📄 wildcardhelper.java
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}
matchBegin = false;
}
// Advance buffpos
buffpos += (charpos - exprpos);
// Check for END's
if (exprchr == MATCH_END) {
if (rsltpos > 0) {
map.put(Integer.toString(++mcount),
new String(rslt, 0, rsltpos));
}
// Don't care about rest of input buffer
return (true);
} else if (exprchr == MATCH_THEEND) {
if (rsltpos > 0) {
map.put(Integer.toString(++mcount),
new String(rslt, 0, rsltpos));
}
// Check that we reach buffer's end
return (buffpos == buff.length);
}
// Search the next expression character
exprpos = ++charpos;
while (expr[charpos] >= 0) {
charpos++;
}
int prevchr = exprchr;
exprchr = expr[charpos];
// We have here prevchr == * or **.
offset =
(prevchr == MATCH_FILE)
? indexOfArray(expr, exprpos, charpos, buff, buffpos)
: lastIndexOfArray(expr, exprpos, charpos, buff, buffpos);
if (offset < 0) {
return (false);
}
// Copy the data from the source buffer into the result buffer
// to substitute the expression character
if (prevchr == MATCH_PATH) {
while (buffpos < offset) {
rslt[rsltpos++] = buff[buffpos++];
}
} else {
// Matching file, don't copy '/'
while (buffpos < offset) {
if (buff[buffpos] == '/') {
return (false);
}
rslt[rsltpos++] = buff[buffpos++];
}
}
map.put(Integer.toString(++mcount), new String(rslt, 0, rsltpos));
rsltpos = 0;
}
}
/**
* Get the offset of a part of an int array within a char array. <br> This
* method return the index in d of the first occurrence after dpos of that
* part of array specified by r, starting at rpos and terminating at
* rend.
*
* @param r The array containing the data that need to be matched in
* d.
* @param rpos The index of the first character in r to look for.
* @param rend The index of the last character in r to look for plus 1.
* @param d The array of char that should contain a part of r.
* @param dpos The starting offset in d for the matching.
* @return The offset in d of the part of r matched in d or -1 if that was
* not found.
*/
protected int indexOfArray(int[] r, int rpos, int rend, char[] d,
int dpos) {
// Check if pos and len are legal
if (rend < rpos) {
throw new IllegalArgumentException("rend < rpos");
}
// If we need to match a zero length string return current dpos
if (rend == rpos) {
return (d.length); //?? dpos?
}
// If we need to match a 1 char length string do it simply
if ((rend - rpos) == 1) {
// Search for the specified character
for (int x = dpos; x < d.length; x++) {
if (r[rpos] == d[x]) {
return (x);
}
}
}
// Main string matching loop. It gets executed if the characters to
// match are less then the characters left in the d buffer
while (((dpos + rend) - rpos) <= d.length) {
// Set current startpoint in d
int y = dpos;
// Check every character in d for equity. If the string is matched
// return dpos
for (int x = rpos; x <= rend; x++) {
if (x == rend) {
return (dpos);
}
if (r[x] != d[y++]) {
break;
}
}
// Increase dpos to search for the same string at next offset
dpos++;
}
// The remaining chars in d buffer were not enough or the string
// wasn't matched
return (-1);
}
/**
* Get the offset of a last occurance of an int array within a char array.
* <br> This method return the index in d of the last occurrence after
* dpos of that part of array specified by r, starting at rpos and
* terminating at rend.
*
* @param r The array containing the data that need to be matched in
* d.
* @param rpos The index of the first character in r to look for.
* @param rend The index of the last character in r to look for plus 1.
* @param d The array of char that should contain a part of r.
* @param dpos The starting offset in d for the matching.
* @return The offset in d of the last part of r matched in d or -1 if
* that was not found.
*/
protected int lastIndexOfArray(int[] r, int rpos, int rend, char[] d,
int dpos) {
// Check if pos and len are legal
if (rend < rpos) {
throw new IllegalArgumentException("rend < rpos");
}
// If we need to match a zero length string return current dpos
if (rend == rpos) {
return (d.length); //?? dpos?
}
// If we need to match a 1 char length string do it simply
if ((rend - rpos) == 1) {
// Search for the specified character
for (int x = d.length - 1; x > dpos; x--) {
if (r[rpos] == d[x]) {
return (x);
}
}
}
// Main string matching loop. It gets executed if the characters to
// match are less then the characters left in the d buffer
int l = d.length - (rend - rpos);
while (l >= dpos) {
// Set current startpoint in d
int y = l;
// Check every character in d for equity. If the string is matched
// return dpos
for (int x = rpos; x <= rend; x++) {
if (x == rend) {
return (l);
}
if (r[x] != d[y++]) {
break;
}
}
// Decrease l to search for the same string at next offset
l--;
}
// The remaining chars in d buffer were not enough or the string
// wasn't matched
return (-1);
}
/**
* Matches elements of array r from rpos to rend with array d, starting
* from dpos. <br> This method return true if elements of array r from
* rpos to rend equals elements of array d starting from dpos to
* dpos+(rend-rpos).
*
* @param r The array containing the data that need to be matched in
* d.
* @param rpos The index of the first character in r to look for.
* @param rend The index of the last character in r to look for.
* @param d The array of char that should start from a part of r.
* @param dpos The starting offset in d for the matching.
* @return true if array d starts from portion of array r.
*/
protected boolean matchArray(int[] r, int rpos, int rend, char[] d,
int dpos) {
if ((d.length - dpos) < (rend - rpos)) {
return (false);
}
for (int i = rpos; i < rend; i++) {
if (r[i] != d[dpos++]) {
return (false);
}
}
return (true);
}
}
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