// returns startOffset found, or -1 if need to continue searching
private static int countNewLinesIn(CharSequence text, int[] pos, int line) {
int offsetInside = 0;
for (int i = StringUtil.indexOf(text, '\n');
i != -1;
i = StringUtil.indexOf(text, '\n', offsetInside)) {
int curLine = ++pos[0];
int lineLength = i + 1 - offsetInside;
int offset = pos[1] += lineLength;
offsetInside += lineLength;
if (curLine == line) return offset;
}
pos[1] += text.length() - offsetInside;
return -1;
}
@Nullable
private static String getPropertyName(@NotNull Document document, int line) {
int startOffset = document.getLineStartOffset(line);
int endOffset =
StringUtil.indexOf(
document.getCharsSequence(), '=', startOffset, document.getLineEndOffset(line));
if (endOffset <= startOffset) {
return null;
}
String propertyName =
document.getCharsSequence().subSequence(startOffset, endOffset).toString().trim();
return propertyName.isEmpty() ? null : propertyName;
}
public static boolean isHashBangLine(CharSequence firstCharsIfText, String marker) {
if (firstCharsIfText == null) {
return false;
}
final int lineBreak = StringUtil.indexOf(firstCharsIfText, '\n');
if (lineBreak < 0) {
return false;
}
String firstLine = firstCharsIfText.subSequence(0, lineBreak).toString();
if (!firstLine.startsWith("#!")) {
return false;
}
return firstLine.contains(marker);
}
public void replace(int initialStart, int length, String replace) {
// calculating fragment
// minimize replace
int start = 0;
int end = start + length;
final int replaceLength = replace.length();
final String chars = getText(start + initialStart, end + initialStart);
if (chars.equals(replace)) return;
int newStartInReplace = 0;
int newEndInReplace = replaceLength;
while (newStartInReplace < replaceLength
&& start < end
&& replace.charAt(newStartInReplace) == chars.charAt(start)) {
start++;
newStartInReplace++;
}
while (start < end
&& newStartInReplace < newEndInReplace
&& replace.charAt(newEndInReplace - 1) == chars.charAt(end - 1)) {
newEndInReplace--;
end--;
}
// optimization: when delete fragment from the middle of the text, prefer split at the line
// boundaries
if (newStartInReplace == newEndInReplace
&& start > 0
&& start < end
&& StringUtil.indexOf(chars, '\n', start, end) != -1) {
// try to align to the line boundaries
while (start > 0
&& newStartInReplace > 0
&& chars.charAt(start - 1) == chars.charAt(end - 1)
&& chars.charAt(end - 1) != '\n') {
start--;
end--;
newStartInReplace--;
newEndInReplace--;
}
}
// [mike] dirty hack for xml:
// make sure that deletion of <t> in: <tag><t/><tag> doesn't remove t/><
// which is perfectly valid but invalidates range markers
start += initialStart;
end += initialStart;
final CharSequence charsSequence = myDocument.getCharsSequence();
while (start < charsSequence.length()
&& end < charsSequence.length()
&& start > 0
&& charsSequence.subSequence(start, end).toString().endsWith("><")
&& charsSequence.charAt(start - 1) == '<') {
start--;
newStartInReplace--;
end--;
newEndInReplace--;
}
replace = replace.substring(newStartInReplace, newEndInReplace);
length = end - start;
final Pair<MutableTextRange, StringBuffer> fragment = getFragmentByRange(start, length);
final StringBuffer fragmentReplaceText = fragment.getSecond();
final int startInFragment = start - fragment.getFirst().getStartOffset();
// text range adjustment
final int lengthDiff = replace.length() - length;
final Iterator<Pair<MutableTextRange, StringBuffer>> iterator =
myAffectedFragments.iterator();
boolean adjust = false;
while (iterator.hasNext()) {
final Pair<MutableTextRange, StringBuffer> pair = iterator.next();
if (adjust) pair.getFirst().shift(lengthDiff);
if (pair == fragment) adjust = true;
}
fragmentReplaceText.replace(startInFragment, startInFragment + length, replace);
}
public void replace(
int psiStart, int length, @NotNull String replace, @Nullable PsiElement replacement) {
// calculating fragment
// minimize replace
int start = 0;
int end = start + length;
final CharSequence chars = myPsiText.subSequence(psiStart, psiStart + length);
if (StringUtil.equals(chars, replace)) return;
int newStartInReplace = 0;
final int replaceLength = replace.length();
while (newStartInReplace < replaceLength
&& start < end
&& replace.charAt(newStartInReplace) == chars.charAt(start)) {
start++;
newStartInReplace++;
}
int newEndInReplace = replaceLength;
while (start < end
&& newStartInReplace < newEndInReplace
&& replace.charAt(newEndInReplace - 1) == chars.charAt(end - 1)) {
newEndInReplace--;
end--;
}
// increase the changed range to start and end on PSI token boundaries
// this will help to survive smart pointers with the same boundaries
if (replacement != null && (newStartInReplace > 0 || newEndInReplace < replaceLength)) {
PsiElement startLeaf = replacement.findElementAt(newStartInReplace);
PsiElement endLeaf = replacement.findElementAt(newEndInReplace - 1);
if (startLeaf != null && endLeaf != null) {
int leafStart =
startLeaf.getTextRange().getStartOffset()
- replacement.getTextRange().getStartOffset();
int leafEnd =
endLeaf.getTextRange().getEndOffset() - replacement.getTextRange().getStartOffset();
start += leafStart - newStartInReplace;
end += leafEnd - newEndInReplace;
newStartInReplace = leafStart;
newEndInReplace = leafEnd;
}
}
// optimization: when delete fragment from the middle of the text, prefer split at the line
// boundaries
if (newStartInReplace == newEndInReplace
&& start > 0
&& start < end
&& StringUtil.indexOf(chars, '\n', start, end) != -1) {
// try to align to the line boundaries
while (start > 0
&& newStartInReplace > 0
&& chars.charAt(start - 1) == chars.charAt(end - 1)
&& chars.charAt(end - 1) != '\n') {
start--;
end--;
newStartInReplace--;
newEndInReplace--;
}
}
start += psiStart;
end += psiStart;
// [mike] dirty hack for xml:
// make sure that deletion of <t> in: <tag><t/><tag> doesn't remove t/><
// which is perfectly valid but invalidates range markers
final CharSequence charsSequence = myPsiText;
while (start < charsSequence.length()
&& end < charsSequence.length()
&& start > 0
&& charsSequence.subSequence(start, end).toString().endsWith("><")
&& charsSequence.charAt(start - 1) == '<') {
start--;
newStartInReplace--;
end--;
newEndInReplace--;
}
updateFragments(start, end, replace.substring(newStartInReplace, newEndInReplace));
}
public int matchingDegree(@NotNull String name) {
FList<TextRange> iterable = matchingFragments(name);
if (iterable == null) return Integer.MIN_VALUE;
if (iterable.isEmpty()) return 0;
final TextRange first = iterable.getHead();
boolean startMatch = first.getStartOffset() == 0;
int matchingCase = 0;
int p = -1;
int integral =
0; // -sum of matching-char-count * hump-index over all matched humps; favors longer
// fragments matching earlier words
int humpIndex = 1;
int nextHumpStart = 0;
for (TextRange range : iterable) {
for (int i = range.getStartOffset(); i < range.getEndOffset(); i++) {
boolean isHumpStart = false;
while (nextHumpStart <= i) {
if (nextHumpStart == i) {
isHumpStart = true;
}
nextHumpStart = NameUtil.nextWord(name, nextHumpStart);
if (first != range) {
humpIndex++;
}
}
integral -= humpIndex;
char c = name.charAt(i);
p = StringUtil.indexOf(myPattern, c, p + 1, myPattern.length, false);
if (p < 0) {
break;
}
if (c == myPattern[p]) {
if (isUpperCase[p])
matchingCase +=
50; // strongly prefer user's uppercase matching uppercase: they made an effort to
// press Shift
else if (i == 0 && startMatch)
matchingCase += 15; // the very first letter case distinguishes classes in Java etc
else if (isHumpStart)
matchingCase +=
1; // if a lowercase matches lowercase hump start, that also means something
} else if (isHumpStart) {
// disfavor hump starts where pattern letter case doesn't match name case
matchingCase -= 20;
}
}
}
int startIndex = first.getStartOffset();
boolean afterSeparator = StringUtil.indexOfAny(name, HARD_SEPARATORS, 0, startIndex) >= 0;
boolean wordStart =
startIndex == 0 || isWordStart(name, startIndex) && !isWordStart(name, startIndex - 1);
boolean finalMatch = iterable.get(iterable.size() - 1).getEndOffset() == name.length();
return (wordStart ? 1000 : 0)
+ integral * 10
+ matchingCase * (startMatch ? 10 : 1)
+ // in start matches, case is more important; in middle matches - fragment length
// (integral)
(afterSeparator ? 0 : 2)
+ (finalMatch ? 1 : 0);
}
