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eFaps is a framework used to map objects with or without attached files to
a relational database and optional file systems (only for attaches files). Configurable access control can be provided down to object and attribute level depending on implementation and use case. Depending on requirements, events (like triggers) allow to implement business logic and to separate business logic from user interface.
The framework includes integrations (e.g. webdav, full text search) and a web application as 'simple' configurable user interface. Some best practises, example web application modules (e.g. team work module) support administrators and implementers using this framework.
/* Generated By:JavaCC: Do not edit this line. ValueParserTokenManager.java */
package org.efaps.beans.valueparser;
import java.util.HashSet;
import org.efaps.beans.ValueList;
/** Token Manager. */
public class ValueParserTokenManager implements ValueParserConstants
{
/** Debug output. */
public java.io.PrintStream debugStream = System.out;
/** Set debug output. */
public void setDebugStream(java.io.PrintStream ds) { debugStream = ds; }
private final int jjStopStringLiteralDfa_0(int pos, long active0)
{
switch (pos)
{
case 0:
if ((active0 & 0x4L) != 0L)
{
jjmatchedKind = 1;
return 2;
}
return -1;
default :
return -1;
}
}
private final int jjStartNfa_0(int pos, long active0)
{
return jjMoveNfa_0(jjStopStringLiteralDfa_0(pos, active0), pos + 1);
}
private int jjStopAtPos(int pos, int kind)
{
jjmatchedKind = kind;
jjmatchedPos = pos;
return pos + 1;
}
private int jjMoveStringLiteralDfa0_0()
{
switch(curChar)
{
case 36:
return jjMoveStringLiteralDfa1_0(0x4L);
default :
return jjMoveNfa_0(1, 0);
}
}
private int jjMoveStringLiteralDfa1_0(long active0)
{
try { curChar = input_stream.readChar(); }
catch(java.io.IOException e) {
jjStopStringLiteralDfa_0(0, active0);
return 1;
}
switch(curChar)
{
case 60:
if ((active0 & 0x4L) != 0L)
return jjStopAtPos(1, 2);
break;
default :
break;
}
return jjStartNfa_0(0, active0);
}
static final long[] jjbitVec0 = {
0xfffffffffffffffeL, 0xffffffffffffffffL, 0xffffffffffffffffL, 0xffffffffffffffffL
};
static final long[] jjbitVec2 = {
0x0L, 0x0L, 0xffffffffffffffffL, 0xffffffffffffffffL
};
private int jjMoveNfa_0(int startState, int curPos)
{
int startsAt = 0;
jjnewStateCnt = 3;
int i = 1;
jjstateSet[0] = startState;
int kind = 0x7fffffff;
for (;;)
{
if (++jjround == 0x7fffffff)
ReInitRounds();
if (curChar < 64)
{
long l = 1L << curChar;
do
{
switch(jjstateSet[--i])
{
case 1:
if ((0xffffffefffffffffL & l) != 0L)
{
if (kind > 1)
kind = 1;
jjCheckNAdd(0);
}
else if (curChar == 36)
{
if (kind > 1)
kind = 1;
jjCheckNAdd(2);
}
break;
case 0:
if ((0xffffffefffffffffL & l) == 0L)
break;
if (kind > 1)
kind = 1;
jjCheckNAdd(0);
break;
case 2:
if ((0xefffffefffffffffL & l) == 0L)
break;
if (kind > 1)
kind = 1;
jjCheckNAdd(2);
break;
default : break;
}
} while(i != startsAt);
}
else if (curChar < 128)
{
long l = 1L << (curChar & 077);
do
{
switch(jjstateSet[--i])
{
case 1:
case 0:
if (kind > 1)
kind = 1;
jjCheckNAdd(0);
break;
case 2:
if (kind > 1)
kind = 1;
jjstateSet[jjnewStateCnt++] = 2;
break;
default : break;
}
} while(i != startsAt);
}
else
{
int hiByte = (int)(curChar >> 8);
int i1 = hiByte >> 6;
long l1 = 1L << (hiByte & 077);
int i2 = (curChar & 0xff) >> 6;
long l2 = 1L << (curChar & 077);
do
{
switch(jjstateSet[--i])
{
case 1:
case 0:
if (!jjCanMove_0(hiByte, i1, i2, l1, l2))
break;
if (kind > 1)
kind = 1;
jjCheckNAdd(0);
break;
case 2:
if (!jjCanMove_0(hiByte, i1, i2, l1, l2))
break;
if (kind > 1)
kind = 1;
jjstateSet[jjnewStateCnt++] = 2;
break;
default : break;
}
} while(i != startsAt);
}
if (kind != 0x7fffffff)
{
jjmatchedKind = kind;
jjmatchedPos = curPos;
kind = 0x7fffffff;
}
++curPos;
if ((i = jjnewStateCnt) == (startsAt = 3 - (jjnewStateCnt = startsAt)))
return curPos;
try { curChar = input_stream.readChar(); }
catch(java.io.IOException e) { return curPos; }
}
}
private final int jjStopStringLiteralDfa_1(int pos, long active0)
{
switch (pos)
{
default :
return -1;
}
}
private final int jjStartNfa_1(int pos, long active0)
{
return jjMoveNfa_1(jjStopStringLiteralDfa_1(pos, active0), pos + 1);
}
private int jjMoveStringLiteralDfa0_1()
{
switch(curChar)
{
case 62:
return jjStopAtPos(0, 8);
default :
return jjMoveNfa_1(0, 0);
}
}
static final long[] jjbitVec3 = {
0x1ff00000fffffffeL, 0xffffffffffffc000L, 0xffffffffL, 0x600000000000000L
};
static final long[] jjbitVec4 = {
0x0L, 0x0L, 0x0L, 0xff7fffffff7fffffL
};
static final long[] jjbitVec5 = {
0x0L, 0xffffffffffffffffL, 0xffffffffffffffffL, 0xffffffffffffffffL
};
static final long[] jjbitVec6 = {
0xffffffffffffffffL, 0xffffffffffffffffL, 0xffffL, 0x0L
};
static final long[] jjbitVec7 = {
0xffffffffffffffffL, 0xffffffffffffffffL, 0x0L, 0x0L
};
static final long[] jjbitVec8 = {
0x3fffffffffffL, 0x0L, 0x0L, 0x0L
};
private int jjMoveNfa_1(int startState, int curPos)
{
int startsAt = 0;
jjnewStateCnt = 2;
int i = 1;
jjstateSet[0] = startState;
int kind = 0x7fffffff;
for (;;)
{
if (++jjround == 0x7fffffff)
ReInitRounds();
if (curChar < 64)
{
long l = 1L << curChar;
do
{
switch(jjstateSet[--i])
{
case 0:
if ((0x501800000000L & l) == 0L)
break;
if (kind > 7)
kind = 7;
jjCheckNAdd(1);
break;
case 1:
if ((0x3ff501800000000L & l) == 0L)
break;
if (kind > 7)
kind = 7;
jjCheckNAdd(1);
break;
default : break;
}
} while(i != startsAt);
}
else if (curChar < 128)
{
long l = 1L << (curChar & 077);
do
{
switch(jjstateSet[--i])
{
case 0:
case 1:
if ((0x7fffffeaffffffeL & l) == 0L)
break;
if (kind > 7)
kind = 7;
jjCheckNAdd(1);
break;
default : break;
}
} while(i != startsAt);
}
else
{
int hiByte = (int)(curChar >> 8);
int i1 = hiByte >> 6;
long l1 = 1L << (hiByte & 077);
int i2 = (curChar & 0xff) >> 6;
long l2 = 1L << (curChar & 077);
do
{
switch(jjstateSet[--i])
{
case 0:
case 1:
if (!jjCanMove_1(hiByte, i1, i2, l1, l2))
break;
if (kind > 7)
kind = 7;
jjCheckNAdd(1);
break;
default : break;
}
} while(i != startsAt);
}
if (kind != 0x7fffffff)
{
jjmatchedKind = kind;
jjmatchedPos = curPos;
kind = 0x7fffffff;
}
++curPos;
if ((i = jjnewStateCnt) == (startsAt = 2 - (jjnewStateCnt = startsAt)))
return curPos;
try { curChar = input_stream.readChar(); }
catch(java.io.IOException e) { return curPos; }
}
}
static final int[] jjnextStates = {
};
private static final boolean jjCanMove_0(int hiByte, int i1, int i2, long l1, long l2)
{
switch(hiByte)
{
case 0:
return ((jjbitVec2[i2] & l2) != 0L);
default :
if ((jjbitVec0[i1] & l1) != 0L)
return true;
return false;
}
}
private static final boolean jjCanMove_1(int hiByte, int i1, int i2, long l1, long l2)
{
switch(hiByte)
{
case 0:
return ((jjbitVec4[i2] & l2) != 0L);
case 48:
return ((jjbitVec5[i2] & l2) != 0L);
case 49:
return ((jjbitVec6[i2] & l2) != 0L);
case 51:
return ((jjbitVec7[i2] & l2) != 0L);
case 61:
return ((jjbitVec8[i2] & l2) != 0L);
default :
if ((jjbitVec3[i1] & l1) != 0L)
return true;
return false;
}
}
/** Token literal values. */
public static final String[] jjstrLiteralImages = {
"", null, "\44\74", null, null, null, null, null, "\76", null, null, };
/** Lexer state names. */
public static final String[] lexStateNames = {
"DEFAULT",
"IN_EXPRESSION",
};
/** Lex State array. */
public static final int[] jjnewLexState = {
-1, -1, 1, -1, -1, -1, -1, -1, 0, -1, -1,
};
static final long[] jjtoToken = {
0x187L,
};
static final long[] jjtoSkip = {
0x78L,
};
protected SimpleCharStream input_stream;
private final int[] jjrounds = new int[3];
private final int[] jjstateSet = new int[6];
protected char curChar;
/** Constructor. */
public ValueParserTokenManager(SimpleCharStream stream){
if (SimpleCharStream.staticFlag)
throw new Error("ERROR: Cannot use a static CharStream class with a non-static lexical analyzer.");
input_stream = stream;
}
/** Constructor. */
public ValueParserTokenManager(SimpleCharStream stream, int lexState){
this(stream);
SwitchTo(lexState);
}
/** Reinitialise parser. */
public void ReInit(SimpleCharStream stream)
{
jjmatchedPos = jjnewStateCnt = 0;
curLexState = defaultLexState;
input_stream = stream;
ReInitRounds();
}
private void ReInitRounds()
{
int i;
jjround = 0x80000001;
for (i = 3; i-- > 0;)
jjrounds[i] = 0x80000000;
}
/** Reinitialise parser. */
public void ReInit(SimpleCharStream stream, int lexState)
{
ReInit(stream);
SwitchTo(lexState);
}
/** Switch to specified lex state. */
public void SwitchTo(int lexState)
{
if (lexState >= 2 || lexState < 0)
throw new TokenMgrError("Error: Ignoring invalid lexical state : " + lexState + ". State unchanged.", TokenMgrError.INVALID_LEXICAL_STATE);
else
curLexState = lexState;
}
protected Token jjFillToken()
{
final Token t;
final String curTokenImage;
final int beginLine;
final int endLine;
final int beginColumn;
final int endColumn;
String im = jjstrLiteralImages[jjmatchedKind];
curTokenImage = (im == null) ? input_stream.GetImage() : im;
beginLine = input_stream.getBeginLine();
beginColumn = input_stream.getBeginColumn();
endLine = input_stream.getEndLine();
endColumn = input_stream.getEndColumn();
t = Token.newToken(jjmatchedKind, curTokenImage);
t.beginLine = beginLine;
t.endLine = endLine;
t.beginColumn = beginColumn;
t.endColumn = endColumn;
return t;
}
int curLexState = 0;
int defaultLexState = 0;
int jjnewStateCnt;
int jjround;
int jjmatchedPos;
int jjmatchedKind;
/** Get the next Token. */
public Token getNextToken()
{
Token matchedToken;
int curPos = 0;
EOFLoop :
for (;;)
{
try
{
curChar = input_stream.BeginToken();
}
catch(java.io.IOException e)
{
jjmatchedKind = 0;
matchedToken = jjFillToken();
return matchedToken;
}
switch(curLexState)
{
case 0:
jjmatchedKind = 0x7fffffff;
jjmatchedPos = 0;
curPos = jjMoveStringLiteralDfa0_0();
break;
case 1:
try { input_stream.backup(0);
while (curChar <= 32 && (0x100002600L & (1L << curChar)) != 0L)
curChar = input_stream.BeginToken();
}
catch (java.io.IOException e1) { continue EOFLoop; }
jjmatchedKind = 0x7fffffff;
jjmatchedPos = 0;
curPos = jjMoveStringLiteralDfa0_1();
break;
}
if (jjmatchedKind != 0x7fffffff)
{
if (jjmatchedPos + 1 < curPos)
input_stream.backup(curPos - jjmatchedPos - 1);
if ((jjtoToken[jjmatchedKind >> 6] & (1L << (jjmatchedKind & 077))) != 0L)
{
matchedToken = jjFillToken();
if (jjnewLexState[jjmatchedKind] != -1)
curLexState = jjnewLexState[jjmatchedKind];
return matchedToken;
}
else
{
if (jjnewLexState[jjmatchedKind] != -1)
curLexState = jjnewLexState[jjmatchedKind];
continue EOFLoop;
}
}
int error_line = input_stream.getEndLine();
int error_column = input_stream.getEndColumn();
String error_after = null;
boolean EOFSeen = false;
try { input_stream.readChar(); input_stream.backup(1); }
catch (java.io.IOException e1) {
EOFSeen = true;
error_after = curPos <= 1 ? "" : input_stream.GetImage();
if (curChar == '\n' || curChar == '\r') {
error_line++;
error_column = 0;
}
else
error_column++;
}
if (!EOFSeen) {
input_stream.backup(1);
error_after = curPos <= 1 ? "" : input_stream.GetImage();
}
throw new TokenMgrError(EOFSeen, curLexState, error_line, error_column, error_after, curChar, TokenMgrError.LEXICAL_ERROR);
}
}
private void jjCheckNAdd(int state)
{
if (jjrounds[state] != jjround)
{
jjstateSet[jjnewStateCnt++] = state;
jjrounds[state] = jjround;
}
}
private void jjAddStates(int start, int end)
{
do {
jjstateSet[jjnewStateCnt++] = jjnextStates[start];
} while (start++ != end);
}
private void jjCheckNAddTwoStates(int state1, int state2)
{
jjCheckNAdd(state1);
jjCheckNAdd(state2);
}
}