/** * \file Paragraph.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Asger Alstrup * \author Lars Gullik Bjønnes * \author Richard Kimberly Heck (XHTML output) * \author Jean-Marc Lasgouttes * \author Angus Leeming * \author John Levon * \author André Pönitz * \author Dekel Tsur * \author Jürgen Vigna * * Full author contact details are available in file CREDITS. */ #include #include "Paragraph.h" #include "Buffer.h" #include "BufferParams.h" #include "BufferEncodings.h" #include "Changes.h" #include "Counters.h" #include "InsetList.h" #include "Language.h" #include "LaTeXFeatures.h" #include "Layout.h" #include "Font.h" #include "FontList.h" #include "LyXRC.h" #include "OutputParams.h" #include "output_latex.h" #include "output_xhtml.h" #include "output_docbook.h" #include "ParagraphParameters.h" #include "Session.h" #include "SpellChecker.h" #include "texstream.h" #include "TexRow.h" #include "Text.h" #include "TextClass.h" #include "WordLangTuple.h" #include "WordList.h" #include "frontends/alert.h" #include "insets/InsetArgument.h" #include "insets/InsetBibitem.h" #include "insets/InsetLabel.h" #include "insets/InsetSpecialChar.h" #include "insets/InsetText.h" #include "mathed/InsetMathHull.h" #include "support/debug.h" #include "support/docstring_list.h" #include "support/ExceptionMessage.h" #include "support/gettext.h" #include "support/lassert.h" #include "support/lstrings.h" #include "support/textutils.h" #include #include #include using namespace std; using namespace lyx::support; // OSX clang and msvc < 2015 do not support C++11 thread_local #if defined(__APPLE__) #define THREAD_LOCAL_STATIC static __thread #elif defined(_MSC_VER) && (_MSC_VER < 1900) #define THREAD_LOCAL_STATIC static __declspec(thread) #else #define THREAD_LOCAL_STATIC thread_local static #endif namespace lyx { ///////////////////////////////////////////////////////////////////// // // SpellResultRange // ///////////////////////////////////////////////////////////////////// class SpellResultRange { public: SpellResultRange(FontSpan range, SpellChecker::Result result) : range_(range), result_(result) {} /// FontSpan const & range() const { return range_; } /// void range(FontSpan const & r) { range_ = r; } /// SpellChecker::Result result() const { return result_; } /// void result(SpellChecker::Result r) { result_ = r; } /// bool contains(pos_type pos) const { return range_.contains(pos); } /// bool covered(FontSpan const & r) const { // 1. first of new range inside current range or // 2. last of new range inside current range or // 3. first of current range inside new range or // 4. last of current range inside new range //FIXME: is this the same as !range_.intersect(r).empty() ? return range_.contains(r.first) || range_.contains(r.last) || r.contains(range_.first) || r.contains(range_.last); } /// void shift(pos_type pos, int offset) { if (range_.first > pos) { range_.first += offset; range_.last += offset; } else if (range_.last >= pos) { range_.last += offset; } } private: FontSpan range_ ; SpellChecker::Result result_ ; }; ///////////////////////////////////////////////////////////////////// // // SpellCheckerState // ///////////////////////////////////////////////////////////////////// class SpellCheckerState { public: SpellCheckerState() { needs_refresh_ = true; current_change_number_ = 0; } void setRange(FontSpan const & fp, SpellChecker::Result state) { Ranges result; RangesIterator et = ranges_.end(); RangesIterator it = ranges_.begin(); for (; it != et; ++it) { if (!it->covered(fp)) result.push_back(SpellResultRange(it->range(), it->result())); else if (state == SpellChecker::WORD_OK) { // trim or split the current misspelled range // store misspelled ranges only FontSpan range = it->range(); if (fp.first > range.first) { // misspelled area in front of WORD_OK range.last = fp.first - 1; result.push_back(SpellResultRange(range, it->result())); range = it->range(); } if (fp.last < range.last) { // misspelled area after WORD_OK range range.first = fp.last + 1; result.push_back(SpellResultRange(range, it->result())); } } } ranges_ = result; if (state != SpellChecker::WORD_OK) ranges_.push_back(SpellResultRange(fp, state)); } void increasePosAfterPos(pos_type pos) { correctRangesAfterPos(pos, 1); needsRefresh(pos); } void decreasePosAfterPos(pos_type pos) { correctRangesAfterPos(pos, -1); needsRefresh(pos); } void refreshLast(pos_type pos) { if (pos < refresh_.last) refresh_.last = pos; } SpellChecker::Result getState(pos_type pos) const { SpellChecker::Result result = SpellChecker::WORD_OK; RangesIterator et = ranges_.end(); RangesIterator it = ranges_.begin(); for (; it != et; ++it) { if(it->contains(pos)) { return it->result(); } } return result; } FontSpan const & getRange(pos_type pos) const { /// empty span to indicate mismatch static FontSpan empty_; RangesIterator et = ranges_.end(); RangesIterator it = ranges_.begin(); for (; it != et; ++it) { if(it->contains(pos)) { return it->range(); } } return empty_; } bool needsRefresh() const { return needs_refresh_; } SpellChecker::ChangeNumber currentChangeNumber() const { return current_change_number_; } void refreshRange(pos_type & first, pos_type & last) const { first = refresh_.first; last = refresh_.last; } void needsRefresh(pos_type pos) { if (needs_refresh_ && pos != -1) { if (pos < refresh_.first) refresh_.first = pos; if (pos > refresh_.last) refresh_.last = pos; } else if (pos != -1) { // init request check for neighbour positions too refresh_.first = pos > 0 ? pos - 1 : 0; // no need for special end of paragraph check refresh_.last = pos + 1; } needs_refresh_ = pos != -1; } void needsCompleteRefresh(SpellChecker::ChangeNumber change_number) { needs_refresh_ = true; refresh_.first = 0; refresh_.last = -1; current_change_number_ = change_number; } private: typedef vector Ranges; typedef Ranges::const_iterator RangesIterator; Ranges ranges_; /// the area of the paragraph with pending spell check FontSpan refresh_; /// spell state cache version number SpellChecker::ChangeNumber current_change_number_; bool needs_refresh_; void correctRangesAfterPos(pos_type pos, int offset) { RangesIterator et = ranges_.end(); Ranges::iterator it = ranges_.begin(); for (; it != et; ++it) { it->shift(pos, offset); } } }; ///////////////////////////////////////////////////////////////////// // // Paragraph::Private // ///////////////////////////////////////////////////////////////////// class Paragraph::Private { // Enforce our own "copy" constructor Private(Private const &) = delete; Private & operator=(Private const &) = delete; // Unique ID generator static int make_id(); public: /// Private(Paragraph * owner, Layout const & layout); /// "Copy constructor" Private(Private const &, Paragraph * owner); /// Copy constructor from \p beg to \p end Private(Private const &, Paragraph * owner, pos_type beg, pos_type end); /// void insertChar(pos_type pos, char_type c, Change const & change); /// Output the surrogate pair formed by \p c and \p next to \p os. /// \return the number of characters written. int latexSurrogatePair(BufferParams const &, otexstream & os, char_type c, char_type next, OutputParams const &) const; /// Output a space in appropriate formatting (or a surrogate pair /// if the next character is a combining character). /// \return whether a surrogate pair was output. bool simpleTeXBlanks(BufferParams const &, OutputParams const &, otexstream &, pos_type i, unsigned int & column, Font const & font, Layout const & style) const; /// This could go to ParagraphParameters if we want to. int startTeXParParams(BufferParams const &, otexstream &, OutputParams const &) const; /// This could go to ParagraphParameters if we want to. bool endTeXParParams(BufferParams const &, otexstream &, OutputParams const &) const; /// void latexInset(BufferParams const &, otexstream &, OutputParams &, Font & running_font, Font & basefont, Font const & outerfont, bool & open_font, Change & running_change, Layout const & style, pos_type & i, unsigned int & column, bool const fontswitch_inset, bool const closeLanguage, bool const lang_switched_at_inset) const; /// void latexSpecialChar( otexstream & os, BufferParams const & bparams, OutputParams const & runparams, Font const & running_font, string & alien_script, Layout const & style, pos_type & i, pos_type end_pos, unsigned int & column) const; /// bool latexSpecialT1( char_type const c, otexstream & os, pos_type i, unsigned int & column) const; /// bool latexSpecialTU( char_type const c, otexstream & os, pos_type i, unsigned int & column) const; /// bool latexSpecialT3( char_type const c, otexstream & os, pos_type i, unsigned int & column) const; /// void validate(LaTeXFeatures & features) const; /// Checks if the paragraph contains only text and no inset or font change. bool onlyText(Buffer const & buf, Font const & outerfont, pos_type initial) const; /// a vector of speller skip positions typedef vector SkipPositions; typedef SkipPositions::const_iterator SkipPositionsIterator; void appendSkipPosition(SkipPositions & skips, pos_type const pos) const; Language * getSpellLanguage(pos_type const from) const; Language * locateSpellRange(pos_type & from, pos_type & to, SkipPositions & skips) const; bool hasSpellerChange() const { SpellChecker::ChangeNumber speller_change_number = 0; if (theSpellChecker()) speller_change_number = theSpellChecker()->changeNumber(); return speller_change_number > speller_state_.currentChangeNumber(); } bool ignoreWord(docstring const & word) const; void setMisspelled(pos_type from, pos_type to, SpellChecker::Result state) { pos_type textsize = owner_->size(); // check for sane arguments if (to <= from || from >= textsize) return; FontSpan fp = FontSpan(from, to - 1); speller_state_.setRange(fp, state); } void requestSpellCheck(pos_type pos) { if (pos == -1) speller_state_.needsCompleteRefresh(speller_state_.currentChangeNumber()); else speller_state_.needsRefresh(pos); } void readySpellCheck() { speller_state_.needsRefresh(-1); } bool needsSpellCheck() const { return speller_state_.needsRefresh(); } void rangeOfSpellCheck(pos_type & first, pos_type & last) const { speller_state_.refreshRange(first, last); if (last == -1) { last = owner_->size(); return; } pos_type endpos = last; owner_->locateWord(first, endpos, WHOLE_WORD, true); if (endpos < last) { endpos = last; owner_->locateWord(last, endpos, WHOLE_WORD, true); } last = endpos; } int countSkips(SkipPositionsIterator & it, SkipPositionsIterator const et, int & start) const { int numskips = 0; while (it != et && it->first < start) { long skip = it->last - it->first + 1; start += skip; numskips += skip; ++it; } return numskips; } void markMisspelledWords(Language const * lang, pos_type const & first, pos_type const & last, SpellChecker::Result result, docstring const & word, SkipPositions const & skips); InsetCode ownerCode() const { return inset_owner_ ? inset_owner_->lyxCode() : NO_CODE; } /// Which Paragraph owns us? Paragraph * owner_; /// In which Inset? Inset const * inset_owner_; /// FontList fontlist_; /// ParagraphParameters params_; /// for recording and looking up changes Changes changes_; /// InsetList insetlist_; /// end of label pos_type begin_of_body_; typedef docstring TextContainer; /// TextContainer text_; typedef set Words; typedef map LangWordsMap; /// LangWordsMap words_; /// Layout const * layout_; /// SpellCheckerState speller_state_; /// int id_; }; Paragraph::Private::Private(Paragraph * owner, Layout const & layout) : owner_(owner), inset_owner_(nullptr), begin_of_body_(0), layout_(&layout), id_(-1) { text_.reserve(100); } //static int Paragraph::Private::make_id() { // The id is unique per session across buffers because it is used in // LFUN_PARAGRAPH_GOTO to switch to a different buffer, for instance in the // outliner. // (thread-safe) static int next_id(0); return next_id++; } Paragraph::Private::Private(Private const & p, Paragraph * owner) : owner_(owner), inset_owner_(p.inset_owner_), fontlist_(p.fontlist_), params_(p.params_), changes_(p.changes_), insetlist_(p.insetlist_), begin_of_body_(p.begin_of_body_), text_(p.text_), words_(p.words_), layout_(p.layout_), id_(make_id()) { requestSpellCheck(p.text_.size()); } Paragraph::Private::Private(Private const & p, Paragraph * owner, pos_type beg, pos_type end) : owner_(owner), inset_owner_(p.inset_owner_), params_(p.params_), changes_(p.changes_), insetlist_(p.insetlist_, beg, end), begin_of_body_(p.begin_of_body_), words_(p.words_), layout_(p.layout_), id_(make_id()) { if (beg >= pos_type(p.text_.size())) return; text_ = p.text_.substr(beg, end - beg); FontList::const_iterator fcit = fontlist_.begin(); FontList::const_iterator fend = fontlist_.end(); for (; fcit != fend; ++fcit) { if (fcit->pos() < beg) continue; if (fcit->pos() >= end) { // Add last entry in the fontlist_. fontlist_.set(text_.size() - 1, fcit->font()); break; } // Add a new entry in the fontlist_. fontlist_.set(fcit->pos() - beg, fcit->font()); } requestSpellCheck(p.text_.size()); } ///////////////////////////////////////////////////////////////////// // // Paragraph // ///////////////////////////////////////////////////////////////////// namespace { /** This helper class should be instantiated at the start of methods * that can create or merge changes. If as a result the value of * Paragraph::isChanged is modified, it makes sure that updateBuffer() * will be run. */ struct ChangesMonitor { /// ChangesMonitor(Paragraph & par) : par_(par), was_changed_(par.isChanged()) {} /// ~ChangesMonitor() { /* We may need to run updateBuffer to check whether the buffer * contains changes (and toggle the changes toolbar). We do it * when: * 1. the `changedness' of the paragraph has changed, * 2. and we are not in the situation where the buffer has changes * and new changes are added to the paragraph. */ try { if (par_.isChanged() != was_changed_ && par_.inInset().isBufferValid() && !(par_.inInset().buffer().areChangesPresent() && par_.isChanged())) par_.inInset().buffer().forceUpdate(); } catch(support::ExceptionMessage const &) {} } private: /// Paragraph const & par_; /// bool was_changed_; }; } void Paragraph::addChangesToToc(DocIterator const & cdit, Buffer const & buf, bool output_active, TocBackend & backend) const { d->changes_.addToToc(cdit, buf, output_active, backend); } bool Paragraph::isDeleted(pos_type start, pos_type end) const { LASSERT(start >= 0 && start <= size(), return false); LASSERT(end > start && end <= size() + 1, return false); return d->changes_.isDeleted(start, end); } bool Paragraph::isChanged(pos_type start, pos_type end) const { LASSERT(start >= 0 && start <= size(), return false); LASSERT(end > start && end <= size() + 1, return false); return d->changes_.isChanged(start, end); } // FIXME: Ideally the diverse isChanged() methods should account for that! bool Paragraph::hasChangedInsets(pos_type start, pos_type end) const { LASSERT(start >= 0 && start <= size(), return false); LASSERT(end > start && end <= size() + 1, return false); for (auto const & icit : d->insetlist_) { if (icit.pos < start) continue; if (icit.pos >= end) break; if (icit.inset && icit.inset->isChanged()) return true; } return false; } bool Paragraph::isChanged() const { return d->changes_.isChanged(); } bool Paragraph::isMergedOnEndOfParDeletion(bool trackChanges) const { // keep the logic here in sync with the logic of eraseChars() if (!trackChanges) return true; Change const & change = d->changes_.lookup(size()); return change.inserted() && change.currentAuthor(); } Change Paragraph::parEndChange() const { return d->changes_.lookup(size()); } void Paragraph::setChange(Change const & change) { // Make sure that Buffer::hasChangesPresent is updated ChangesMonitor cm(*this); // beware of the imaginary end-of-par character! d->changes_.set(change, 0, size() + 1); /* * Propagate the change recursively - but not in case of DELETED! * * Imagine that your co-author makes changes in an existing inset. He * sends your document to you and you come to the conclusion that the * inset should go completely. If you erase it, LyX must not delete all * text within the inset. Otherwise, the change tracked insertions of * your co-author get lost and there is no way to restore them later. * * Conclusion: An inset's content should remain untouched if you delete it */ if (!change.deleted()) { for (pos_type pos = 0; pos < size(); ++pos) { if (Inset * inset = getInset(pos)) inset->setChange(change); } } } void Paragraph::setChange(pos_type pos, Change const & change) { // Make sure that Buffer::hasChangesPresent is updated ChangesMonitor cm(*this); LASSERT(pos >= 0 && pos <= size(), return); d->changes_.set(change, pos); // see comment in setChange(Change const &) above if (!change.deleted() && pos < size()) if (Inset * inset = getInset(pos)) inset->setChange(change); } Change const & Paragraph::lookupChange(pos_type pos) const { LBUFERR(pos >= 0 && pos <= size()); return d->changes_.lookup(pos); } void Paragraph::acceptChanges(pos_type start, pos_type end) { // Make sure that Buffer::hasChangesPresent is updated ChangesMonitor cm(*this); LASSERT(start >= 0 && start <= size(), return); LASSERT(end > start && end <= size() + 1, return); for (pos_type pos = start; pos < end; ++pos) { switch (lookupChange(pos).type) { case Change::UNCHANGED: // accept changes in nested inset if (Inset * inset = getInset(pos)) inset->acceptChanges(); break; case Change::INSERTED: d->changes_.set(Change(Change::UNCHANGED), pos); // also accept changes in nested inset if (Inset * inset = getInset(pos)) inset->acceptChanges(); break; case Change::DELETED: // Suppress access to non-existent // "end-of-paragraph char" if (pos < size()) { eraseChar(pos, false); --end; --pos; } break; } } } void Paragraph::rejectChanges(pos_type start, pos_type end) { LASSERT(start >= 0 && start <= size(), return); LASSERT(end > start && end <= size() + 1, return); // Make sure that Buffer::hasChangesPresent is updated ChangesMonitor cm(*this); for (pos_type pos = start; pos < end; ++pos) { switch (lookupChange(pos).type) { case Change::UNCHANGED: // reject changes in nested inset if (Inset * inset = getInset(pos)) inset->rejectChanges(); break; case Change::INSERTED: // Suppress access to non-existent // "end-of-paragraph char" if (pos < size()) { eraseChar(pos, false); --end; --pos; } break; case Change::DELETED: d->changes_.set(Change(Change::UNCHANGED), pos); // Do NOT reject changes within a deleted inset! // There may be insertions of a co-author inside of it! break; } } } void Paragraph::Private::insertChar(pos_type pos, char_type c, Change const & change) { LASSERT(pos >= 0 && pos <= int(text_.size()), return); // Make sure that Buffer::hasChangesPresent is updated ChangesMonitor cm(*owner_); // track change changes_.insert(change, pos); // This is actually very common when parsing buffers (and // maybe inserting ascii text) if (pos == pos_type(text_.size())) { // when appending characters, no need to update tables text_.push_back(c); // but we want spell checking requestSpellCheck(pos); return; } text_.insert(text_.begin() + pos, c); // Update the font table. fontlist_.increasePosAfterPos(pos); // Update the insets insetlist_.increasePosAfterPos(pos); // Update list of misspelled positions speller_state_.increasePosAfterPos(pos); // Update bookmarks if (inset_owner_ && inset_owner_->isBufferValid()) theSession().bookmarks().adjustPosAfterPos(inset_owner_->buffer().fileName(), id_, pos, 1); } bool Paragraph::insertInset(pos_type pos, Inset * inset, Font const & font, Change const & change) { LASSERT(inset, return false); LASSERT(pos >= 0 && pos <= size(), return false); // Make sure that Buffer::hasChangesPresent is updated ChangesMonitor cm(*this); // Paragraph::insertInset() can be used in cut/copy/paste operation where // d->inset_owner_ is not set yet. if (d->inset_owner_ && !d->inset_owner_->insetAllowed(inset->lyxCode())) return false; d->insertChar(pos, META_INSET, change); LASSERT(d->text_[pos] == META_INSET, return false); // Add a new entry in the insetlist_. d->insetlist_.insert(inset, pos); // Some insets require run of spell checker requestSpellCheck(pos); setFont(pos, font); return true; } bool Paragraph::eraseChar(pos_type pos, bool trackChanges) { LASSERT(pos >= 0 && pos <= size(), return false); // Make sure that Buffer::hasChangesPresent is updated ChangesMonitor cm(*this); // keep the logic here in sync with the logic of isMergedOnEndOfParDeletion() if (trackChanges) { Change change = d->changes_.lookup(pos); // set the character to DELETED if // a) it was previously unchanged or // b) it was inserted by a co-author if (!change.changed() || (change.inserted() && !change.currentAuthor())) { setChange(pos, Change(Change::DELETED)); // request run of spell checker requestSpellCheck(pos); return false; } if (change.deleted()) return false; } // Don't physically access the imaginary end-of-paragraph character. // eraseChar() can only mark it as DELETED. A physical deletion of // end-of-par must be handled externally. if (pos == size()) { return false; } // track change d->changes_.erase(pos); // if it is an inset, delete the inset entry if (d->text_[pos] == META_INSET) d->insetlist_.erase(pos); d->text_.erase(d->text_.begin() + pos); // Update the fontlist_ d->fontlist_.erase(pos); // Update the insetlist_ d->insetlist_.decreasePosAfterPos(pos); // Update list of misspelled positions d->speller_state_.decreasePosAfterPos(pos); d->speller_state_.refreshLast(size()); // Update bookmarks if (d->inset_owner_ && d->inset_owner_->isBufferValid()) theSession().bookmarks().adjustPosAfterPos(d->inset_owner_->buffer().fileName(), d->id_, pos, -1); return true; } int Paragraph::eraseChars(pos_type start, pos_type end, bool trackChanges) { LASSERT(start >= 0 && start <= size(), return 0); LASSERT(end >= start && end <= size() + 1, return 0); pos_type i = start; for (pos_type count = end - start; count; --count) { if (!eraseChar(i, trackChanges)) ++i; } return end - i; } // Handle combining characters int Paragraph::Private::latexSurrogatePair(BufferParams const & bparams, otexstream & os, char_type c, char_type next, OutputParams const & runparams) const { // Writing next here may circumvent a possible font change between // c and next. Since next is only output if it forms a surrogate pair // with c we can ignore this: // A font change inside a surrogate pair does not make sense and is // hopefully impossible to input. // FIXME: change tracking // Is this correct WRT change tracking? Encoding const & encoding = *(runparams.encoding); docstring latex1 = encoding.latexChar(next).first; if (runparams.inIPA) { string const tipashortcut = Encodings::TIPAShortcut(next); if (!tipashortcut.empty()) { latex1 = from_ascii(tipashortcut); } } docstring latex2 = encoding.latexChar(c).first; if (bparams.useNonTeXFonts || docstring(1, next) == latex1) { // Encoding supports the combination: // output as is (combining char after base char). os << latex2 << latex1; return latex1.length() + latex2.length(); } os << latex1 << "{" << latex2 << "}"; return latex1.length() + latex2.length() + 2; } bool Paragraph::Private::simpleTeXBlanks(BufferParams const & bparams, OutputParams const & runparams, otexstream & os, pos_type i, unsigned int & column, Font const & font, Layout const & style) const { if (style.pass_thru || runparams.pass_thru) return false; if (i + 1 < int(text_.size())) { char_type next = text_[i + 1]; if (Encodings::isCombiningChar(next)) { // This space has an accent, so we must always output it. column += latexSurrogatePair(bparams, os, ' ', next, runparams) - 1; return true; } } if (runparams.linelen > 0 && column > runparams.linelen && i && text_[i - 1] != ' ' && (i + 1 < int(text_.size())) // same in FreeSpacing mode && !owner_->isFreeSpacing() // In typewriter mode, we want to avoid // ! . ? : at the end of a line && !(font.fontInfo().family() == TYPEWRITER_FAMILY && (text_[i - 1] == '.' || text_[i - 1] == '?' || text_[i - 1] == ':' || text_[i - 1] == '!'))) { os << '\n'; os.texrow().start(owner_->id(), i + 1); column = 0; } else if (style.free_spacing) { os << '~'; } else { os << ' '; } return false; } void Paragraph::Private::latexInset(BufferParams const & bparams, otexstream & os, OutputParams & runparams, Font & running_font, Font & basefont, Font const & outerfont, bool & open_font, Change & running_change, Layout const & style, pos_type & i, unsigned int & column, bool const fontswitch_inset, bool const closeLanguage, bool const lang_switched_at_inset) const { Inset * inset = owner_->getInset(i); LBUFERR(inset); if (style.pass_thru) { odocstringstream ods; inset->plaintext(ods, runparams); os << ods.str(); return; } // FIXME: move this to InsetNewline::latex if (inset->lyxCode() == NEWLINE_CODE || inset->lyxCode() == SEPARATOR_CODE) { // newlines are handled differently here than // the default in simpleTeXSpecialChars(). if (!style.newline_allowed) { os << '\n'; } else { if (open_font) { bool needPar = false; column += running_font.latexWriteEndChanges( os, bparams, runparams, basefont, basefont, needPar); open_font = false; } if (running_font.fontInfo().family() == TYPEWRITER_FAMILY) os << '~'; basefont = owner_->getLayoutFont(bparams, outerfont); running_font = basefont; if (runparams.moving_arg) os << "\\protect "; } os.texrow().start(owner_->id(), i + 1); column = 0; } if (owner_->isDeleted(i)) { if( ++runparams.inDeletedInset == 1) runparams.changeOfDeletedInset = owner_->lookupChange(i); } if (inset->canTrackChanges()) { column += Changes::latexMarkChange(os, bparams, running_change, Change(Change::UNCHANGED), runparams); running_change = Change(Change::UNCHANGED); } bool close = false; odocstream::pos_type const len = os.os().tellp(); if (inset->forceLTR(runparams) && running_font.isRightToLeft() // ERT is an exception, it should be output with no // decorations at all && inset->lyxCode() != ERT_CODE) { if (runparams.use_polyglossia) { os << "\\LRE{"; } else if (running_font.language()->lang() == "farsi" || running_font.language()->lang() == "arabic_arabi") os << "\\textLR{" << termcmd; else os << "\\L{"; close = true; } if (open_font && fontswitch_inset) { bool lang_closed = false; // Close language if needed if (closeLanguage && !lang_switched_at_inset) { // We need prev_font here as language changes directly at inset // will only be started inside the inset. Font const prev_font = (i > 0) ? owner_->getFont(bparams, i - 1, outerfont) : running_font; Font tmpfont(basefont); tmpfont.setLanguage(prev_font.language()); bool needPar = false; unsigned int count = tmpfont.latexWriteEndChanges(os, bparams, runparams, basefont, basefont, needPar, closeLanguage); column += count; lang_closed = count > 0; } // Update the running_font, making sure, however, // to leave the language as it was. // FIXME: probably a better way to keep track of the old // language, than copying the entire font? Font const copy_font(running_font); basefont = owner_->getLayoutFont(bparams, outerfont); running_font = basefont; if (!closeLanguage) running_font.setLanguage(copy_font.language()); OutputParams rp = runparams; rp.encoding = basefont.language()->encoding(); // For these, we use switches, so they should be taken as // base inside the inset. basefont.fontInfo().setSize(copy_font.fontInfo().size()); basefont.fontInfo().setFamily(copy_font.fontInfo().family()); basefont.fontInfo().setSeries(copy_font.fontInfo().series()); // Now re-do font changes in a way needed here // (using switches with multi-par insets) InsetText const * textinset = inset->asInsetText(); bool const cprotect = textinset ? textinset->hasCProtectContent(runparams.moving_arg) && !textinset->text().isMainText() && inset->lyxCode() != BRANCH_CODE : false; unsigned int count2 = basefont.latexWriteStartChanges(os, bparams, rp, running_font, basefont, true, cprotect); open_font = true; column += count2; if (count2 == 0 && (lang_closed || lang_switched_at_inset)) // All fonts closed open_font = false; if (closeLanguage) runparams.local_font = &basefont; } if (fontswitch_inset && !closeLanguage) { // The directionality has been switched at inset. // Force markup inside. runparams.local_font = &basefont; } size_t const previous_row_count = os.texrow().rows(); try { runparams.lastid = id_; runparams.lastpos = i; inset->latex(os, runparams); } catch (EncodingException & e) { // add location information and throw again. e.par_id = id_; e.pos = i; throw; } if (close) os << '}'; if (os.texrow().rows() > previous_row_count) { os.texrow().start(owner_->id(), i + 1); column = 0; } else { column += (unsigned int)(os.os().tellp() - len); } if (owner_->isDeleted(i)) --runparams.inDeletedInset; } void Paragraph::Private::latexSpecialChar(otexstream & os, BufferParams const & bparams, OutputParams const & runparams, Font const & running_font, string & alien_script, Layout const & style, pos_type & i, pos_type end_pos, unsigned int & column) const { char_type const c = owner_->getUChar(bparams, runparams, i); if (style.pass_thru || runparams.pass_thru || (runparams.for_searchAdv != OutputParams::NoSearch) || contains(style.pass_thru_chars, c) || contains(runparams.pass_thru_chars, c)) { if (runparams.for_searchAdv != OutputParams::NoSearch) { if (c == '\\') os << "\\\\"; else if (c == '{') os << "\\braceleft "; else if (c == '}') os << "\\braceright "; else if (c != '\0') os.put(c); } else if (c != '\0') { Encoding const * const enc = runparams.encoding; if (enc && !enc->encodable(c)) throw EncodingException(c); os.put(c); } return; } // TIPA uses its own T3 encoding if (runparams.inIPA && latexSpecialT3(c, os, i, column)) return; // If T1 font encoding is used, use the special // characters it provides. // NOTE: Some languages reset the font encoding internally to a // non-standard font encoding. If we are using such a language, // we do not output special T1 chars. if (!runparams.inIPA && !running_font.language()->internalFontEncoding() && !runparams.isFullUnicode() && bparams.main_font_encoding() == "T1" && latexSpecialT1(c, os, i, column)) return; // NOTE: "fontspec" (non-TeX fonts) sets the font encoding to "TU" (untill 2017 "EU1" or "EU2") else if (!runparams.inIPA && !running_font.language()->internalFontEncoding() && runparams.isFullUnicode() && latexSpecialTU(c, os, i, column)) return; // Otherwise, we use what LaTeX provides us. switch (c) { case '\\': os << "\\textbackslash" << termcmd; column += 15; break; case '<': os << "\\textless" << termcmd; column += 10; break; case '>': os << "\\textgreater" << termcmd; column += 13; break; case '|': os << "\\textbar" << termcmd; column += 9; break; case '-': os << '-'; if (i + 1 < static_cast(text_.size()) && (end_pos == -1 || i + 1 < end_pos) && text_[i+1] == '-') { // Prevent "--" becoming an en dash and "---" an em dash. // (Within \ttfamily, "---" is merged to en dash + hyphen.) os << "{}"; column += 2; } break; case '\"': os << "\\textquotedbl" << termcmd; column += 14; break; case '$': case '&': case '%': case '#': case '{': case '}': case '_': os << '\\'; os.put(c); column += 1; break; case '~': os << "\\textasciitilde" << termcmd; column += 16; break; case '^': os << "\\textasciicircum" << termcmd; column += 17; break; case '*': case '[': case ']': // avoid being mistaken for optional arguments os << '{'; os.put(c); os << '}'; column += 2; break; case ' ': // Blanks are printed before font switching. // Sure? I am not! (try nice-latex) // I am sure it's correct. LyX might be smarter // in the future, but for now, nothing wrong is // written. (Asger) break; case 0x2013: case 0x2014: // XeTeX's dash behaviour is determined via a global setting if (bparams.use_dash_ligatures && owner_->getFontSettings(bparams, i).fontInfo().family() != TYPEWRITER_FAMILY && !runparams.inIPA // TODO #10961: && not in inset Flex Code // TODO #10961: && not in layout LyXCode && (!bparams.useNonTeXFonts || runparams.flavor != Flavor::XeTeX)) { if (c == 0x2013) { // en-dash os << "--"; column +=2; } else { // em-dash os << "---"; column +=3; } break; } // fall through default: if (c == '\0') return; Encoding const & encoding = *(runparams.encoding); char_type next = '\0'; if (i + 1 < int(text_.size())) { next = text_[i + 1]; if (Encodings::isCombiningChar(next)) { column += latexSurrogatePair(bparams, os, c, next, runparams) - 1; ++i; break; } } pair latex = encoding.latexChar(c); docstring nextlatex; bool nexttipas = false; string nexttipashortcut; if (next != '\0' && next != META_INSET && !encoding.encodable(next)) { nextlatex = encoding.latexChar(next).first; if (runparams.inIPA) { nexttipashortcut = Encodings::TIPAShortcut(next); nexttipas = !nexttipashortcut.empty(); } } bool tipas = false; if (runparams.inIPA) { string const tipashortcut = Encodings::TIPAShortcut(c); if (!tipashortcut.empty()) { latex.first = from_ascii(tipashortcut); latex.second = false; tipas = true; } } // eventually close "script wrapper" command (see `Paragraph::latex`) if (!alien_script.empty() && alien_script != Encodings::isKnownScriptChar(next)) { column += latex.first.length(); alien_script.clear(); os << latex.first << "}"; break; } if (latex.second && ((!prefixIs(nextlatex, '\\') && !prefixIs(nextlatex, '{') && !prefixIs(nextlatex, '}')) || (nexttipas && !prefixIs(from_ascii(nexttipashortcut), '\\'))) && !tipas) { // Prevent eating of a following space or command corruption by // following characters if (next == ' ' || next == '\0') { column += latex.first.length() + 1; os << latex.first << "{}"; } else { column += latex.first.length(); os << latex.first << " "; } } else { column += latex.first.length() - 1; os << latex.first; } break; } } bool Paragraph::Private::latexSpecialT1(char_type const c, otexstream & os, pos_type i, unsigned int & column) const { switch (c) { case '>': case '<': os.put(c); // In T1 encoding, these characters exist // but we should avoid ligatures if (i + 1 >= int(text_.size()) || text_[i + 1] != c) return true; os << "\\textcompwordmark" << termcmd; column += 19; return true; case '|': os.put(c); return true; case '\"': // soul.sty breaks with \char`\" os << "\\textquotedbl" << termcmd; column += 14; return true; default: return false; } } bool Paragraph::Private::latexSpecialTU(char_type const c, otexstream & os, pos_type i, unsigned int & column) const { // TU encoding is currently on par with T1. return latexSpecialT1(c, os, i, column); } bool Paragraph::Private::latexSpecialT3(char_type const c, otexstream & os, pos_type /*i*/, unsigned int & column) const { switch (c) { case '*': case '[': case ']': case '\"': os.put(c); return true; case '|': os << "\\textvertline" << termcmd; column += 14; return true; default: return false; } } void Paragraph::Private::validate(LaTeXFeatures & features) const { if (layout_->inpreamble && inset_owner_) { // FIXME: Using a string stream here circumvents the encoding // switching machinery of odocstream. Therefore the // output is wrong if this paragraph contains content // that needs to switch encoding. Buffer const & buf = inset_owner_->buffer(); otexstringstream os; os << layout_->preamble(); size_t const length = os.length(); TeXOnePar(buf, *inset_owner_->getText(int(buf.getParFromID(owner_->id()).idx())), buf.getParFromID(owner_->id()).pit(), os, features.runparams(), string(), 0, -1, true); if (os.length() > length) features.addPreambleSnippet(os.release(), true); } if (features.runparams().flavor == Flavor::Html && layout_->htmltitle()) { features.setHTMLTitle(owner_->asString(AS_STR_INSETS | AS_STR_SKIPDELETE)); } // check the params. if (!params_.spacing().isDefault()) features.require("setspace"); // then the layouts features.useLayout(layout_->name()); // then the fonts fontlist_.validate(features); // then the indentation if (!params_.leftIndent().zero()) features.require("ParagraphLeftIndent"); // then the insets InsetList::const_iterator icit = insetlist_.begin(); InsetList::const_iterator iend = insetlist_.end(); for (; icit != iend; ++icit) { if (icit->inset) { features.inDeletedInset(owner_->isDeleted(icit->pos)); if (icit->inset->lyxCode() == FOOT_CODE) { // FIXME: an item inset would make things much easier. if ((layout_->latextype == LATEX_LIST_ENVIRONMENT || (layout_->latextype == LATEX_ITEM_ENVIRONMENT && layout_->margintype == MARGIN_FIRST_DYNAMIC)) && (icit->pos < begin_of_body_ || (icit->pos == begin_of_body_ && (icit->pos == 0 || text_[icit->pos - 1] != ' ')))) features.saveNoteEnv("description"); } icit->inset->validate(features); features.inDeletedInset(false); if (layout_->needprotect && icit->inset->lyxCode() == FOOT_CODE) features.require("NeedLyXFootnoteCode"); } } // then the contents BufferParams const bp = features.runparams().is_child ? features.buffer().masterParams() : features.buffer().params(); for (pos_type i = 0; i < int(text_.size()) ; ++i) { char_type c = text_[i]; CharInfo const & ci = Encodings::unicodeCharInfo(c); if (c == 0x0022) { if (features.runparams().isFullUnicode() && bp.useNonTeXFonts) features.require("textquotedblp"); else if (bp.main_font_encoding() != "T1" || ((&owner_->getFontSettings(bp, i))->language()->internalFontEncoding())) features.require("textquotedbl"); } else if (ci.textfeature() && contains(ci.textpreamble(), '=')) { // features that depend on the font or input encoding string feats = ci.textpreamble(); string fontenc = (&owner_->getFontSettings(bp, i))->language()->fontenc(bp); if (fontenc.empty()) fontenc = features.runparams().main_fontenc; while (!feats.empty()) { string feat; feats = split(feats, feat, ','); if (contains(feat, "!=")) { // a feature that is required except for the spcified // font or input encodings string realfeature; string const contexts = ltrim(split(feat, realfeature, '!'), "="); // multiple encodings are separated by semicolon vector context = getVectorFromString(contexts, ";"); // require feature if the context matches neither current font // nor input encoding if (std::find(context.begin(), context.end(), fontenc) == context.end() && std::find(context.begin(), context.end(), features.runparams().encoding->name()) == context.end()) features.require(realfeature); } else if (contains(feat, '=')) { // a feature that is required only for the spcified // font or input encodings string realfeature; string const contexts = split(feat, realfeature, '='); // multiple encodings are separated by semicolon vector context = getVectorFromString(contexts, ";"); // require feature if the context matches either current font // or input encoding if (std::find(context.begin(), context.end(), fontenc) != context.end() || std::find(context.begin(), context.end(), features.runparams().encoding->name()) != context.end()) features.require(realfeature); } } } else if (!bp.use_dash_ligatures && (c == 0x2013 || c == 0x2014) && bp.useNonTeXFonts && features.runparams().flavor == Flavor::XeTeX) // XeTeX's dash behaviour is determined via a global setting features.require("xetexdashbreakstate"); BufferEncodings::validate(c, features); } } ///////////////////////////////////////////////////////////////////// // // Paragraph // ///////////////////////////////////////////////////////////////////// namespace { Layout const emptyParagraphLayout; } Paragraph::Paragraph() : d(new Paragraph::Private(this, emptyParagraphLayout)) { itemdepth = 0; d->params_.clear(); } Paragraph::Paragraph(Paragraph const & par) : itemdepth(par.itemdepth), d(new Paragraph::Private(*par.d, this)) { registerWords(); } Paragraph::Paragraph(Paragraph const & par, pos_type beg, pos_type end) : itemdepth(par.itemdepth), d(new Paragraph::Private(*par.d, this, beg, end)) { registerWords(); } Paragraph & Paragraph::operator=(Paragraph const & par) { // needed as we will destroy the private part before copying it if (&par != this) { itemdepth = par.itemdepth; deregisterWords(); delete d; d = new Private(*par.d, this); registerWords(); } return *this; } Paragraph::~Paragraph() { deregisterWords(); delete d; } namespace { // this shall be called just before every "os << ..." action. void flushString(ostream & os, docstring & s) { os << to_utf8(s); s.erase(); } } // namespace void Paragraph::write(ostream & os, BufferParams const & bparams, depth_type & depth) const { // The beginning or end of a deeper (i.e. nested) area? if (depth != d->params_.depth()) { if (d->params_.depth() > depth) { while (d->params_.depth() > depth) { os << "\n\\begin_deeper"; ++depth; } } else { while (d->params_.depth() < depth) { os << "\n\\end_deeper"; --depth; } } } // First write the layout os << "\n\\begin_layout " << to_utf8(d->layout_->name()) << '\n'; d->params_.write(os); Font font1(inherit_font, bparams.language); Change running_change = Change(Change::UNCHANGED); // this string is used as a buffer to avoid repetitive calls // to to_utf8(), which turn out to be expensive (JMarc) docstring write_buffer; int column = 0; for (pos_type i = 0; i <= size(); ++i) { Change const & change = lookupChange(i); if (change != running_change) flushString(os, write_buffer); Changes::lyxMarkChange(os, bparams, column, running_change, change); running_change = change; if (i == size()) break; // Write font changes Font font2 = getFontSettings(bparams, i); if (font2 != font1) { flushString(os, write_buffer); font2.lyxWriteChanges(font1, os); column = 0; font1 = font2; } char_type const c = d->text_[i]; switch (c) { case META_INSET: if (Inset const * inset = getInset(i)) { flushString(os, write_buffer); if (inset->directWrite()) { // international char, let it write // code directly so it's shorter in // the file inset->write(os); } else { if (i) os << '\n'; os << "\\begin_inset "; inset->write(os); os << "\n\\end_inset\n\n"; column = 0; } // FIXME This can be removed again once the mystery // crash has been resolved. os << flush; } break; case '\\': flushString(os, write_buffer); os << "\n\\backslash\n"; column = 0; break; case '.': flushString(os, write_buffer); if (i + 1 < size() && d->text_[i + 1] == ' ') { os << ".\n"; column = 0; } else os << '.'; break; default: if ((column > 70 && c == ' ') || column > 79) { flushString(os, write_buffer); os << '\n'; column = 0; } // this check is to amend a bug. LyX sometimes // inserts '\0' this could cause problems. if (c != '\0') write_buffer.push_back(c); else LYXERR0("NUL char in structure."); ++column; break; } } flushString(os, write_buffer); os << "\n\\end_layout\n"; // FIXME This can be removed again once the mystery // crash has been resolved. os << flush; } void Paragraph::validate(LaTeXFeatures & features) const { d->validate(features); bool fragile = features.runparams().moving_arg; fragile |= layout().needprotect; if (inInset().getLayout().isNeedProtect()) fragile = true; if (needsCProtection(fragile)) features.require("cprotect"); } void Paragraph::insert(pos_type pos, docstring const & str, Font const & font, Change const & change) { for (size_t i = 0, n = str.size(); i != n ; ++i) insertChar(pos + i, str[i], font, change); } void Paragraph::appendChar(char_type c, Font const & font, Change const & change) { // Make sure that Buffer::hasChangesPresent is updated ChangesMonitor cm(*this); // track change d->changes_.insert(change, d->text_.size()); // when appending characters, no need to update tables d->text_.push_back(c); setFont(d->text_.size() - 1, font); d->requestSpellCheck(d->text_.size() - 1); } void Paragraph::appendString(docstring const & s, Font const & font, Change const & change) { // Make sure that Buffer::hasChangesPresent is updated ChangesMonitor cm(*this); pos_type end = s.size(); size_t oldsize = d->text_.size(); size_t newsize = oldsize + end; size_t capacity = d->text_.capacity(); if (newsize >= capacity) d->text_.reserve(max(capacity + 100, newsize)); // when appending characters, no need to update tables d->text_.append(s); // FIXME: Optimize this! for (size_t i = oldsize; i != newsize; ++i) { // track change d->changes_.insert(change, i); d->requestSpellCheck(i); } d->fontlist_.set(oldsize, font); d->fontlist_.set(newsize - 1, font); } void Paragraph::insertChar(pos_type pos, char_type c, bool trackChanges) { d->insertChar(pos, c, Change(trackChanges ? Change::INSERTED : Change::UNCHANGED)); } void Paragraph::insertChar(pos_type pos, char_type c, Font const & font, bool trackChanges) { d->insertChar(pos, c, Change(trackChanges ? Change::INSERTED : Change::UNCHANGED)); setFont(pos, font); } void Paragraph::insertChar(pos_type pos, char_type c, Font const & font, Change const & change) { d->insertChar(pos, c, change); setFont(pos, font); } void Paragraph::resetFonts(Font const & font) { d->fontlist_.clear(); d->fontlist_.set(0, font); d->fontlist_.set(d->text_.size() - 1, font); } // Gets uninstantiated font setting at position. Font const & Paragraph::getFontSettings(BufferParams const & bparams, pos_type pos) const { if (pos > size()) { LYXERR0("pos: " << pos << " size: " << size()); LBUFERR(false); } FontList::const_iterator cit = d->fontlist_.fontIterator(pos); if (cit != d->fontlist_.end()) return cit->font(); if (pos == size() && !empty()) return getFontSettings(bparams, pos - 1); // Optimisation: avoid a full font instantiation if there is no // language change from previous call. static Font previous_font; static Language const * previous_lang = nullptr; Language const * lang = getParLanguage(bparams); if (lang != previous_lang) { previous_lang = lang; previous_font = Font(inherit_font, lang); } return previous_font; } FontSpan Paragraph::fontSpan(pos_type pos) const { LBUFERR(pos <= size()); if (pos == size()) return FontSpan(pos, pos); pos_type start = 0; FontList::const_iterator cit = d->fontlist_.begin(); FontList::const_iterator end = d->fontlist_.end(); for (; cit != end; ++cit) { if (cit->pos() >= pos) { if (pos >= beginOfBody()) return FontSpan(max(start, beginOfBody()), cit->pos()); else return FontSpan(start, min(beginOfBody() - 1, cit->pos())); } start = cit->pos() + 1; } // This should not happen, but if so, we take no chances. LYXERR0("Paragraph::fontSpan: position not found in fontinfo table!"); LASSERT(false, return FontSpan(pos, pos)); } // Gets uninstantiated font setting at position 0 Font const & Paragraph::getFirstFontSettings(BufferParams const & bparams) const { if (!empty() && !d->fontlist_.empty()) return d->fontlist_.begin()->font(); // Optimisation: avoid a full font instantiation if there is no // language change from previous call. static Font previous_font; static Language const * previous_lang = nullptr; if (bparams.language != previous_lang) { previous_lang = bparams.language; previous_font = Font(inherit_font, bparams.language); } return previous_font; } // Gets the fully instantiated font at a given position in a paragraph // This is basically the same function as Text::GetFont() in text2.cpp. // The difference is that this one is used for generating the LaTeX file, // and thus cosmetic "improvements" are disallowed: This has to deliver // the true picture of the buffer. (Asger) Font const Paragraph::getFont(BufferParams const & bparams, pos_type pos, Font const & outerfont) const { LBUFERR(pos >= 0); Font font = getFontSettings(bparams, pos); pos_type const body_pos = beginOfBody(); FontInfo & fi = font.fontInfo(); if (pos < body_pos) fi.realize(d->layout_->labelfont); else fi.realize(d->layout_->font); fi.realize(outerfont.fontInfo()); fi.realize(bparams.getFont().fontInfo()); return font; } Font const Paragraph::getLabelFont (BufferParams const & bparams, Font const & outerfont) const { FontInfo tmpfont = d->layout_->labelfont; tmpfont.realize(outerfont.fontInfo()); tmpfont.realize(bparams.getFont().fontInfo()); return Font(tmpfont, getParLanguage(bparams)); } Font const Paragraph::getLayoutFont (BufferParams const & bparams, Font const & outerfont) const { FontInfo tmpfont = d->layout_->font; tmpfont.realize(outerfont.fontInfo()); tmpfont.realize(bparams.getFont().fontInfo()); return Font(tmpfont, getParLanguage(bparams)); } char_type Paragraph::getUChar(BufferParams const & bparams, OutputParams const & rp, pos_type pos) const { char_type c = d->text_[pos]; // Return unchanged character in LTR languages // or if we use poylglossia/bidi (XeTeX). if (rp.useBidiPackage() || !getFontSettings(bparams, pos).isRightToLeft()) return c; // Without polyglossia/bidi, we need to account for some special cases. // FIXME This needs to be audited! // Check if: // * The input is as expected for all delimiters // => checked for Hebrew! // * The output matches the display in the LyX workarea // => checked for Hebrew! // * The special cases below are really necessary // => checked for Hebrew! // * In arabic_arabi, brackets are transformed to Arabic // Ornate Parentheses. Is this is really wanted? string const & lang = getFontSettings(bparams, pos).language()->lang(); char_type uc = c; // 1. In the following languages, parentheses need to be reversed. // Also with polyglodia/luabidi bool const reverseparens = (lang == "hebrew" || rp.use_polyglossia); // 2. In the following languages, brackets don't need to be reversed. bool const reversebrackets = lang != "arabic_arabtex" && lang != "arabic_arabi" && lang != "farsi"; // Now swap delimiters if needed. switch (c) { case '(': if (reverseparens) uc = ')'; break; case ')': if (reverseparens) uc = '('; break; case '[': if (reversebrackets) uc = ']'; break; case ']': if (reversebrackets) uc = '['; break; case '{': uc = '}'; break; case '}': uc = '{'; break; case '<': uc = '>'; break; case '>': uc = '<'; break; } return uc; } void Paragraph::setFont(pos_type pos, Font const & font) { LASSERT(pos <= size(), return); // First, reduce font against layout/label font // Update: The setCharFont() routine in text2.cpp already // reduces font, so we don't need to do that here. (Asger) d->fontlist_.set(pos, font); } void Paragraph::makeSameLayout(Paragraph const & par) { d->layout_ = par.d->layout_; d->params_ = par.d->params_; } bool Paragraph::stripLeadingSpaces(bool trackChanges) { if (isFreeSpacing()) return false; int pos = 0; int count = 0; while (pos < size() && (isNewline(pos) || isLineSeparator(pos))) { if (eraseChar(pos, trackChanges)) ++count; else ++pos; } return count > 0 || pos > 0; } bool Paragraph::hasSameLayout(Paragraph const & par) const { return par.d->layout_ == d->layout_ && d->params_.sameLayout(par.d->params_); } depth_type Paragraph::getDepth() const { return d->params_.depth(); } depth_type Paragraph::getMaxDepthAfter() const { if (d->layout_->isEnvironment()) return d->params_.depth() + 1; else return d->params_.depth(); } LyXAlignment Paragraph::getAlign(BufferParams const & bparams) const { if (d->params_.align() == LYX_ALIGN_LAYOUT) return getDefaultAlign(bparams); else return d->params_.align(); } LyXAlignment Paragraph::getDefaultAlign(BufferParams const & bparams) const { LyXAlignment res = layout().align; if (isRTL(bparams)) { // Swap sides if (res == LYX_ALIGN_LEFT) res = LYX_ALIGN_RIGHT; else if (res == LYX_ALIGN_RIGHT) res = LYX_ALIGN_LEFT; } return res; } docstring const & Paragraph::labelString() const { return d->params_.labelString(); } // the next two functions are for the manual labels docstring const Paragraph::getLabelWidthString() const { if (d->layout_->margintype == MARGIN_MANUAL || d->layout_->latextype == LATEX_BIB_ENVIRONMENT) return d->params_.labelWidthString(); else return _("Senseless with this layout!"); } void Paragraph::setLabelWidthString(docstring const & s) { d->params_.labelWidthString(s); } docstring Paragraph::expandLabel(Layout const & layout, BufferParams const & bparams) const { return expandParagraphLabel(layout, bparams, true); } docstring Paragraph::expandParagraphLabel(Layout const & layout, BufferParams const & bparams, bool process_appendix) const { DocumentClass const & tclass = bparams.documentClass(); string const & lang = getParLanguage(bparams)->code(); bool const in_appendix = process_appendix && d->params_.appendix(); docstring fmt = translateIfPossible(layout.labelstring(in_appendix), lang); if (fmt.empty() && !layout.counter.empty()) return tclass.counters().theCounter(layout.counter, lang); // handle 'inherited level parts' in 'fmt', // i.e. the stuff between '@' in '@Section@.\arabic{subsection}' size_t const i = fmt.find('@', 0); if (i != docstring::npos) { size_t const j = fmt.find('@', i + 1); if (j != docstring::npos) { docstring parent(fmt, i + 1, j - i - 1); docstring label = from_ascii("??"); if (tclass.hasLayout(parent)) label = expandParagraphLabel(tclass[parent], bparams, process_appendix); fmt = docstring(fmt, 0, i) + label + docstring(fmt, j + 1, docstring::npos); } } return tclass.counters().counterLabel(fmt, lang); } void Paragraph::applyLayout(Layout const & new_layout) { d->layout_ = &new_layout; LyXAlignment const oldAlign = d->params_.align(); if (!(oldAlign & d->layout_->alignpossible)) { frontend::Alert::warning(_("Alignment not permitted"), _("The new layout does not permit the alignment previously used.\nSetting to default.")); d->params_.align(LYX_ALIGN_LAYOUT); } } pos_type Paragraph::beginOfBody() const { return d->begin_of_body_; } void Paragraph::setBeginOfBody() { if (d->layout_->labeltype != LABEL_MANUAL) { d->begin_of_body_ = 0; return; } // Unroll the first two cycles of the loop // and remember the previous character to // remove unnecessary getChar() calls pos_type i = 0; pos_type end = size(); bool prev_char_deleted = false; if (i < end && (!(isNewline(i) || isEnvSeparator(i)) || isDeleted(i))) { ++i; if (i < end) { char_type previous_char = d->text_[i]; if (!(isNewline(i) || isEnvSeparator(i))) { ++i; while (i < end && (previous_char != ' ' || prev_char_deleted)) { char_type temp = d->text_[i]; prev_char_deleted = isDeleted(i); if (!isDeleted(i) && (isNewline(i) || isEnvSeparator(i))) break; ++i; previous_char = temp; } } } } d->begin_of_body_ = i; } bool Paragraph::allowParagraphCustomization() const { return inInset().allowParagraphCustomization(); } bool Paragraph::usePlainLayout() const { return inInset().usePlainLayout(); } bool Paragraph::isPassThru() const { return inInset().isPassThru() || d->layout_->pass_thru; } bool Paragraph::isPartOfTextSequence() const { for (pos_type i = 0; i < size(); ++i) { if (!isInset(i) || getInset(i)->isPartOfTextSequence()) return true; } return false; } namespace { // paragraphs inside floats need different alignment tags to avoid // unwanted space bool noTrivlistCentering(InsetCode code) { return code == FLOAT_CODE || code == WRAP_CODE || code == CELL_CODE; } string correction(string const & orig) { if (orig == "flushleft") return "raggedright"; if (orig == "flushright") return "raggedleft"; if (orig == "center") return "centering"; return orig; } bool corrected_env(otexstream & os, string const & suffix, string const & env, InsetCode code, bool const lastpar, int & col) { string macro = suffix + "{"; if (noTrivlistCentering(code)) { if (lastpar) { // the last paragraph in non-trivlist-aligned // context is special (to avoid unwanted whitespace) if (suffix == "\\begin") { macro = "\\" + correction(env) + "{}"; os << from_ascii(macro); col += macro.size(); return true; } return false; } macro += correction(env); } else macro += env; macro += "}"; if (suffix == "\\par\\end") { os << breakln; col = 0; } os << from_ascii(macro); col += macro.size(); if (suffix == "\\begin") { os << breakln; col = 0; } return true; } } // namespace int Paragraph::Private::startTeXParParams(BufferParams const & bparams, otexstream & os, OutputParams const & runparams) const { int column = 0; bool canindent = (bparams.paragraph_separation == BufferParams::ParagraphIndentSeparation) ? (layout_->toggle_indent != ITOGGLE_NEVER) : (layout_->toggle_indent == ITOGGLE_ALWAYS); LyXAlignment const curAlign = params_.align(); // Do not output \\noindent for paragraphs // 1. that cannot have indentation, // 2. that are not part of the immediate text sequence (e.g., contain only floats), // 3. that are PassThru, // 4. that are centered, // 5. or start with a vspace. if (canindent && params_.noindent() && owner_->isPartOfTextSequence() && !layout_->pass_thru && curAlign != LYX_ALIGN_CENTER && !owner_->empty() && (!owner_->isInset(0) || owner_->getInset(0)->lyxCode() != VSPACE_CODE)) { os << "\\noindent" << termcmd; column += 10; } if (curAlign == layout_->align) return column; switch (curAlign) { case LYX_ALIGN_NONE: case LYX_ALIGN_BLOCK: case LYX_ALIGN_LAYOUT: case LYX_ALIGN_SPECIAL: case LYX_ALIGN_DECIMAL: break; case LYX_ALIGN_LEFT: case LYX_ALIGN_RIGHT: case LYX_ALIGN_CENTER: if (runparams.moving_arg) { os << "\\protect"; column += 8; } break; } string const begin_tag = "\\begin"; InsetCode code = ownerCode(); bool const lastpar = runparams.isLastPar; // RTL in classic (PDF)LaTeX (without the Bidi package) // Luabibdi (used by LuaTeX) behaves like classic bool const rtl_classic = owner_->getParLanguage(bparams)->rightToLeft() && !runparams.useBidiPackage(); switch (curAlign) { case LYX_ALIGN_NONE: case LYX_ALIGN_BLOCK: case LYX_ALIGN_LAYOUT: case LYX_ALIGN_SPECIAL: case LYX_ALIGN_DECIMAL: break; case LYX_ALIGN_LEFT: { if (rtl_classic) // Classic (PDF)LaTeX switches the left/right logic in RTL mode corrected_env(os, begin_tag, "flushright", code, lastpar, column); else corrected_env(os, begin_tag, "flushleft", code, lastpar, column); break; } case LYX_ALIGN_RIGHT: { if (rtl_classic) // Classic (PDF)LaTeX switches the left/right logic in RTL mode corrected_env(os, begin_tag, "flushleft", code, lastpar, column); else corrected_env(os, begin_tag, "flushright", code, lastpar, column); break; } case LYX_ALIGN_CENTER: { corrected_env(os, begin_tag, "center", code, lastpar, column); break; } } return column; } bool Paragraph::Private::endTeXParParams(BufferParams const & bparams, otexstream & os, OutputParams const & runparams) const { LyXAlignment const curAlign = params_.align(); if (curAlign == layout_->align) return false; switch (curAlign) { case LYX_ALIGN_NONE: case LYX_ALIGN_BLOCK: case LYX_ALIGN_LAYOUT: case LYX_ALIGN_SPECIAL: case LYX_ALIGN_DECIMAL: break; case LYX_ALIGN_LEFT: case LYX_ALIGN_RIGHT: case LYX_ALIGN_CENTER: if (runparams.moving_arg) os << "\\protect"; break; } bool output = false; int col = 0; string const end_tag = "\\par\\end"; InsetCode code = ownerCode(); bool const lastpar = runparams.isLastPar; // RTL in classic (PDF)LaTeX (without the Bidi package) // Luabibdi (used by LuaTeX) behaves like classic bool const rtl_classic = owner_->getParLanguage(bparams)->rightToLeft() && !runparams.useBidiPackage(); switch (curAlign) { case LYX_ALIGN_NONE: case LYX_ALIGN_BLOCK: case LYX_ALIGN_LAYOUT: case LYX_ALIGN_SPECIAL: case LYX_ALIGN_DECIMAL: break; case LYX_ALIGN_LEFT: { if (rtl_classic) // Classic (PDF)LaTeX switches the left/right logic in RTL mode output = corrected_env(os, end_tag, "flushright", code, lastpar, col); else output = corrected_env(os, end_tag, "flushleft", code, lastpar, col); break; } case LYX_ALIGN_RIGHT: { if (rtl_classic) // Classic (PDF)LaTeX switches the left/right logic in RTL mode output = corrected_env(os, end_tag, "flushleft", code, lastpar, col); else output = corrected_env(os, end_tag, "flushright", code, lastpar, col); break; } case LYX_ALIGN_CENTER: { corrected_env(os, end_tag, "center", code, lastpar, col); break; } } return output || lastpar; } // This one spits out the text of the paragraph void Paragraph::latex(BufferParams const & bparams, Font const & outerfont, otexstream & os, OutputParams const & runparams, int start_pos, int end_pos, bool force) const { LYXERR(Debug::LATEX, "Paragraph::latex... " << this); // FIXME This check should not be needed. Perhaps issue an // error if it triggers. Layout const & style = inInset().forcePlainLayout() ? bparams.documentClass().plainLayout() : *d->layout_; if (!force && style.inpreamble) return; bool const allowcust = allowParagraphCustomization(); // Current base font for all inherited font changes, without any // change caused by an individual character, except for the language: // It is set to the language of the first character. // As long as we are in the label, this font is the base font of the // label. Before the first body character it is set to the base font // of the body. Font basefont; // If there is an open font-encoding changing command (script wrapper), // alien_script is set to its name string alien_script; string script; // Maybe we have to create a optional argument. pos_type body_pos = beginOfBody(); unsigned int column = 0; // If we are inside an non inheritFont() inset, the real outerfont is local_font Font const real_outerfont = (!inInset().inheritFont() && runparams.local_font != nullptr) ? Font(runparams.local_font->fontInfo()) : outerfont; if (body_pos > 0) { // the optional argument is kept in curly brackets in // case it contains a ']' // This is not strictly needed, but if this is changed it // would be a file format change, and tex2lyx would need // to be adjusted, since it unconditionally removes the // braces when it parses \item. os << "[{"; column += 2; basefont = getLabelFont(bparams, real_outerfont); } else { basefont = getLayoutFont(bparams, real_outerfont); } // Which font is currently active? Font running_font(basefont); // Do we have an open font change? bool open_font = false; Change runningChange = runparams.inDeletedInset && !inInset().canTrackChanges() ? runparams.changeOfDeletedInset : Change(Change::UNCHANGED); Encoding const * const prev_encoding = runparams.encoding; os.texrow().start(id(), 0); // if the paragraph is empty, the loop will not be entered at all if (empty()) { // For InTitle commands, we have already opened a group // in output_latex::TeXOnePar. if (style.isCommand() && !style.intitle) { os << '{'; ++column; } if (!style.leftdelim().empty()) { os << style.leftdelim(); column += style.leftdelim().size(); } if (allowcust) column += d->startTeXParParams(bparams, os, runparams); } // Whether a \par can be issued for insets typeset inline with text. // Yes if greater than 0. This has to be static. THREAD_LOCAL_STATIC int parInline = 0; for (pos_type i = 0; i < size(); ++i) { // First char in paragraph or after label? if (i == body_pos) { if (body_pos > 0) { if (open_font) { bool needPar = false; column += running_font.latexWriteEndChanges( os, bparams, runparams, basefont, basefont, needPar); open_font = false; } basefont = getLayoutFont(bparams, real_outerfont); running_font = basefont; column += Changes::latexMarkChange(os, bparams, runningChange, Change(Change::UNCHANGED), runparams); runningChange = Change(Change::UNCHANGED); os << (isEnvSeparator(i) ? "}]~" : "}] "); column +=3; } // For InTitle commands, we have already opened a group // in output_latex::TeXOnePar. if (style.isCommand() && !style.intitle) { os << '{'; ++column; } if (!style.leftdelim().empty()) { os << style.leftdelim(); column += style.leftdelim().size(); } if (allowcust) column += d->startTeXParParams(bparams, os, runparams); } runparams.wasDisplayMath = runparams.inDisplayMath; runparams.inDisplayMath = false; bool deleted_display_math = false; Change const & change = runparams.inDeletedInset ? runparams.changeOfDeletedInset : lookupChange(i); char_type const c = d->text_[i]; // Check whether a display math inset follows bool output_changes; if (runparams.for_searchAdv == OutputParams::NoSearch) output_changes = bparams.output_changes; else output_changes = (runparams.for_searchAdv == OutputParams::SearchWithDeleted); if (c == META_INSET && i >= start_pos && (end_pos == -1 || i < end_pos)) { if (isDeleted(i)) runparams.ctObject = getInset(i)->getCtObject(runparams); InsetMath const * im = getInset(i)->asInsetMath(); if (im && im->asHullInset() && im->asHullInset()->outerDisplay()) { runparams.inDisplayMath = true; // runparams.inDeletedInset will be set by // latexInset later, but we need this info // before it is called. On the other hand, we // cannot set it here because it is a counter. deleted_display_math = isDeleted(i); } if (output_changes && deleted_display_math && runningChange == change && change.type == Change::DELETED && !os.afterParbreak()) { // A display math in the same paragraph follows. // We have to close and then reopen \lyxdeleted, // otherwise the math will be shifted up. OutputParams rp = runparams; if (open_font) { bool needPar = false; column += running_font.latexWriteEndChanges( os, bparams, rp, basefont, basefont, needPar); open_font = false; } basefont = (body_pos > i) ? getLabelFont(bparams, real_outerfont) : getLayoutFont(bparams, real_outerfont); running_font = basefont; column += Changes::latexMarkChange(os, bparams, Change(Change::INSERTED), change, rp); } } if (output_changes && runningChange != change) { if (!alien_script.empty()) { column += 1; os << "}"; alien_script.clear(); } if (open_font) { bool needPar = false; column += running_font.latexWriteEndChanges( os, bparams, runparams, basefont, basefont, needPar); open_font = false; } basefont = (body_pos > i) ? getLabelFont(bparams, real_outerfont) : getLayoutFont(bparams, real_outerfont); running_font = basefont; column += Changes::latexMarkChange(os, bparams, runningChange, change, runparams); runningChange = change; } // do not output text which is marked deleted // if change tracking output is disabled if (!output_changes && change.deleted()) { continue; } ++column; // Fully instantiated font Font current_font = getFont(bparams, i, outerfont); // Previous font Font const prev_font = (i > 0) ? getFont(bparams, i - 1, outerfont) : current_font; Font const last_font = running_font; bool const in_ct_deletion = (output_changes && runningChange == change && change.type == Change::DELETED && !os.afterParbreak()); // Insets where font switches are used (rather than font commands) bool const fontswitch_inset = c == META_INSET && getInset(i) && getInset(i)->allowMultiPar() && getInset(i)->lyxCode() != ERT_CODE && (getInset(i)->producesOutput() // FIXME Something more general? // Comments do not "produce output" but are still // part of the TeX source and require font switches // to be closed (otherwise LaTeX fails). || getInset(i)->layoutName() == "Note:Comment"); bool closeLanguage = false; bool lang_switched_at_inset = false; if (fontswitch_inset) { // Some insets cannot be inside a font change command. // However, even such insets *can* be placed in \L or \R // or their equivalents (for RTL language switches), // so we don't close the language in those cases // (= differing isRightToLeft()). // ArabTeX, though, doesn't seem to handle this special behavior. closeLanguage = basefont.isRightToLeft() == current_font.isRightToLeft() || basefont.language()->lang() == "arabic_arabtex" || current_font.language()->lang() == "arabic_arabtex"; // We need to check prev_font as language changes directly at inset // will only be started inside the inset. lang_switched_at_inset = prev_font.language() != current_font.language(); } // Do we need to close the previous font? bool langClosed = false; if (open_font && ((current_font != running_font || current_font.language() != running_font.language()) || (fontswitch_inset && (current_font == prev_font)))) { // ensure there is no open script-wrapper if (!alien_script.empty()) { column += 1; os << "}"; alien_script.clear(); } if (in_ct_deletion) { // We have to close and then reopen \lyxdeleted, // as strikeout needs to be on lowest level. os << '}'; column += 1; } if (closeLanguage) // Force language closing current_font.setLanguage(basefont.language()); Font const nextfont = (i == body_pos-1) ? basefont : current_font; bool needPar = false; column += running_font.latexWriteEndChanges( os, bparams, runparams, basefont, nextfont, needPar); if (in_ct_deletion) { // We have to close and then reopen \lyxdeleted, // as strikeout needs to be on lowest level. OutputParams rp = runparams; column += Changes::latexMarkChange(os, bparams, Change(Change::UNCHANGED), Change(Change::DELETED), rp); } open_font = false; // Has the language been closed in the latexWriteEndChanges() call above? langClosed = running_font.language() != basefont.language() && running_font.language() != nextfont.language() && (running_font.language()->encoding()->package() != Encoding::CJK); running_font = basefont; } // if necessary, close language environment before opening CJK string const running_lang = running_font.language()->babel(); string const lang_end_command = lyxrc.language_command_end; if (!lang_end_command.empty() && !bparams.useNonTeXFonts && !running_lang.empty() && running_lang == openLanguageName() && current_font.language()->encoding()->package() == Encoding::CJK) { string end_tag = subst(lang_end_command, "$$lang", running_lang); os << from_ascii(end_tag); column += end_tag.length(); popLanguageName(); } // Switch file encoding if necessary (and allowed) if ((!fontswitch_inset || closeLanguage) && !runparams.pass_thru && !style.pass_thru && runparams.encoding->package() != Encoding::none && current_font.language()->encoding()->package() != Encoding::none) { pair const enc_switch = switchEncoding(os.os(), bparams, runparams, *(current_font.language()->encoding())); if (enc_switch.first) { column += enc_switch.second; runparams.encoding = current_font.language()->encoding(); } } // A display math inset inside an ulem command will be output // as a box of width \linewidth, so we have to either disable // indentation if the inset starts a paragraph, or start a new // line to accommodate such box. This has to be done before // writing any font changing commands. if (runparams.inDisplayMath && !deleted_display_math && runparams.inulemcmd) { if (os.afterParbreak()) os << "\\noindent"; else os << "\\\\\n"; } // Do we need to change font? if ((current_font != running_font || current_font.language() != running_font.language()) && i != body_pos - 1) { if (!fontswitch_inset) { if (in_ct_deletion) { // We have to close and then reopen \lyxdeleted, // as strikeout needs to be on lowest level. OutputParams rp = runparams; bool needPar = false; column += running_font.latexWriteEndChanges( os, bparams, rp, basefont, basefont, needPar); os << '}'; column += 1; } otexstringstream ots; InsetText const * textinset = inInset().asInsetText(); bool const cprotect = textinset ? textinset->hasCProtectContent(runparams.moving_arg) && !textinset->text().isMainText() && inInset().lyxCode() != BRANCH_CODE : false; column += current_font.latexWriteStartChanges(ots, bparams, runparams, basefont, last_font, false, cprotect); // Check again for display math in ulem commands as a // font change may also occur just before a math inset. if (runparams.inDisplayMath && !deleted_display_math && runparams.inulemcmd) { if (os.afterParbreak()) os << "\\noindent"; else os << "\\\\\n"; } running_font = current_font; open_font = true; docstring fontchange = ots.str(); os << fontchange; // check whether the fontchange ends with a \\textcolor // modifier and the text starts with a space. If so we // need to add } in order to prevent \\textcolor from gobbling // the space (bug 4473). docstring const last_modifier = rsplit(fontchange, '\\'); if (prefixIs(last_modifier, from_ascii("textcolor")) && c == ' ') os << from_ascii("{}"); else if (ots.terminateCommand()) os << termcmd; if (in_ct_deletion) { // We have to close and then reopen \lyxdeleted, // as strikeout needs to be on lowest level. OutputParams rp = runparams; column += Changes::latexMarkChange(os, bparams, Change(Change::UNCHANGED), change, rp); } } else { running_font = current_font; open_font = !langClosed; } } // FIXME: think about end_pos implementation... if (c == ' ' && i >= start_pos && (end_pos == -1 || i < end_pos)) { // FIXME: integrate this case in latexSpecialChar // Do not print the separation of the optional argument // if style.pass_thru is false. This works because // latexSpecialChar ignores spaces if // style.pass_thru is false. if (i != body_pos - 1) { if (d->simpleTeXBlanks(bparams, runparams, os, i, column, current_font, style)) { // A surrogate pair was output. We // must not call latexSpecialChar // in this iteration, since it would output // the combining character again. ++i; continue; } } } OutputParams rp = runparams; rp.free_spacing = style.free_spacing; rp.local_font = ¤t_font; rp.intitle = style.intitle; // Two major modes: LaTeX or plain // Handle here those cases common to both modes // and then split to handle the two modes separately. if (c == META_INSET) { if (i >= start_pos && (end_pos == -1 || i < end_pos)) { // Greyedout notes and, in general, all insets // with InsetLayout::isDisplay() == false, // are typeset inline with the text. So, we // can add a \par to the last paragraph of // such insets only if nothing else follows. bool incremented = false; Inset const * inset = getInset(i); InsetText const * textinset = inset ? inset->asInsetText() : nullptr; if (i + 1 == size() && textinset && !inset->getLayout().isDisplay()) { ParagraphList const & pars = textinset->text().paragraphs(); pit_type const pit = pars.size() - 1; Font const lastfont = pit < 0 || pars[pit].empty() ? pars[pit].getLayoutFont( bparams, real_outerfont) : pars[pit].getFont(bparams, pars[pit].size() - 1, real_outerfont); if (lastfont.fontInfo().size() != basefont.fontInfo().size()) { ++parInline; incremented = true; } } // We need to restore parts of this after insets with // allowMultiPar() true Font const save_basefont = basefont; d->latexInset(bparams, os, rp, running_font, basefont, real_outerfont, open_font, runningChange, style, i, column, fontswitch_inset, closeLanguage, lang_switched_at_inset); if (fontswitch_inset) { if (open_font) { bool needPar = false; column += running_font.latexWriteEndChanges( os, bparams, runparams, basefont, basefont, needPar); open_font = false; } basefont.fontInfo().setSize(save_basefont.fontInfo().size()); basefont.fontInfo().setFamily(save_basefont.fontInfo().family()); basefont.fontInfo().setSeries(save_basefont.fontInfo().series()); } if (incremented) --parInline; if (runparams.ctObject == CtObject::DisplayObject || runparams.ctObject == CtObject::UDisplayObject) { // Close \lyx*deleted and force its // reopening (if needed) os << '}'; column++; runningChange = Change(Change::UNCHANGED); runparams.ctObject = CtObject::Normal; } } } else if (i >= start_pos && (end_pos == -1 || i < end_pos)) { if (!bparams.useNonTeXFonts) script = Encodings::isKnownScriptChar(c); if (script != alien_script) { if (!alien_script.empty()) { os << "}"; alien_script.clear(); } string fontenc = running_font.language()->fontenc(bparams); if (!script.empty() && !Encodings::fontencSupportsScript(fontenc, script)) { column += script.length() + 2; os << "\\" << script << "{"; alien_script = script; } } try { d->latexSpecialChar(os, bparams, rp, running_font, alien_script, style, i, end_pos, column); } catch (EncodingException & e) { if (runparams.dryrun) { os << "<" << _("LyX Warning: ") << _("uncodable character") << " '"; os.put(c); os << "'>"; } else { // add location information and throw again. e.par_id = id(); e.pos = i; throw; } } } // Set the encoding to that returned from latexSpecialChar (see // comment for encoding member in OutputParams.h) runparams.encoding = rp.encoding; // Also carry on the info on a closed ulem command for insets // such as Note that do not produce any output, so that no // command is ever executed but its opening was recorded. runparams.inulemcmd = rp.inulemcmd; // These need to be passed upstream as well runparams.need_maketitle = rp.need_maketitle; runparams.have_maketitle = rp.have_maketitle; // And finally, pass the post_macros upstream runparams.post_macro = rp.post_macro; } // Close wrapper for alien script if (!alien_script.empty()) { os << "}"; alien_script.clear(); } Font const font = empty() ? getLayoutFont(bparams, real_outerfont) : getFont(bparams, size() - 1, real_outerfont); InsetText const * textinset = inInset().asInsetText(); bool const maintext = textinset ? textinset->text().isMainText() : false; size_t const numpars = textinset ? textinset->text().paragraphs().size() : 0; bool needPar = false; if (style.resfont.size() != font.fontInfo().size() && (!runparams.isLastPar || maintext || (numpars > 1 && d->ownerCode() != CELL_CODE && (inInset().getLayout().isDisplay() || parInline))) && !style.isCommand()) { needPar = true; } // If we have an open font definition, we have to close it if (open_font) { // Make sure that \\par is done with the font of the last // character if this has another size as the default. // This is necessary because LaTeX (and LyX on the screen) // calculates the space between the baselines according // to this font. (Matthias) // // We must not change the font for the last paragraph // of non-multipar insets, tabular cells or commands, // since this produces unwanted whitespace. #ifdef FIXED_LANGUAGE_END_DETECTION if (next_) { running_font.latexWriteEndChanges(os, bparams, runparams, basefont, next_->getFont(bparams, 0, outerfont), needPar); } else { running_font.latexWriteEndChanges(os, bparams, runparams, basefont, basefont, needPar); } #else //FIXME: For now we ALWAYS have to close the foreign font settings if they are //FIXME: there as we start another \selectlanguage with the next paragraph if //FIXME: we are in need of this. This should be fixed sometime (Jug) running_font.latexWriteEndChanges(os, bparams, runparams, basefont, basefont, needPar); #endif } if (needPar) { // The \par could not be inserted at the same nesting // level of the font size change, so do it now. os << "{\\" << font.latexSize() << "\\par}"; } if (!runparams.inDeletedInset || inInset().canTrackChanges()) column += Changes::latexMarkChange(os, bparams, runningChange, Change(Change::UNCHANGED), runparams); // Needed if there is an optional argument but no contents. if (body_pos > 0 && body_pos == size()) { os << "}]~"; } if (!style.rightdelim().empty()) { os << style.rightdelim(); column += style.rightdelim().size(); } if (allowcust && d->endTeXParParams(bparams, os, runparams) && runparams.encoding != prev_encoding) { runparams.encoding = prev_encoding; os << setEncoding(prev_encoding->iconvName()); } LYXERR(Debug::LATEX, "Paragraph::latex... done " << this); } bool Paragraph::emptyTag() const { for (pos_type i = 0; i < size(); ++i) { if (Inset const * inset = getInset(i)) { InsetCode lyx_code = inset->lyxCode(); // FIXME testing like that is wrong. What is // the intent? if (lyx_code != TOC_CODE && lyx_code != INCLUDE_CODE && lyx_code != GRAPHICS_CODE && lyx_code != ERT_CODE && lyx_code != LISTINGS_CODE && lyx_code != FLOAT_CODE && lyx_code != TABULAR_CODE) { return false; } } else { char_type c = d->text_[i]; if (c != ' ' && c != '\t') return false; } } return true; } string Paragraph::getID(Buffer const &, OutputParams const &) const { for (pos_type i = 0; i < size(); ++i) { if (Inset const * inset = getInset(i)) { InsetCode lyx_code = inset->lyxCode(); if (lyx_code == LABEL_CODE) { InsetLabel const * const il = static_cast(inset); docstring const & id = il->getParam("name"); return "id='" + to_utf8(xml::cleanID(id)) + "'"; } } } return string(); } pos_type Paragraph::firstWordDocBook(XMLStream & xs, OutputParams const & runparams) const { pos_type i; for (i = 0; i < size(); ++i) { if (Inset const * inset = getInset(i)) { inset->docbook(xs, runparams); } else { char_type c = d->text_[i]; if (c == ' ') break; xs << c; } } return i; } pos_type Paragraph::firstWordLyXHTML(XMLStream & xs, OutputParams const & runparams) const { pos_type i; for (i = 0; i < size(); ++i) { if (Inset const * inset = getInset(i)) { inset->xhtml(xs, runparams); } else { char_type c = d->text_[i]; if (c == ' ') break; xs << c; } } return i; } bool Paragraph::Private::onlyText(Buffer const & buf, Font const & outerfont, pos_type initial) const { Font font_old; pos_type size = text_.size(); for (pos_type i = initial; i < size; ++i) { Font font = owner_->getFont(buf.params(), i, outerfont); if (text_[i] == META_INSET) return false; if (i != initial && font != font_old) return false; font_old = font; } return true; } namespace { void doFontSwitchDocBook(vector & tagsToOpen, vector & tagsToClose, bool & flag, FontState curstate, xml::FontTypes type) { if (curstate == FONT_ON) { tagsToOpen.push_back(docbookStartFontTag(type)); flag = true; } else if (flag) { tagsToClose.push_back(docbookEndFontTag(type)); flag = false; } } class OptionalFontType { public: xml::FontTypes ft; bool has_value; OptionalFontType(): ft(xml::FT_EMPH), has_value(false) {} // A possible value at random for ft. OptionalFontType(xml::FontTypes ft): ft(ft), has_value(true) {} }; OptionalFontType fontShapeToXml(FontShape fs) { switch (fs) { case ITALIC_SHAPE: return {xml::FT_ITALIC}; case SLANTED_SHAPE: return {xml::FT_SLANTED}; case SMALLCAPS_SHAPE: return {xml::FT_SMALLCAPS}; case UP_SHAPE: case INHERIT_SHAPE: return {}; default: // the other tags are for internal use LATTEST(false); return {}; } } OptionalFontType fontFamilyToXml(FontFamily fm) { switch (fm) { case ROMAN_FAMILY: return {xml::FT_ROMAN}; case SANS_FAMILY: return {xml::FT_SANS}; case TYPEWRITER_FAMILY: return {xml::FT_TYPE}; case INHERIT_FAMILY: return {}; default: // the other tags are for internal use LATTEST(false); return {}; } } OptionalFontType fontSizeToXml(FontSize fs) { switch (fs) { case TINY_SIZE: return {xml::FT_SIZE_TINY}; case SCRIPT_SIZE: return {xml::FT_SIZE_SCRIPT}; case FOOTNOTE_SIZE: return {xml::FT_SIZE_FOOTNOTE}; case SMALL_SIZE: return {xml::FT_SIZE_SMALL}; case LARGE_SIZE: return {xml::FT_SIZE_LARGE}; case LARGER_SIZE: return {xml::FT_SIZE_LARGER}; case LARGEST_SIZE: return {xml::FT_SIZE_LARGEST}; case HUGE_SIZE: return {xml::FT_SIZE_HUGE}; case HUGER_SIZE: return {xml::FT_SIZE_HUGER}; case INCREASE_SIZE: return {xml::FT_SIZE_INCREASE}; case DECREASE_SIZE: return {xml::FT_SIZE_DECREASE}; case INHERIT_SIZE: case NORMAL_SIZE: return {}; default: // the other tags are for internal use LATTEST(false); return {}; } } struct DocBookFontState { FontShape curr_fs = INHERIT_SHAPE; FontFamily curr_fam = INHERIT_FAMILY; FontSize curr_size = INHERIT_SIZE; // track whether we have opened these tags bool emph_flag = false; bool bold_flag = false; bool noun_flag = false; bool ubar_flag = false; bool dbar_flag = false; bool sout_flag = false; bool xout_flag = false; bool wave_flag = false; // shape tags bool shap_flag = false; // family tags bool faml_flag = false; // size tags bool size_flag = false; }; std::tuple, vector> computeDocBookFontSwitch(FontInfo const & font_old, Font const & font, std::string const & default_family, DocBookFontState & fs) { vector tagsToOpen; vector tagsToClose; // emphasis FontState curstate = font.fontInfo().emph(); if (font_old.emph() != curstate) doFontSwitchDocBook(tagsToOpen, tagsToClose, fs.emph_flag, curstate, xml::FT_EMPH); // noun curstate = font.fontInfo().noun(); if (font_old.noun() != curstate) doFontSwitchDocBook(tagsToOpen, tagsToClose, fs.noun_flag, curstate, xml::FT_NOUN); // underbar curstate = font.fontInfo().underbar(); if (font_old.underbar() != curstate) doFontSwitchDocBook(tagsToOpen, tagsToClose, fs.ubar_flag, curstate, xml::FT_UBAR); // strikeout curstate = font.fontInfo().strikeout(); if (font_old.strikeout() != curstate) doFontSwitchDocBook(tagsToOpen, tagsToClose, fs.sout_flag, curstate, xml::FT_SOUT); // xout curstate = font.fontInfo().xout(); if (font_old.xout() != curstate) doFontSwitchDocBook(tagsToOpen, tagsToClose, fs.xout_flag, curstate, xml::FT_XOUT); // double underbar curstate = font.fontInfo().uuline(); if (font_old.uuline() != curstate) doFontSwitchDocBook(tagsToOpen, tagsToClose, fs.dbar_flag, curstate, xml::FT_DBAR); // wavy line curstate = font.fontInfo().uwave(); if (font_old.uwave() != curstate) doFontSwitchDocBook(tagsToOpen, tagsToClose, fs.wave_flag, curstate, xml::FT_WAVE); // bold // a little hackish, but allows us to reuse what we have. curstate = (font.fontInfo().series() == BOLD_SERIES ? FONT_ON : FONT_OFF); if (font_old.series() != font.fontInfo().series()) doFontSwitchDocBook(tagsToOpen, tagsToClose, fs.bold_flag, curstate, xml::FT_BOLD); // Font shape fs.curr_fs = font.fontInfo().shape(); FontShape old_fs = font_old.shape(); if (old_fs != fs.curr_fs) { if (fs.shap_flag) { OptionalFontType tag = fontShapeToXml(old_fs); if (tag.has_value) tagsToClose.push_back(docbookEndFontTag(tag.ft)); fs.shap_flag = false; } OptionalFontType tag = fontShapeToXml(fs.curr_fs); if (tag.has_value) tagsToOpen.push_back(docbookStartFontTag(tag.ft)); } // Font family fs.curr_fam = font.fontInfo().family(); FontFamily old_fam = font_old.family(); if (old_fam != fs.curr_fam) { if (fs.faml_flag) { OptionalFontType tag = fontFamilyToXml(old_fam); if (tag.has_value) tagsToClose.push_back(docbookEndFontTag(tag.ft)); fs.faml_flag = false; } switch (fs.curr_fam) { case ROMAN_FAMILY: // we will treat a "default" font family as roman, since we have // no other idea what to do. if (default_family != "rmdefault" && default_family != "default") { tagsToOpen.push_back(docbookStartFontTag(xml::FT_ROMAN)); fs.faml_flag = true; } break; case SANS_FAMILY: if (default_family != "sfdefault") { tagsToOpen.push_back(docbookStartFontTag(xml::FT_SANS)); fs.faml_flag = true; } break; case TYPEWRITER_FAMILY: if (default_family != "ttdefault") { tagsToOpen.push_back(docbookStartFontTag(xml::FT_TYPE)); fs.faml_flag = true; } break; case INHERIT_FAMILY: break; default: // the other tags are for internal use LATTEST(false); break; } } // Font size fs.curr_size = font.fontInfo().size(); FontSize old_size = font_old.size(); if (old_size != fs.curr_size) { if (fs.size_flag) { OptionalFontType tag = fontSizeToXml(old_size); if (tag.has_value) tagsToClose.push_back(docbookEndFontTag(tag.ft)); fs.size_flag = false; } OptionalFontType tag = fontSizeToXml(fs.curr_size); if (tag.has_value) { tagsToOpen.push_back(docbookStartFontTag(tag.ft)); fs.size_flag = true; } } return std::tuple, vector>(tagsToOpen, tagsToClose); } } // anonymous namespace std::tuple, std::vector, std::vector> Paragraph::simpleDocBookOnePar(Buffer const & buf, OutputParams const & runparams, Font const & outerfont, pos_type initial, bool is_last_par, bool ignore_fonts) const { std::vector prependedParagraphs; std::vector generatedParagraphs; std::vector appendedParagraphs; odocstringstream os; // If there is an argument that must be output before the main tag, do it before handling the rest of the paragraph. // Also tag all arguments that shouldn't go in the main content right now, so that they are never generated at the // wrong place. OutputParams rp = runparams; for (pos_type i = initial; i < size(); ++i) { if (getInset(i) && getInset(i)->lyxCode() == ARG_CODE) { const InsetArgument * arg = getInset(i)->asInsetArgument(); if (arg->docbookargumentbeforemaintag()) { auto xs_local = XMLStream(os); arg->docbook(xs_local, rp); prependedParagraphs.push_back(os.str()); os.str(from_ascii("")); rp.docbook_prepended_arguments.insert(arg); } else if (arg->docbookargumentaftermaintag()) { rp.docbook_appended_arguments.insert(arg); } } } // State variables for the main loop. auto xs = new XMLStream(os); // XMLStream has no copy constructor: to create a new object, the only solution // is to hold a pointer to the XMLStream (xs = XMLStream(os) is not allowed once the first object is built). std::vector delayedChars; // When a font tag ends with a space, output it after the closing font tag. // This requires to store delayed characters at some point. DocBookFontState fs; // Track whether we have opened font tags DocBookFontState old_fs = fs; Layout const & style = *d->layout_; FontInfo font_old = style.labeltype == LABEL_MANUAL ? style.labelfont : style.font; string const default_family = buf.masterBuffer()->params().fonts_default_family; vector tagsToOpen; vector tagsToClose; // Parsing main loop. for (pos_type i = initial; i < size(); ++i) { bool ignore_fonts_i = ignore_fonts || style.docbooknofontinside() || (getInset(i) && getInset(i)->getLayout().docbooknofontinside()); // Don't show deleted material in the output. if (isDeleted(i)) continue; // If this is an InsetNewline, generate a new paragraph. Also reset the fonts, so that tags are closed in // this paragraph. if (getInset(i) && getInset(i)->lyxCode() == NEWLINE_CODE) { if (!ignore_fonts_i) xs->closeFontTags(); // Output one paragraph (i.e. one string entry in generatedParagraphs). generatedParagraphs.push_back(os.str()); // Create a new XMLStream for the new paragraph, completely independent from the previous one. This implies // that the string stream must be reset. os.str(from_ascii("")); delete xs; xs = new XMLStream(os); // Restore the fonts for the new paragraph, so that the right tags are opened for the new entry. if (!ignore_fonts_i) { font_old = outerfont.fontInfo(); fs = old_fs; } } // Determine which tags should be opened or closed regarding fonts. Font const font = getFont(buf.masterBuffer()->params(), i, outerfont); tie(tagsToOpen, tagsToClose) = computeDocBookFontSwitch(font_old, font, default_family, fs); if (!ignore_fonts_i) { vector::const_iterator cit = tagsToClose.begin(); vector::const_iterator cen = tagsToClose.end(); for (; cit != cen; ++cit) *xs << *cit; } // Deal with the delayed characters *after* closing font tags. if (!delayedChars.empty()) { for (char_type c: delayedChars) *xs << c; delayedChars.clear(); } if (!ignore_fonts_i) { vector::const_iterator sit = tagsToOpen.begin(); vector::const_iterator sen = tagsToOpen.end(); for (; sit != sen; ++sit) *xs << *sit; tagsToClose.clear(); tagsToOpen.clear(); } // Finally, write the next character or inset. if (Inset const * inset = getInset(i)) { bool inset_is_argument_elsewhere = getInset(i)->asInsetArgument() && rp.docbook_appended_arguments.find(inset->asInsetArgument()) != rp.docbook_appended_arguments.end() && rp.docbook_prepended_arguments.find(inset->asInsetArgument()) != rp.docbook_prepended_arguments.end(); if ((!rp.for_toc || inset->isInToc()) && !inset_is_argument_elsewhere) { // Arguments may need to be output OutputParams np = rp; np.local_font = &font; // TODO: special case will bite here. np.docbook_in_par = true; inset->docbook(*xs, np); } } else { char_type c = getUChar(buf.masterBuffer()->params(), rp, i); if (lyx::isSpace(c) && !ignore_fonts) delayedChars.push_back(c); else *xs << c; } font_old = font.fontInfo(); } // FIXME, this code is just imported from XHTML // I'm worried about what happens if a branch, say, is itself // wrapped in some font stuff. I think that will not work. if (!ignore_fonts) xs->closeFontTags(); // Deal with the delayed characters *after* closing font tags. if (!delayedChars.empty()) for (char_type c: delayedChars) *xs << c; // In listings, new lines (i.e. \n characters in the output) are very important. Avoid generating one for the // last line to get a clean output. if (rp.docbook_in_listing && !is_last_par) *xs << xml::CR(); // Finalise the last (and most likely only) paragraph. generatedParagraphs.push_back(os.str()); os.str(from_ascii("")); delete xs; // If there is an argument that must be output after the main tag, do it after handling the rest of the paragraph. for (pos_type i = initial; i < size(); ++i) { if (getInset(i) && getInset(i)->lyxCode() == ARG_CODE) { const InsetArgument * arg = getInset(i)->asInsetArgument(); if (arg->docbookargumentaftermaintag()) { // Don't use rp, as this argument would not generate anything. auto xs_local = XMLStream(os); arg->docbook(xs_local, runparams); appendedParagraphs.push_back(os.str()); os.str(from_ascii("")); } } } return std::make_tuple(prependedParagraphs, generatedParagraphs, appendedParagraphs); } namespace { void doFontSwitchXHTML(vector & tagsToOpen, vector & tagsToClose, bool & flag, FontState curstate, xml::FontTypes type) { if (curstate == FONT_ON) { tagsToOpen.push_back(xhtmlStartFontTag(type)); flag = true; } else if (flag) { tagsToClose.push_back(xhtmlEndFontTag(type)); flag = false; } } } // anonymous namespace docstring Paragraph::simpleLyXHTMLOnePar(Buffer const & buf, XMLStream & xs, OutputParams const & runparams, Font const & outerfont, bool start_paragraph, bool close_paragraph, pos_type initial) const { docstring retval; // track whether we have opened these tags bool emph_flag = false; bool bold_flag = false; bool noun_flag = false; bool ubar_flag = false; bool dbar_flag = false; bool sout_flag = false; bool xout_flag = false; bool wave_flag = false; // shape tags bool shap_flag = false; // family tags bool faml_flag = false; // size tags bool size_flag = false; Layout const & style = *d->layout_; if (start_paragraph) xs.startDivision(allowEmpty()); FontInfo font_old = style.labeltype == LABEL_MANUAL ? style.labelfont : style.font; FontShape curr_fs = INHERIT_SHAPE; FontFamily curr_fam = INHERIT_FAMILY; FontSize curr_size = INHERIT_SIZE; string const default_family = buf.masterBuffer()->params().fonts_default_family; vector tagsToOpen; vector tagsToClose; // parsing main loop for (pos_type i = initial; i < size(); ++i) { // let's not show deleted material in the output if (isDeleted(i)) continue; Font const font = getFont(buf.masterBuffer()->params(), i, outerfont); // emphasis FontState curstate = font.fontInfo().emph(); if (font_old.emph() != curstate) doFontSwitchXHTML(tagsToOpen, tagsToClose, emph_flag, curstate, xml::FT_EMPH); // noun curstate = font.fontInfo().noun(); if (font_old.noun() != curstate) doFontSwitchXHTML(tagsToOpen, tagsToClose, noun_flag, curstate, xml::FT_NOUN); // underbar curstate = font.fontInfo().underbar(); if (font_old.underbar() != curstate) doFontSwitchXHTML(tagsToOpen, tagsToClose, ubar_flag, curstate, xml::FT_UBAR); // strikeout curstate = font.fontInfo().strikeout(); if (font_old.strikeout() != curstate) doFontSwitchXHTML(tagsToOpen, tagsToClose, sout_flag, curstate, xml::FT_SOUT); // xout curstate = font.fontInfo().xout(); if (font_old.xout() != curstate) doFontSwitchXHTML(tagsToOpen, tagsToClose, xout_flag, curstate, xml::FT_XOUT); // double underbar curstate = font.fontInfo().uuline(); if (font_old.uuline() != curstate) doFontSwitchXHTML(tagsToOpen, tagsToClose, dbar_flag, curstate, xml::FT_DBAR); // wavy line curstate = font.fontInfo().uwave(); if (font_old.uwave() != curstate) doFontSwitchXHTML(tagsToOpen, tagsToClose, wave_flag, curstate, xml::FT_WAVE); // bold // a little hackish, but allows us to reuse what we have. curstate = (font.fontInfo().series() == BOLD_SERIES ? FONT_ON : FONT_OFF); if (font_old.series() != font.fontInfo().series()) doFontSwitchXHTML(tagsToOpen, tagsToClose, bold_flag, curstate, xml::FT_BOLD); // Font shape curr_fs = font.fontInfo().shape(); FontShape old_fs = font_old.shape(); if (old_fs != curr_fs) { if (shap_flag) { switch (old_fs) { case ITALIC_SHAPE: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_ITALIC)); break; case SLANTED_SHAPE: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_SLANTED)); break; case SMALLCAPS_SHAPE: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_SMALLCAPS)); break; case UP_SHAPE: case INHERIT_SHAPE: break; default: // the other tags are for internal use LATTEST(false); break; } shap_flag = false; } switch (curr_fs) { case ITALIC_SHAPE: tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_ITALIC)); shap_flag = true; break; case SLANTED_SHAPE: tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_SLANTED)); shap_flag = true; break; case SMALLCAPS_SHAPE: tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_SMALLCAPS)); shap_flag = true; break; case UP_SHAPE: case INHERIT_SHAPE: break; default: // the other tags are for internal use LATTEST(false); break; } } // Font family curr_fam = font.fontInfo().family(); FontFamily old_fam = font_old.family(); if (old_fam != curr_fam) { if (faml_flag) { switch (old_fam) { case ROMAN_FAMILY: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_ROMAN)); break; case SANS_FAMILY: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_SANS)); break; case TYPEWRITER_FAMILY: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_TYPE)); break; case INHERIT_FAMILY: break; default: // the other tags are for internal use LATTEST(false); break; } faml_flag = false; } switch (curr_fam) { case ROMAN_FAMILY: // we will treat a "default" font family as roman, since we have // no other idea what to do. if (default_family != "rmdefault" && default_family != "default") { tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_ROMAN)); faml_flag = true; } break; case SANS_FAMILY: if (default_family != "sfdefault") { tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_SANS)); faml_flag = true; } break; case TYPEWRITER_FAMILY: if (default_family != "ttdefault") { tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_TYPE)); faml_flag = true; } break; case INHERIT_FAMILY: break; default: // the other tags are for internal use LATTEST(false); break; } } // Font size curr_size = font.fontInfo().size(); FontSize old_size = font_old.size(); if (old_size != curr_size) { if (size_flag) { switch (old_size) { case TINY_SIZE: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_SIZE_TINY)); break; case SCRIPT_SIZE: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_SIZE_SCRIPT)); break; case FOOTNOTE_SIZE: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_SIZE_FOOTNOTE)); break; case SMALL_SIZE: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_SIZE_SMALL)); break; case LARGE_SIZE: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_SIZE_LARGE)); break; case LARGER_SIZE: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_SIZE_LARGER)); break; case LARGEST_SIZE: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_SIZE_LARGEST)); break; case HUGE_SIZE: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_SIZE_HUGE)); break; case HUGER_SIZE: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_SIZE_HUGER)); break; case INCREASE_SIZE: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_SIZE_INCREASE)); break; case DECREASE_SIZE: tagsToClose.emplace_back(xhtmlEndFontTag(xml::FT_SIZE_DECREASE)); break; case INHERIT_SIZE: case NORMAL_SIZE: break; default: // the other tags are for internal use LATTEST(false); break; } size_flag = false; } switch (curr_size) { case TINY_SIZE: tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_SIZE_TINY)); size_flag = true; break; case SCRIPT_SIZE: tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_SIZE_SCRIPT)); size_flag = true; break; case FOOTNOTE_SIZE: tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_SIZE_FOOTNOTE)); size_flag = true; break; case SMALL_SIZE: tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_SIZE_SMALL)); size_flag = true; break; case LARGE_SIZE: tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_SIZE_LARGE)); size_flag = true; break; case LARGER_SIZE: tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_SIZE_LARGER)); size_flag = true; break; case LARGEST_SIZE: tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_SIZE_LARGEST)); size_flag = true; break; case HUGE_SIZE: tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_SIZE_HUGE)); size_flag = true; break; case HUGER_SIZE: tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_SIZE_HUGER)); size_flag = true; break; case INCREASE_SIZE: tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_SIZE_INCREASE)); size_flag = true; break; case DECREASE_SIZE: tagsToOpen.emplace_back(xhtmlStartFontTag(xml::FT_SIZE_DECREASE)); size_flag = true; break; case INHERIT_SIZE: case NORMAL_SIZE: break; default: // the other tags are for internal use LATTEST(false); break; } } // FIXME XHTML // Other such tags? What about the other text ranges? vector::const_iterator cit = tagsToClose.begin(); vector::const_iterator cen = tagsToClose.end(); for (; cit != cen; ++cit) xs << *cit; vector::const_iterator sit = tagsToOpen.begin(); vector::const_iterator sen = tagsToOpen.end(); for (; sit != sen; ++sit) xs << *sit; tagsToClose.clear(); tagsToOpen.clear(); Inset const * inset = getInset(i); if (inset) { if (!runparams.for_toc || inset->isInToc()) { OutputParams np = runparams; np.local_font = &font; // If the paragraph has size 1, then we are in the "special // case" where we do not output the containing paragraph info if (!inset->getLayout().htmlisblock() && size() != 1) np.html_in_par = true; retval += inset->xhtml(xs, np); } } else { char_type c = getUChar(buf.masterBuffer()->params(), runparams, i); if (c == ' ' && (style.free_spacing || runparams.free_spacing)) xs << XMLStream::ESCAPE_NONE << " "; else xs << c; } font_old = font.fontInfo(); } // FIXME XHTML // I'm worried about what happens if a branch, say, is itself // wrapped in some font stuff. I think that will not work. xs.closeFontTags(); if (close_paragraph) xs.endDivision(); return retval; } bool Paragraph::isHfill(pos_type pos) const { Inset const * inset = getInset(pos); return inset && inset->isHfill(); } bool Paragraph::isNewline(pos_type pos) const { // U+2028 LINE SEPARATOR // U+2029 PARAGRAPH SEPARATOR char_type const c = d->text_[pos]; if (c == 0x2028 || c == 0x2029) return true; Inset const * inset = getInset(pos); return inset && inset->lyxCode() == NEWLINE_CODE; } bool Paragraph::isEnvSeparator(pos_type pos) const { Inset const * inset = getInset(pos); return inset && inset->lyxCode() == SEPARATOR_CODE; } bool Paragraph::isLineSeparator(pos_type pos) const { char_type const c = d->text_[pos]; if (isLineSeparatorChar(c)) return true; Inset const * inset = getInset(pos); return inset && inset->isLineSeparator(); } bool Paragraph::isWordSeparator(pos_type pos, bool const ignore_deleted) const { if (pos == size()) return true; if (ignore_deleted && isDeleted(pos)) return false; if (Inset const * inset = getInset(pos)) return !inset->isLetter(); // if we have a hard hyphen (no en- or emdash) or apostrophe // we pass this to the spell checker // FIXME: this method is subject to change, visit // https://bugzilla.mozilla.org/show_bug.cgi?id=355178 // to get an impression how complex this is. if (isHardHyphenOrApostrophe(pos)) return false; char_type const c = d->text_[pos]; // We want to pass the escape chars to the spellchecker docstring const escape_chars = from_utf8(lyxrc.spellchecker_esc_chars); return !isLetterChar(c) && !isDigitASCII(c) && !contains(escape_chars, c); } bool Paragraph::isHardHyphenOrApostrophe(pos_type pos) const { pos_type const psize = size(); if (pos >= psize) return false; char_type const c = d->text_[pos]; if (c != '-' && c != '\'') return false; pos_type nextpos = pos + 1; pos_type prevpos = pos > 0 ? pos - 1 : 0; if ((nextpos == psize || isSpace(nextpos)) && (pos == 0 || isSpace(prevpos))) return false; return true; } bool Paragraph::needsCProtection(bool const fragile) const { // first check the layout of the paragraph, but only in insets InsetText const * textinset = inInset().asInsetText(); bool const maintext = textinset ? textinset->text().isMainText() : false; if (!maintext && layout().needcprotect) { // Environments need cprotection regardless the content if (layout().latextype == LATEX_ENVIRONMENT) return true; // Commands need cprotection if they contain specific chars int const nchars_escape = 9; static char_type const chars_escape[nchars_escape] = { '&', '_', '$', '%', '#', '^', '{', '}', '\\'}; docstring const pars = asString(); for (int k = 0; k < nchars_escape; k++) { if (contains(pars, chars_escape[k])) return true; } } // now check whether we have insets that need cprotection pos_type size = pos_type(d->text_.size()); for (pos_type i = 0; i < size; ++i) { if (!isInset(i)) continue; Inset const * ins = getInset(i); if (ins->needsCProtection(maintext, fragile)) return true; // Now check math environments InsetMath const * im = getInset(i)->asInsetMath(); if (!im || im->cell(0).empty()) continue; switch(im->cell(0)[0]->lyxCode()) { case MATH_AMSARRAY_CODE: case MATH_SUBSTACK_CODE: case MATH_ENV_CODE: case MATH_XYMATRIX_CODE: // these need cprotection return true; default: break; } } return false; } FontSpan const & Paragraph::getSpellRange(pos_type pos) const { return d->speller_state_.getRange(pos); } bool Paragraph::isChar(pos_type pos) const { if (Inset const * inset = getInset(pos)) return inset->isChar(); char_type const c = d->text_[pos]; return !isLetterChar(c) && !isDigitASCII(c) && !lyx::isSpace(c); } bool Paragraph::isSpace(pos_type pos) const { if (Inset const * inset = getInset(pos)) return inset->isSpace(); char_type const c = d->text_[pos]; return lyx::isSpace(c); } Language const * Paragraph::getParLanguage(BufferParams const & bparams) const { if (!empty()) return getFirstFontSettings(bparams).language(); // FIXME: we should check the prev par as well (Lgb) return bparams.language; } bool Paragraph::isRTL(BufferParams const & bparams) const { return getParLanguage(bparams)->rightToLeft() && !inInset().getLayout().forceLTR(); } void Paragraph::changeLanguage(BufferParams const & bparams, Language const * from, Language const * to) { // change language including dummy font change at the end for (pos_type i = 0; i <= size(); ++i) { Font font = getFontSettings(bparams, i); if (font.language() == from) { font.setLanguage(to); setFont(i, font); d->requestSpellCheck(i); } } } bool Paragraph::isMultiLingual(BufferParams const & bparams) const { Language const * doc_language = bparams.language; for (auto const & f : d->fontlist_) if (f.font().language() != ignore_language && f.font().language() != latex_language && f.font().language() != doc_language) return true; return false; } void Paragraph::getLanguages(std::set & langs) const { for (auto const & f : d->fontlist_) { Language const * lang = f.font().language(); if (lang != ignore_language && lang != latex_language) langs.insert(lang); } } docstring Paragraph::asString(int options) const { return asString(0, size(), options); } docstring Paragraph::asString(pos_type beg, pos_type end, int options, const OutputParams *runparams) const { odocstringstream os; if (beg == 0 && options & AS_STR_LABEL && !d->params_.labelString().empty()) os << d->params_.labelString() << ' '; for (pos_type i = beg; i < end; ++i) { if ((options & AS_STR_SKIPDELETE) && isDeleted(i)) continue; char_type const c = d->text_[i]; if (isPrintable(c) || c == '\t' || (c == '\n' && (options & AS_STR_NEWLINES))) os.put(c); else if (c == META_INSET && (options & AS_STR_INSETS)) { if (c == META_INSET && (options & AS_STR_PLAINTEXT)) { LASSERT(runparams != nullptr, return docstring()); getInset(i)->plaintext(os, *runparams); } else if (c == META_INSET && (options & AS_STR_MATHED) && getInset(i)->lyxCode() == REF_CODE) { Buffer const & buf = getInset(i)->buffer(); OutputParams rp(&buf.params().encoding()); Font const font(inherit_font, buf.params().language); rp.local_font = &font; otexstream ots(os); getInset(i)->latex(ots, rp); } else { getInset(i)->toString(os); } } } return os.str(); } void Paragraph::forOutliner(docstring & os, size_t const maxlen, bool const shorten, bool const label) const { size_t tmplen = shorten ? maxlen + 1 : maxlen; if (label && !labelString().empty()) os += labelString() + ' '; if (!layout().isTocCaption()) return; for (pos_type i = 0; i < size() && os.length() < tmplen; ++i) { if (isDeleted(i)) continue; char_type const c = d->text_[i]; if (isPrintable(c)) os += c; else if (c == META_INSET) getInset(i)->forOutliner(os, tmplen, false); } if (shorten) Text::shortenForOutliner(os, maxlen); } void Paragraph::setInsetOwner(Inset const * inset) { d->inset_owner_ = inset; } int Paragraph::id() const { return d->id_; } void Paragraph::setId(int id) { d->id_ = id; } Layout const & Paragraph::layout() const { return *d->layout_; } void Paragraph::setLayout(Layout const & layout) { d->layout_ = &layout; } void Paragraph::setDefaultLayout(DocumentClass const & tc) { setLayout(tc.defaultLayout()); } void Paragraph::setPlainLayout(DocumentClass const & tc) { setLayout(tc.plainLayout()); } void Paragraph::setPlainOrDefaultLayout(DocumentClass const & tc) { if (usePlainLayout()) setPlainLayout(tc); else setDefaultLayout(tc); } Inset const & Paragraph::inInset() const { LBUFERR(d->inset_owner_); return *d->inset_owner_; } ParagraphParameters & Paragraph::params() { return d->params_; } ParagraphParameters const & Paragraph::params() const { return d->params_; } bool Paragraph::isFreeSpacing() const { if (d->layout_->free_spacing) return true; return d->inset_owner_ && d->inset_owner_->isFreeSpacing(); } bool Paragraph::allowEmpty() const { if (d->layout_->keepempty) return true; return d->inset_owner_ && d->inset_owner_->allowEmpty(); } bool Paragraph::brokenBiblio() const { // There is a problem if there is no bibitem at position 0 in // paragraphs that need one, if there is another bibitem in the // paragraph or if this paragraph is not supposed to have // a bibitem inset at all. return ((d->layout_->labeltype == LABEL_BIBLIO && (d->insetlist_.find(BIBITEM_CODE) != 0 || d->insetlist_.find(BIBITEM_CODE, 1) > 0)) || (d->layout_->labeltype != LABEL_BIBLIO && d->insetlist_.find(BIBITEM_CODE) != -1)); } int Paragraph::fixBiblio(Buffer const & buffer) { // FIXME: when there was already an inset at 0, the return value is 1, // which does not tell whether another inset has been removed; the // cursor cannot be correctly updated. bool const track_changes = buffer.params().track_changes; int bibitem_pos = d->insetlist_.find(BIBITEM_CODE); // The case where paragraph is not BIBLIO if (d->layout_->labeltype != LABEL_BIBLIO) { if (bibitem_pos == -1) // No InsetBibitem => OK return 0; // There is an InsetBibitem: remove it! d->insetlist_.release(bibitem_pos); eraseChar(bibitem_pos, track_changes); return (bibitem_pos == 0) ? -1 : -bibitem_pos; } bool const hasbibitem0 = bibitem_pos == 0; if (hasbibitem0) { bibitem_pos = d->insetlist_.find(BIBITEM_CODE, 1); // There was an InsetBibitem at pos 0, // and no other one => OK if (bibitem_pos == -1) return 0; // there is a bibitem at the 0 position, but since // there is a second one, we copy the second on the // first. We're assuming there are at most two of // these, which there should be. // FIXME: why does it make sense to do that rather // than keep the first? (JMarc) Inset * inset = releaseInset(bibitem_pos); d->insetlist_.begin()->inset = inset; // This needs to be done to update the counter (#8499) buffer.updateBuffer(); return -bibitem_pos; } // We need to create an inset at the beginning Inset * inset = nullptr; if (bibitem_pos > 0) { // there was one somewhere in the paragraph, let's move it inset = d->insetlist_.release(bibitem_pos); eraseChar(bibitem_pos, track_changes); } else // make a fresh one inset = new InsetBibitem(const_cast(&buffer), InsetCommandParams(BIBITEM_CODE)); Font font(inherit_font, buffer.params().language); insertInset(0, inset, font, Change(track_changes ? Change::INSERTED : Change::UNCHANGED)); // This is needed to get the counters right buffer.updateBuffer(); return 1; } void Paragraph::checkAuthors(AuthorList const & authorList) { d->changes_.checkAuthors(authorList); } bool Paragraph::isChanged(pos_type pos) const { return lookupChange(pos).changed(); } bool Paragraph::isInserted(pos_type pos) const { return lookupChange(pos).inserted(); } bool Paragraph::isDeleted(pos_type pos) const { return lookupChange(pos).deleted(); } InsetList const & Paragraph::insetList() const { return d->insetlist_; } void Paragraph::setInsetBuffers(Buffer & b) { d->insetlist_.setBuffer(b); } void Paragraph::resetBuffer() { d->insetlist_.resetBuffer(); } Inset * Paragraph::releaseInset(pos_type pos) { Inset * inset = d->insetlist_.release(pos); /// does not honour change tracking! eraseChar(pos, false); return inset; } Inset * Paragraph::getInset(pos_type pos) { return (pos < pos_type(d->text_.size()) && d->text_[pos] == META_INSET) ? d->insetlist_.get(pos) : nullptr; } Inset const * Paragraph::getInset(pos_type pos) const { return (pos < pos_type(d->text_.size()) && d->text_[pos] == META_INSET) ? d->insetlist_.get(pos) : nullptr; } void Paragraph::changeCase(BufferParams const & bparams, pos_type pos, pos_type & right, TextCase action) { // process sequences of modified characters; in change // tracking mode, this approach results in much better // usability than changing case on a char-by-char basis // We also need to track the current font, since font // changes within sequences can occur. vector > changes; bool const trackChanges = bparams.track_changes; bool capitalize = true; for (; pos < right; ++pos) { char_type oldChar = d->text_[pos]; char_type newChar = oldChar; // ignore insets and don't play with deleted text! if (oldChar != META_INSET && !isDeleted(pos)) { switch (action) { case text_lowercase: newChar = lowercase(oldChar); break; case text_capitalization: if (capitalize) { newChar = uppercase(oldChar); capitalize = false; } break; case text_uppercase: newChar = uppercase(oldChar); break; } } if (isWordSeparator(pos) || isDeleted(pos)) { // permit capitalization again capitalize = true; } if (oldChar != newChar) { changes.push_back(make_pair(newChar, getFontSettings(bparams, pos))); if (pos != right - 1) continue; // step behind the changing area pos++; } int erasePos = pos - changes.size(); for (auto const & change : changes) { insertChar(pos, change.first, change.second, trackChanges); if (!eraseChar(erasePos, trackChanges)) { ++erasePos; ++pos; // advance ++right; // expand selection } } changes.clear(); } } int Paragraph::find(docstring const & str, bool cs, bool mw, pos_type start_pos, bool del) const { pos_type pos = start_pos; int const strsize = str.length(); int i = 0; pos_type const parsize = d->text_.size(); for (i = 0; i < strsize && pos < parsize; ++i, ++pos) { // ignore deleted matter if (!del && isDeleted(pos)) { if (pos == parsize - 1) break; pos++; --i; continue; } // Ignore "invisible" letters such as ligature breaks // and hyphenation chars while searching bool nonmatch = false; while (pos < parsize && isInset(pos)) { Inset const * inset = getInset(pos); if (!inset->isLetter() && !inset->isChar()) break; odocstringstream os; inset->toString(os); docstring const insetstring = os.str(); if (!insetstring.empty()) { int const insetstringsize = insetstring.length(); for (int j = 0; j < insetstringsize && pos < parsize; ++i, ++j) { if ((cs && str[i] != insetstring[j]) || (!cs && uppercase(str[i]) != uppercase(insetstring[j]))) { nonmatch = true; break; } } } pos++; } if (nonmatch || i == strsize) break; if (cs && str[i] != d->text_[pos]) break; if (!cs && uppercase(str[i]) != uppercase(d->text_[pos])) break; } if (i != strsize) return 0; // if necessary, check whether string matches word if (mw) { if (start_pos > 0 && !isWordSeparator(start_pos - 1)) return 0; if (pos < parsize && !isWordSeparator(pos)) return 0; } return pos - start_pos; } char_type Paragraph::getChar(pos_type pos) const { return d->text_[pos]; } pos_type Paragraph::size() const { return d->text_.size(); } bool Paragraph::empty() const { return d->text_.empty(); } bool Paragraph::isInset(pos_type pos) const { return d->text_[pos] == META_INSET; } bool Paragraph::isSeparator(pos_type pos) const { //FIXME: Are we sure this can be the only separator? return d->text_[pos] == ' '; } void Paragraph::deregisterWords() { Private::LangWordsMap::const_iterator itl = d->words_.begin(); Private::LangWordsMap::const_iterator ite = d->words_.end(); for (; itl != ite; ++itl) { WordList & wl = theWordList(itl->first); Private::Words::const_iterator it = (itl->second).begin(); Private::Words::const_iterator et = (itl->second).end(); for (; it != et; ++it) wl.remove(*it); } d->words_.clear(); } void Paragraph::locateWord(pos_type & from, pos_type & to, word_location const loc, bool const ignore_deleted) const { switch (loc) { case WHOLE_WORD_STRICT: if (from == 0 || from == size() || isWordSeparator(from, ignore_deleted) || isWordSeparator(from - 1, ignore_deleted)) { to = from; return; } // fall through case WHOLE_WORD: // If we are already at the beginning of a word, do nothing if (!from || isWordSeparator(from - 1, ignore_deleted)) break; // fall through case PREVIOUS_WORD: // always move the cursor to the beginning of previous word while (from && !isWordSeparator(from - 1, ignore_deleted)) --from; break; case NEXT_WORD: LYXERR0("Paragraph::locateWord: NEXT_WORD not implemented yet"); break; case PARTIAL_WORD: // no need to move the 'from' cursor break; } to = from; while (to < size() && !isWordSeparator(to, ignore_deleted)) ++to; } void Paragraph::collectWords() { for (pos_type pos = 0; pos < size(); ++pos) { if (isWordSeparator(pos)) continue; pos_type from = pos; locateWord(from, pos, WHOLE_WORD); // Work around MSVC warning: The statement // if (pos < from + lyxrc.completion_minlength) // triggers a signed vs. unsigned warning. // I don't know why this happens, it could be a MSVC bug, or // related to LLP64 (windows) vs. LP64 (unix) programming // model, or the C++ standard might be ambigous in the section // defining the "usual arithmetic conversions". However, using // a temporary variable is safe and works on all compilers. pos_type const endpos = from + lyxrc.completion_minlength; if (pos < endpos) continue; FontList::const_iterator cit = d->fontlist_.fontIterator(from); if (cit == d->fontlist_.end()) return; Language const * lang = cit->font().language(); docstring const word = asString(from, pos, AS_STR_NONE); d->words_[lang->lang()].insert(word); } } void Paragraph::registerWords() { Private::LangWordsMap::const_iterator itl = d->words_.begin(); Private::LangWordsMap::const_iterator ite = d->words_.end(); for (; itl != ite; ++itl) { WordList & wl = theWordList(itl->first); Private::Words::const_iterator it = (itl->second).begin(); Private::Words::const_iterator et = (itl->second).end(); for (; it != et; ++it) wl.insert(*it); } } void Paragraph::updateWords() { deregisterWords(); collectWords(); registerWords(); } void Paragraph::Private::appendSkipPosition(SkipPositions & skips, pos_type const pos) const { SkipPositionsIterator begin = skips.begin(); SkipPositions::iterator end = skips.end(); if (pos > 0 && begin < end) { --end; if (end->last == pos - 1) { end->last = pos; return; } } skips.insert(end, FontSpan(pos, pos)); } Language * Paragraph::Private::locateSpellRange( pos_type & from, pos_type & to, SkipPositions & skips) const { // skip leading white space while (from < to && owner_->isWordSeparator(from)) ++from; // don't check empty range if (from >= to) return nullptr; // get current language Language * lang = getSpellLanguage(from); pos_type last = from; bool samelang = true; bool sameinset = true; while (last < to && samelang && sameinset) { // hop to end of word while (last < to && !owner_->isWordSeparator(last)) { Inset const * inset = owner_->getInset(last); if (inset && dynamic_cast(inset)) { // check for "invisible" letters such as ligature breaks odocstringstream os; inset->toString(os); if (os.str().length() != 0) { // avoid spell check of visible special char insets // stop the loop in front of the special char inset sameinset = false; break; } } else if (inset) { appendSkipPosition(skips, last); } else if (owner_->isDeleted(last)) { appendSkipPosition(skips, last); } ++last; } // hop to next word while checking for insets while (sameinset && last < to && owner_->isWordSeparator(last)) { if (Inset const * inset = owner_->getInset(last)) sameinset = inset->isChar() && inset->isLetter(); if (sameinset && owner_->isDeleted(last)) { appendSkipPosition(skips, last); } if (sameinset) last++; } if (sameinset && last < to) { // now check for language change samelang = lang == getSpellLanguage(last); } } // if language change detected backstep is needed if (!samelang) --last; to = last; return lang; } Language * Paragraph::Private::getSpellLanguage(pos_type const from) const { Language * lang = const_cast(owner_->getFontSettings( inset_owner_->buffer().params(), from).language()); if (lang == inset_owner_->buffer().params().language && !lyxrc.spellchecker_alt_lang.empty()) { string lang_code; string const lang_variety = split(lyxrc.spellchecker_alt_lang, lang_code, '-'); lang->setCode(lang_code); lang->setVariety(lang_variety); } return lang; } void Paragraph::requestSpellCheck(pos_type pos) { d->requestSpellCheck(pos); } bool Paragraph::needsSpellCheck() const { SpellChecker::ChangeNumber speller_change_number = 0; if (theSpellChecker()) speller_change_number = theSpellChecker()->changeNumber(); if (speller_change_number > d->speller_state_.currentChangeNumber()) { d->speller_state_.needsCompleteRefresh(speller_change_number); } return d->needsSpellCheck(); } bool Paragraph::Private::ignoreWord(docstring const & word) const { // Ignore words with digits // FIXME: make this customizable // (note that some checkers ignore words with digits by default) docstring::const_iterator cit = word.begin(); docstring::const_iterator const end = word.end(); for (; cit != end; ++cit) { if (isNumber((*cit))) return true; } return false; } SpellChecker::Result Paragraph::spellCheck(pos_type & from, pos_type & to, WordLangTuple & wl, docstring_list & suggestions, bool do_suggestion, bool check_learned) const { SpellChecker::Result result = SpellChecker::WORD_OK; SpellChecker * speller = theSpellChecker(); if (!speller) return result; if (!d->layout_->spellcheck || !inInset().allowSpellCheck()) return result; locateWord(from, to, WHOLE_WORD, true); if (from == to || from >= size()) return result; docstring word = asString(from, to, AS_STR_INSETS | AS_STR_SKIPDELETE); Language * lang = d->getSpellLanguage(from); BufferParams const & bparams = d->inset_owner_->buffer().params(); if (getFontSettings(bparams, from).fontInfo().nospellcheck() == FONT_ON) return result; wl = WordLangTuple(word, lang); if (word.empty()) return result; if (needsSpellCheck() || check_learned) { pos_type end = to; if (!d->ignoreWord(word)) { bool const trailing_dot = to < size() && d->text_[to] == '.'; result = speller->check(wl, bparams.spellignore()); if (SpellChecker::misspelled(result) && trailing_dot) { wl = WordLangTuple(word.append(from_ascii(".")), lang); result = speller->check(wl, bparams.spellignore()); if (!SpellChecker::misspelled(result)) { LYXERR(Debug::GUI, "misspelled word is correct with dot: \"" << word << "\" [" << from << ".." << to << "]"); } else { // spell check with dot appended failed too // restore original word/lang value word = asString(from, to, AS_STR_INSETS | AS_STR_SKIPDELETE); wl = WordLangTuple(word, lang); } } } if (!SpellChecker::misspelled(result)) { // area up to the begin of the next word is not misspelled while (end < size() && isWordSeparator(end)) ++end; } d->setMisspelled(from, end, result); } else { result = d->speller_state_.getState(from); } if (do_suggestion) suggestions.clear(); if (SpellChecker::misspelled(result)) { LYXERR(Debug::GUI, "misspelled word: \"" << word << "\" [" << from << ".." << to << "]"); if (do_suggestion) speller->suggest(wl, suggestions); } return result; } void Paragraph::anonymize() { // This is a very crude anonymization for now for (char_type & c : d->text_) if (isLetterChar(c) || isNumber(c)) c = 'a'; } void Paragraph::Private::markMisspelledWords( Language const * lang, pos_type const & first, pos_type const & last, SpellChecker::Result result, docstring const & word, SkipPositions const & skips) { if (!SpellChecker::misspelled(result)) { setMisspelled(first, last, SpellChecker::WORD_OK); return; } int snext = first; SpellChecker * speller = theSpellChecker(); // locate and enumerate the error positions int nerrors = speller->numMisspelledWords(); int numskipped = 0; SkipPositionsIterator it = skips.begin(); SkipPositionsIterator et = skips.end(); for (int index = 0; index < nerrors; ++index) { int wstart; int wlen = 0; speller->misspelledWord(index, wstart, wlen); /// should not happen if speller supports range checks if (!wlen) continue; WordLangTuple const candidate(word.substr(wstart, wlen), lang); wstart += first + numskipped; if (snext < wstart) { /// mark the range of correct spelling numskipped += countSkips(it, et, wstart); setMisspelled(snext, wstart - 1, SpellChecker::WORD_OK); } snext = wstart + wlen; // Check whether the candidate is in the document's local dict SpellChecker::Result actresult = result; if (inset_owner_->buffer().params().spellignored(candidate)) actresult = SpellChecker::DOCUMENT_LEARNED_WORD; numskipped += countSkips(it, et, snext); /// mark the range of misspelling setMisspelled(wstart, snext, actresult); if (actresult == SpellChecker::DOCUMENT_LEARNED_WORD) LYXERR(Debug::GUI, "local dictionary word: \"" << candidate.word() << "\" [" << wstart << ".." << (snext-1) << "]"); else LYXERR(Debug::GUI, "misspelled word: \"" << candidate.word() << "\" [" << wstart << ".." << (snext-1) << "]"); ++snext; } if (snext <= last) { /// mark the range of correct spelling at end setMisspelled(snext, last, SpellChecker::WORD_OK); } } void Paragraph::spellCheck() const { SpellChecker * speller = theSpellChecker(); if (!speller || empty() ||!needsSpellCheck()) return; pos_type start; pos_type endpos; d->rangeOfSpellCheck(start, endpos); if (speller->canCheckParagraph()) { // loop until we leave the range for (pos_type first = start; first < endpos; ) { pos_type last = endpos; Private::SkipPositions skips; Language * lang = d->locateSpellRange(first, last, skips); if (first >= endpos) break; // start the spell checker on the unit of meaning docstring word = asString(first, last, AS_STR_INSETS + AS_STR_SKIPDELETE); WordLangTuple wl = WordLangTuple(word, lang); BufferParams const & bparams = d->inset_owner_->buffer().params(); SpellChecker::Result result = !word.empty() ? speller->check(wl, bparams.spellignore()) : SpellChecker::WORD_OK; d->markMisspelledWords(lang, first, last, result, word, skips); first = ++last; } } else { static docstring_list suggestions; pos_type to = endpos; while (start < endpos) { WordLangTuple wl; spellCheck(start, to, wl, suggestions, false); start = to + 1; } } d->readySpellCheck(); } bool Paragraph::isMisspelled(pos_type pos, bool check_boundary) const { bool result = SpellChecker::misspelled(d->speller_state_.getState(pos)); if (result || pos <= 0 || pos > size()) return result; if (check_boundary && (pos == size() || isWordSeparator(pos))) result = SpellChecker::misspelled(d->speller_state_.getState(pos - 1)); return result; } string Paragraph::magicLabel() const { stringstream ss; ss << "magicparlabel-" << id(); return ss.str(); } } // namespace lyx