bool findOne(BufferView * bv, docstring const & searchstr,
bool case_sens, bool whole, bool forward,
- bool find_del, bool check_wrap, bool auto_wrap,
+ bool find_del, bool check_wrap, bool const auto_wrap,
bool instant, bool onlysel)
{
// Clean up previous selections with empty searchstr on instant
}
else if (check_wrap) {
DocIterator cur_orig(bv->cursor());
+ bool wrap = auto_wrap;
if (!auto_wrap) {
docstring q;
if (forward)
"Continue searching from the end?");
int wrap_answer = frontend::Alert::prompt(_("Wrap search?"),
q, 0, 1, _("&Yes"), _("&No"));
- auto_wrap = wrap_answer == 0;
+ wrap = wrap_answer == 0;
}
- if (auto_wrap) {
+ if (wrap) {
if (forward) {
bv->cursor().clear();
bv->cursor().push_back(CursorSlice(bv->buffer().inset()));
bv->cursor().setCursor(doc_iterator_end(&bv->buffer()));
bv->cursor().backwardPos();
}
+ if (auto_wrap) {
+ docstring const msg = forward
+ ? _("Search reached end of document, continuing from beginning.")
+ : _("Search reached beginning of document, continuing from end.");
+ bv->message(msg);
+ }
bv->clearSelection();
if (findOne(bv, searchstr, case_sens, whole, forward,
find_del, false, false, false, false))
int pos_len;
int searched_size;
vector <string> result = vector <string>();
- MatchResult(int len = 0): match_len(len),match_prefix(0),match2end(0), pos(0),leadsize(0),pos_len(-1),searched_size(0) {};
+ MatchResult(int len = 0): match_len(len),match_prefix(0),match2end(0), pos(0),leadsize(0),pos_len(-1),searched_size(0) {}
};
static MatchResult::range interpretMatch(MatchResult &oldres, MatchResult &newres)
class Border {
public:
- Border(int l=0, int u=0) : low(l), upper(u) {};
+ Border(int l=0, int u=0) : low(l), upper(u) {}
int low;
int upper;
};
addAccents("\\textdiv", getutf8(0x00f7));
addAccents("\\div", getutf8(0x00f7));
addAccents("\\o", getutf8(0x00f8));
+ addAccents("\\textcrlambda", getutf8(0x019b));
addAccents("\\j", getutf8(0x0237));
addAccents("\\textalpha", getutf8(0x03b1));
addAccents("\\alpha", getutf8(0x03b1));
addAccents("\\gimel", getutf8(0x05d2));
addAccents("\\hebdalet", getutf8(0x05d3));
addAccents("\\daleth", getutf8(0x05d3));
+ addAccents("\\hebhe", getutf8(0x05d4));
+ addAccents("\\hebvav", getutf8(0x05d5));
+ addAccents("\\hebzayin", getutf8(0x05d6));
+ addAccents("\\hebhet", getutf8(0x05d7));
+ addAccents("\\hebtet", getutf8(0x05d8));
+ addAccents("\\hebyod", getutf8(0x05d9));
+ addAccents("\\hebfinalkaf", getutf8(0x05da));
+ addAccents("\\hebkaf", getutf8(0x05db));
+ addAccents("\\heblamed", getutf8(0x05dc));
+ addAccents("\\hebfinalmem", getutf8(0x05dd));
+ addAccents("\\hebmem", getutf8(0x05de));
+ addAccents("\\hebfinalnun", getutf8(0x05df));
+ addAccents("\\hebnun", getutf8(0x05e0));
+ addAccents("\\hebsamekh", getutf8(0x05e1));
+ addAccents("\\hebayin", getutf8(0x05e2));
+ addAccents("\\hebfinalpe", getutf8(0x05e3));
+ addAccents("\\hebpe", getutf8(0x05e4));
+ addAccents("\\hebfinaltsadi", getutf8(0x05e5));
+ addAccents("\\hebtsadi", getutf8(0x05e6));
+ addAccents("\\hebqof", getutf8(0x05e7));
+ addAccents("\\hebresh", getutf8(0x05e8));
+ addAccents("\\hebshin", getutf8(0x05e9));
+ addAccents("\\hebtav", getutf8(0x05ea));
+
// Thai characters
addAccents("\\thaiKoKai", getutf8(0x0e01));
addAccents("\\thaiKhoKhai", getutf8(0x0e02));
buildKeys(isPatternString);
entries_ = vector<KeyInfo>();
buildEntries(isPatternString);
- };
+ }
int getFirstKey() {
entidx_ = 0;
if (entries_.empty()) {
return -1;
}
return 0;
- };
+ }
int getNextKey() {
entidx_++;
if (int(entries_.size()) > entidx_) {
else {
return -1;
}
- };
+ }
bool setNextKey(int idx) {
if ((idx == entidx_) && (entidx_ >= 0)) {
entidx_--;
}
else
return false;
- };
+ }
int find(int start, KeyInfo::KeyType keytype) const {
if (start < 0)
return -1;
tmpIdx++;
}
return -1;
- };
+ }
int process(ostringstream & os, KeyInfo const & actual);
int dispatch(ostringstream & os, int previousStart, KeyInfo & actual);
- // string show(int lastpos) { return interval.show(lastpos);};
- int nextNotIgnored(int start) { return interval_.nextNotIgnored(start);};
+ // string show(int lastpos) { return interval.show(lastpos);}
+ int nextNotIgnored(int start) { return interval_.nextNotIgnored(start);}
KeyInfo &getKeyInfo(int keyinfo) {
static KeyInfo invalidInfo = KeyInfo();
if ((keyinfo < 0) || ( keyinfo >= int(entries_.size())))
return invalidInfo;
else
return entries_[keyinfo];
- };
- void setForDefaultLang(KeyInfo const & defLang) {interval_.setForDefaultLang(defLang);};
- void addIntervall(int low, int up) { interval_.addIntervall(low, up); };
+ }
+ void setForDefaultLang(KeyInfo const & defLang) {interval_.setForDefaultLang(defLang);}
+ void addIntervall(int low, int up) { interval_.addIntervall(low, up); }
};
m.mathSize = m.mathEnd - m.mathStart;
entries_.push_back(m);
}
- bool empty() const { return entries_.empty(); };
+ bool empty() const { return entries_.empty(); }
size_t getEndPos() const {
if (entries_.empty() || (actualIdx_ >= entries_.size())) {
return 0;
}
return entries_[actualIdx_].mathSize;
}
- void incrEntry() { actualIdx_++; };
+ void incrEntry() { actualIdx_++; }
};
void LatexInfo::buildEntries(bool isPatternString)
max_match.match_len = actual_match_len;
maxl = len;
if (maxl - minl < 4)
- len = (int)((maxl + minl)/2);
+ len = (maxl + minl)/2;
else
- len = (int)(minl + (maxl - minl + 3)/4);
+ len = minl + (maxl - minl + 3)/4;
}
else {
// (actual_match_len < max_match.match_len)
minl = len + 1;
- len = (int)((maxl + minl)/2);
+ len = (maxl + minl)/2;
}
}
len = minl;