); } /** * Pushes the specified amount of characters back into the input stream. * * They will be read again by then next call of the scanning method * * @param number the number of characters to be read again. * This number must not be greater than yylength()! */ public void yypushback(int number) { if ( number > yylength() ) zzScanError(ZZ_PUSHBACK_2BIG); zzMarkedPos -= number; } /** * Resumes scanning until the next regular expression is matched, * the end of input is encountered or an I/O-Error occurs. * * @return the next token * @exception java.io.IOException if any I/O-Error occurs */ public java.lang.String yylex() throws java.io.IOException { int zzInput; int zzAction; // cached fields: int zzCurrentPosL; int zzMarkedPosL; int zzEndReadL = zzEndRead; char [] zzBufferL = zzBuffer; char [] zzCMapL = ZZ_CMAP; int [] zzTransL = ZZ_TRANS; int [] zzRowMapL = ZZ_ROWMAP; int [] zzAttrL = ZZ_ATTRIBUTE; while (true) { zzMarkedPosL = zzMarkedPos; if (zzMarkedPosL > zzStartRead) { switch (zzBufferL[zzMarkedPosL-1]) { case '\n': case '\u000B': case '\u000C': case '\u0085': case '\u2028': case '\u2029': zzAtBOL = true; break; case '\r': if (zzMarkedPosL < zzEndReadL) zzAtBOL = zzBufferL[zzMarkedPosL] != '\n'; else if (zzAtEOF) zzAtBOL = false; else { boolean eof = zzRefill(); zzMarkedPosL = zzMarkedPos; zzEndReadL = zzEndRead; zzBufferL = zzBuffer; if (eof) zzAtBOL = false; else zzAtBOL = zzBufferL[zzMarkedPosL] != '\n'; } break; default: zzAtBOL = false; } } zzAction = -1; zzCurrentPosL = zzCurrentPos = zzStartRead = zzMarkedPosL; if (zzAtBOL) zzState = ZZ_LEXSTATE[zzLexicalState+1]; else zzState = ZZ_LEXSTATE[zzLexicalState]; zzForAction: { while (true) { if (zzCurrentPosL < zzEndReadL) zzInput = zzBufferL[zzCurrentPosL++]; else if (zzAtEOF) { zzInput = YYEOF; break zzForAction; } else { // store back cached positions zzCurrentPos = zzCurrentPosL; zzMarkedPos = zzMarkedPosL; boolean eof = zzRefill(); // get translated positions and possibly new buffer zzCurrentPosL = zzCurrentPos; zzMarkedPosL = zzMarkedPos; zzBufferL = zzBuffer; zzEndReadL = zzEndRead; if (eof) { zzInput = YYEOF; break zzForAction; } else { zzInput = zzBufferL[zzCurrentPosL++]; } } int zzNext = zzTransL[ zzRowMapL[zzState] + zzCMapL[zzInput] ]; if (zzNext == -1) break zzForAction; zzState = zzNext; int zzAttributes = zzAttrL[zzState]; if ( (zzAttributes & 1) == 1 ) { zzAction = zzState; zzMarkedPosL = zzCurrentPosL; if ( (zzAttributes & 8) == 8 ) break zzForAction; } } } // store back cached position zzMarkedPos = zzMarkedPosL; switch (zzAction < 0 ? zzAction : ZZ_ACTION[zzAction]) { case 33: // lookahead expression with fixed base length zzMarkedPos = zzStartRead + 1; { cv = CONS; add("U"); } case 41: break; case 14: { add("Á"); } case 42: break; case 40: // lookahead expression with fixed lookahead length yypushback(1); { add(yytext()); } case 43: break; case 39: // lookahead expression with fixed base length zzMarkedPos = zzStartRead + 3; { add(yytext()); } case 44: break; case 38: // lookahead expression with fixed base length zzMarkedPos = zzStartRead + 2; { add(yytext()); } case 45: break; case 26: { add(yytext()); } case 46: break; case 21: { add("í"); } case 47: break; case 8: { cv = VOWEL; add("AE"); } case 48: break; case 11: { problem = 1; cv = 0; add(yytext()); } case 49: break; case 4: { switch (problem) { case 1: return original; default: return normalized; } } case 50: break; case 30: // lookahead expression with fixed base length zzMarkedPos = zzStartRead + 1; { cv = CONS; add("u"); } case 51: break; case 19: { add("á"); } case 52: break; case 1: { cv = 0; add(yytext()); } case 53: break; case 24: { switch (problem) { case 1: return original; default: return normalized.replaceAll(LB, "").toLowerCase(); } } case 54: break; case 34: // lookahead expression with fixed base length zzMarkedPos = zzStartRead + 1; { cv = VOWEL; add(yytext().replaceAll("u", "v").replaceAll("U", "V")); } case 55: break; case 35: { cv = VOWEL; add("zio"); } case 56: break; case 10: { cv = VOWEL; add("OE"); } case 57: break; case 18: { add("Ú"); } case 58: break; case 37: // general lookahead, find correct zzMarkedPos { int zzFState = 7; int zzFPos = zzStartRead; if (zzFin.length <= zzBufferL.length) { zzFin = new boolean[zzBufferL.length+1]; } boolean zzFinL[] = zzFin; while (zzFState != -1 && zzFPos < zzMarkedPos) { if ((zzAttrL[zzFState] & 1) == 1) { zzFinL[zzFPos] = true; } zzInput = zzBufferL[zzFPos++]; zzFState = zzTransL[ zzRowMapL[zzFState] + zzCMapL[zzInput] ]; } if (zzFState != -1 && (zzAttrL[zzFState] & 1) == 1) { zzFinL[zzFPos] = true; } zzFState = 8; zzFPos = zzMarkedPos; while (!zzFinL[zzFPos] || (zzAttrL[zzFState] & 1) != 1) { zzInput = zzBufferL[--zzFPos]; zzFState = zzTransL[ zzRowMapL[zzFState] + zzCMapL[zzInput] ]; }; zzMarkedPos = zzFPos; } { cv = VOWEL; add(yytext().replace("ſ", "s")); } case 59: break; case 3: { cv = CONS; add(yytext()); } case 60: break; case 32: { cv = CONS; add("QU"); } case 61: break; case 15: { add("É"); } case 62: break; case 28: // lookahead expression with fixed base length zzMarkedPos = zzStartRead + 1; { switch(cv) { case VOWEL: add(yytext().replace("u", "v").replace("U", "V")); break; default: cv = VOWEL; add(yytext()); break; } } case 63: break; case 6: { cv = CONS; add("ss"); } case 64: break; case 5: { cv = CONS; add("s"); } case 65: break; case 13: { switch (problem) { case 1: return ""; default: return normalized.replaceAll(LB, ""); } } case 66: break; case 36: { cv = VOWEL; add("ZIO"); } case 67: break; case 2: { cv = VOWEL; add(yytext()); } case 68: break; case 17: { add("Ó"); } case 69: break; case 23: { add("ú"); } case 70: break; case 31: { cv = CONS; add("Qu"); } case 71: break; case 20: { add("é"); } case 72: break; case 7: { cv = VOWEL; add("ae"); } case 73: break; case 12: { add(""); } case 74: break; case 22: { add("ó"); } case 75: break; case 9: { cv = VOWEL; add("oe"); } case 76: break; case 29: { cv = CONS; add("qu"); } case 77: break; case 25: { switch(cv) { case CONS: add(yytext().replace("v", "u").replace("V", "U")); break; default: cv = CONS; add(yytext()); break; } } case 78: break; case 27: { cv = VOWEL; add("ii"); } case 79: break; case 16: { add("Í"); } case 80: break; default: if (zzInput == YYEOF && zzStartRead == zzCurrentPos) { zzAtEOF = true; return null; } else { zzScanError(ZZ_NO_MATCH); } } } } }