org.apache.jena.iri.impl.LexerPath Maven / Gradle / Ivy
/* The following code was generated by JFlex 1.4.3 on 04/03/12 16:02 */
/**
* 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 org.apache.jena.iri.impl;
/**
* This class is a scanner generated by
* JFlex 1.4.3
* on 04/03/12 16:02 from the specification file
* tmp.jflex
*/
class LexerPath extends AbsLexer implements org.apache.jena.iri.ViolationCodes, org.apache.jena.iri.IRIComponents, Lexer {
/** This character denotes the end of file */
private static final int YYEOF = -1;
/** initial size of the lookahead buffer */
private static final int ZZ_BUFFERSIZE = 2048;
/** lexical states */
public static final int YYINITIAL = 0;
/**
* 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, 1
};
/**
* Translates characters to character classes
*/
private static final String ZZ_CMAP_PACKED =
"\11\15\1\1\1\1\2\15\1\1\22\15\1\14\1\6\1\20\1\0"+
"\1\6\1\7\7\6\1\5\1\2\1\3\1\11\1\12\1\10\7\12"+
"\1\4\1\6\1\20\1\6\1\20\1\0\1\4\6\12\24\5\1\0"+
"\1\20\1\0\1\20\1\5\1\20\1\13\5\13\24\5\3\20\1\5"+
"\6\17\1\16\32\17\ud760\23\u0400\21\u0400\22\u2000\23";
/**
* 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 =
"\2\0\1\1\1\2\2\3\1\4\1\5\1\6\1\7"+
"\1\10\1\11\1\12\1\13\1\14\2\15\1\16\1\3"+
"\1\17\1\20\3\0\1\21\1\22\1\0\1\23\1\24"+
"\1\25\1\26\1\27\1\30\1\31\1\0";
private static int [] zzUnpackAction() {
int [] result = new int[35];
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\24\0\50\0\50\0\50\0\74\0\50\0\50"+
"\0\50\0\120\0\144\0\50\0\50\0\50\0\50\0\170"+
"\0\50\0\50\0\214\0\144\0\240\0\264\0\310\0\334"+
"\0\50\0\50\0\360\0\u0104\0\50\0\50\0\50\0\50"+
"\0\u0118\0\50\0\214";
private static int [] zzUnpackRowMap() {
int [] result = new int[35];
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 =
"\1\3\1\4\1\5\1\6\1\7\1\10\1\11\1\12"+
"\4\10\1\13\1\14\1\15\1\16\1\17\1\20\1\21"+
"\1\22\1\3\1\4\1\23\1\6\1\7\1\10\1\11"+
"\1\12\4\10\1\24\1\14\1\15\1\16\1\17\1\20"+
"\1\21\1\22\26\0\1\25\31\0\1\26\2\27\1\30"+
"\24\0\1\31\31\0\1\32\3\0\1\33\23\0\1\34"+
"\1\35\30\0\1\36\1\37\1\36\1\40\20\0\3\36"+
"\1\40\20\0\4\40\13\0\1\41\23\0\1\42\22\0"+
"\1\43\21\0";
private static int [] zzUnpackTrans() {
int [] result = new int[300];
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 aState
*/
private static final int [] ZZ_ATTRIBUTE = zzUnpackAttribute();
private static final String ZZ_ATTRIBUTE_PACKED_0 =
"\2\0\3\11\1\1\3\11\2\1\4\11\1\1\2\11"+
"\3\1\3\0\2\11\1\0\1\1\4\11\1\1\1\11"+
"\1\0";
private static int [] zzUnpackAttribute() {
int [] result = new int[35];
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;
/* user code: */
private int lastChar;
@Override
char[] zzBuffer() {
yyreset(null);
this.zzAtEOF = true;
int length = parser.end(range)-parser.start(range);
lastChar = length - 1;
zzEndRead = length;
while (length > zzBuffer.length)
zzBuffer = new char[zzBuffer.length*2];
return zzBuffer;
}
/**
* 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.
*/
LexerPath(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.
*/
LexerPath(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 < 94) {
int count = packed.charAt(i++);
char value = packed.charAt(i++);
do map[j++] = value; while (--count > 0);
}
return map;
}
/**
* Refills the input buffer.
*
* @return false, 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.
*/
private 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
* cannot be reused (internal buffer is discarded and lost).
* Lexical state is set to ZZ_INITIAL.
*
* @param reader the new input stream
*/
private 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.
*/
private final int yystate() {
return zzLexicalState;
}
/**
* Enters a new lexical state
*
* @param newState the new lexical state
*/
private final void yybegin(int newState) {
zzLexicalState = newState;
}
/**
* Returns the text matched by the current regular expression.
*/
@Override final String yytext() {
return new String( zzBuffer, zzStartRead, zzMarkedPos-zzStartRead );
}
/**
* Returns the character at position pos 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
*/
private final char yycharat(int pos) {
return zzBuffer[zzStartRead+pos];
}
/**
* Returns the length of the matched text region.
*/
private 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
*/
@Override
public int 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;
yychar+= zzMarkedPosL-zzStartRead;
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 17:
{ rule(-70);
error(DOUBLE_WHITESPACE);
}
case 26: break;
case 11:
{ rule(-115);
error(DISCOURAGED_XML_CHARACTER);
error(CONTROL_CHARACTER);
}
case 27: break;
case 14:
{ /*
xxxx,xxxx,xxxx,xxxx xxxx,xxxx,xxxx,xxxx
000u,uuuu,xxxx,xxxx,xxxx,xxxx 110110wwww,xxxx,xx 110111xx,xxxx,xxxx
wwww = uuuuu - 1.
*/
rule(-150);
difficultChar();
}
case 28: break;
case 20:
{ rule(5); error(NON_INITIAL_DOT_SEGMENT);
}
case 29: break;
case 18:
{ rule(-130);
surrogatePair();
}
case 30: break;
case 25:
{ rule(4); error(NON_INITIAL_DOT_SEGMENT);
}
case 31: break;
case 4:
{ rule(3);
}
case 32: break;
case 21:
{ rule(-40);
error(PERCENT);
}
case 33: break;
case 13:
{ rule(-140);
error(LONE_SURROGATE);
difficultChar();
}
case 34: break;
case 15:
{ rule(-80);
error(DOUBLE_WHITESPACE);
}
case 35: break;
case 23:
{ rule(-50);
error(PERCENT);
error(PERCENT_ENCODING_SHOULD_BE_UPPERCASE);
}
case 36: break;
case 8:
{ rule(-90);
if (yychar==lastChar)
error(DOUBLE_WHITESPACE);
else
error(WHITESPACE);
}
case 37: break;
case 12:
{ rule(-120);
error(UNWISE_CHARACTER);
}
case 38: break;
case 10:
{ rule(-113);
error(CONTROL_CHARACTER);
}
case 39: break;
case 19:
{ rule(7); if (yychar == lastChar-2) error(NON_INITIAL_DOT_SEGMENT);
}
case 40: break;
case 5:
{ rule(-10);
}
case 41: break;
case 24:
{ rule(2);
}
case 42: break;
case 22:
{ rule(-30);
error(PERCENT_20);
}
case 43: break;
case 7:
{ rule(-60);
error(ILLEGAL_PERCENT_ENCODING);
}
case 44: break;
case 16:
{ rule(8); if (yychar == lastChar-1) error(NON_INITIAL_DOT_SEGMENT);
}
case 45: break;
case 6:
{ rule(-20);
}
case 46: break;
case 2:
{ rule(-100);
error(CONTROL_CHARACTER);
error(NOT_XML_SCHEMA_WHITESPACE);
}
case 47: break;
case 1:
{ rule(-160);
error(ILLEGAL_CHARACTER);
}
case 48: break;
case 3:
{ rule(6);
}
case 49: break;
case 9:
{ rule(-110);
error(NON_XML_CHARACTER);
error(CONTROL_CHARACTER);
}
case 50: break;
default:
if (zzInput == YYEOF && zzStartRead == zzCurrentPos) {
zzAtEOF = true;
return YYEOF;
}
else {
zzScanError(ZZ_NO_MATCH);
}
}
}
}
}
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