/** * \file src/Text.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 Dov Feldstern * \author Jean-Marc Lasgouttes * \author John Levon * \author André Pönitz * \author Stefan Schimanski * \author Dekel Tsur * \author Jürgen Vigna * * Full author contact details are available in file CREDITS. */ #include #include "Text.h" #include "Author.h" #include "Buffer.h" #include "buffer_funcs.h" #include "BufferParams.h" #include "BufferView.h" #include "Changes.h" #include "CompletionList.h" #include "Cursor.h" #include "CutAndPaste.h" #include "DispatchResult.h" #include "ErrorList.h" #include "FuncRequest.h" #include "factory.h" #include "InsetList.h" #include "Language.h" #include "Layout.h" #include "Length.h" #include "Lexer.h" #include "lyxfind.h" #include "LyXRC.h" #include "Paragraph.h" #include "ParagraphParameters.h" #include "ParIterator.h" #include "TextClass.h" #include "TextMetrics.h" #include "WordLangTuple.h" #include "WordList.h" #include "insets/InsetText.h" #include "insets/InsetBibitem.h" #include "insets/InsetCaption.h" #include "insets/InsetNewline.h" #include "insets/InsetNewpage.h" #include "insets/InsetArgument.h" #include "insets/InsetIPAMacro.h" #include "insets/InsetSpace.h" #include "insets/InsetSpecialChar.h" #include "insets/InsetTabular.h" #include "support/convert.h" #include "support/debug.h" #include "support/docstream.h" #include "support/gettext.h" #include "support/lassert.h" #include "support/lstrings.h" #include "support/textutils.h" #include #include #include // TODO: replace if in Text::readParToken() with compile time switch #if 0 #include "support/metahash.h" typedef boost::mpl::string<'\\end','_lay','out'> end_layout; typedef boost::mpl::string<'\\end','in','set'> end_inset; void foo() { std::string token = "\\end_layout"; switch (boost::hash_value(token)) { case lyx::support::hash_string::value: return; case lyx::support::hash_string::value: return; default: ; }; } #endif using namespace std; using namespace lyx::support; namespace lyx { using cap::cutSelection; using cap::pasteParagraphList; static bool moveItem(Paragraph & fromPar, pos_type fromPos, Paragraph & toPar, pos_type toPos, BufferParams const & params) { // Note: moveItem() does not honour change tracking! // Therefore, it should only be used for breaking and merging paragraphs // We need a copy here because the character at fromPos is going to be erased. Font const tmpFont = fromPar.getFontSettings(params, fromPos); Change const tmpChange = fromPar.lookupChange(fromPos); if (Inset * tmpInset = fromPar.getInset(fromPos)) { fromPar.releaseInset(fromPos); // The inset is not in fromPar any more. if (!toPar.insertInset(toPos, tmpInset, tmpFont, tmpChange)) { delete tmpInset; return false; } return true; } char_type const tmpChar = fromPar.getChar(fromPos); fromPar.eraseChar(fromPos, false); toPar.insertChar(toPos, tmpChar, tmpFont, tmpChange); return true; } void breakParagraphConservative(BufferParams const & bparams, ParagraphList & pars, pit_type par_offset, pos_type pos) { // create a new paragraph Paragraph & tmp = *pars.insert(boost::next(pars.begin(), par_offset + 1), Paragraph()); Paragraph & par = pars[par_offset]; tmp.setInsetOwner(&par.inInset()); tmp.makeSameLayout(par); LASSERT(pos <= par.size(), return); if (pos < par.size()) { // move everything behind the break position to the new paragraph pos_type pos_end = par.size() - 1; for (pos_type i = pos, j = 0; i <= pos_end; ++i) { if (moveItem(par, pos, tmp, j, bparams)) { ++j; } } // Move over the end-of-par change information tmp.setChange(tmp.size(), par.lookupChange(par.size())); par.setChange(par.size(), Change(bparams.trackChanges ? Change::INSERTED : Change::UNCHANGED)); } } void mergeParagraph(BufferParams const & bparams, ParagraphList & pars, pit_type par_offset) { Paragraph & next = pars[par_offset + 1]; Paragraph & par = pars[par_offset]; pos_type pos_end = next.size() - 1; pos_type pos_insert = par.size(); // the imaginary end-of-paragraph character (at par.size()) has to be // marked as unmodified. Otherwise, its change is adopted by the first // character of the next paragraph. if (par.isChanged(par.size())) { LYXERR(Debug::CHANGES, "merging par with inserted/deleted end-of-par character"); par.setChange(par.size(), Change(Change::UNCHANGED)); } Change change = next.lookupChange(next.size()); // move the content of the second paragraph to the end of the first one for (pos_type i = 0, j = pos_insert; i <= pos_end; ++i) { if (moveItem(next, 0, par, j, bparams)) { ++j; } } // move the change of the end-of-paragraph character par.setChange(par.size(), change); pars.erase(boost::next(pars.begin(), par_offset + 1)); } Text::Text(InsetText * owner, bool use_default_layout) : owner_(owner), autoBreakRows_(false), undo_counter_(0) { pars_.push_back(Paragraph()); Paragraph & par = pars_.back(); par.setInsetOwner(owner); DocumentClass const & dc = owner->buffer().params().documentClass(); if (use_default_layout) par.setDefaultLayout(dc); else par.setPlainLayout(dc); } Text::Text(InsetText * owner, Text const & text) : owner_(owner), autoBreakRows_(text.autoBreakRows_), undo_counter_(0) { pars_ = text.pars_; ParagraphList::iterator const end = pars_.end(); ParagraphList::iterator it = pars_.begin(); for (; it != end; ++it) it->setInsetOwner(owner); } pit_type Text::depthHook(pit_type pit, depth_type depth) const { pit_type newpit = pit; if (newpit != 0) --newpit; while (newpit != 0 && pars_[newpit].getDepth() > depth) --newpit; if (pars_[newpit].getDepth() > depth) return pit; return newpit; } pit_type Text::outerHook(pit_type par_offset) const { Paragraph const & par = pars_[par_offset]; if (par.getDepth() == 0) return pars_.size(); return depthHook(par_offset, depth_type(par.getDepth() - 1)); } bool Text::isFirstInSequence(pit_type par_offset) const { Paragraph const & par = pars_[par_offset]; pit_type dhook_offset = depthHook(par_offset, par.getDepth()); if (dhook_offset == par_offset) return true; Paragraph const & dhook = pars_[dhook_offset]; return dhook.layout() != par.layout() || dhook.getDepth() != par.getDepth(); } int Text::getTocLevel(pit_type par_offset) const { Paragraph const & par = pars_[par_offset]; if (par.layout().isEnvironment() && !isFirstInSequence(par_offset)) return Layout::NOT_IN_TOC; return par.layout().toclevel; } Font const Text::outerFont(pit_type par_offset) const { depth_type par_depth = pars_[par_offset].getDepth(); FontInfo tmpfont = inherit_font; depth_type prev_par_depth = 0; // Resolve against environment font information while (par_offset != pit_type(pars_.size()) && par_depth != prev_par_depth && par_depth && !tmpfont.resolved()) { prev_par_depth = par_depth; par_offset = outerHook(par_offset); if (par_offset != pit_type(pars_.size())) { tmpfont.realize(pars_[par_offset].layout().font); par_depth = pars_[par_offset].getDepth(); } } return Font(tmpfont); } static void acceptOrRejectChanges(ParagraphList & pars, BufferParams const & bparams, Text::ChangeOp op) { pit_type pars_size = static_cast(pars.size()); // first, accept or reject changes within each individual // paragraph (do not consider end-of-par) for (pit_type pit = 0; pit < pars_size; ++pit) { // prevent assertion failure if (!pars[pit].empty()) { if (op == Text::ACCEPT) pars[pit].acceptChanges(0, pars[pit].size()); else pars[pit].rejectChanges(0, pars[pit].size()); } } // next, accept or reject imaginary end-of-par characters for (pit_type pit = 0; pit < pars_size; ++pit) { pos_type pos = pars[pit].size(); if (pars[pit].isChanged(pos)) { // keep the end-of-par char if it is inserted and accepted // or when it is deleted and rejected. if (pars[pit].isInserted(pos) == (op == Text::ACCEPT)) { pars[pit].setChange(pos, Change(Change::UNCHANGED)); } else { if (pit == pars_size - 1) { // we cannot remove a par break at the end of the last // paragraph; instead, we mark it unchanged pars[pit].setChange(pos, Change(Change::UNCHANGED)); } else { mergeParagraph(bparams, pars, pit); --pit; --pars_size; } } } } } void acceptChanges(ParagraphList & pars, BufferParams const & bparams) { acceptOrRejectChanges(pars, bparams, Text::ACCEPT); } void rejectChanges(ParagraphList & pars, BufferParams const & bparams) { acceptOrRejectChanges(pars, bparams, Text::REJECT); } InsetText const & Text::inset() const { return *owner_; } void Text::readParToken(Paragraph & par, Lexer & lex, string const & token, Font & font, Change & change, ErrorList & errorList) { Buffer * buf = const_cast(&owner_->buffer()); BufferParams const & bp = buf->params(); if (token[0] != '\\') { docstring dstr = lex.getDocString(); par.appendString(dstr, font, change); } else if (token == "\\begin_layout") { lex.eatLine(); docstring layoutname = lex.getDocString(); font = Font(inherit_font, bp.language); change = Change(Change::UNCHANGED); DocumentClass const & tclass = bp.documentClass(); if (layoutname.empty()) layoutname = tclass.defaultLayoutName(); if (owner_->forcePlainLayout()) { // in this case only the empty layout is allowed layoutname = tclass.plainLayoutName(); } else if (par.usePlainLayout()) { // in this case, default layout maps to empty layout if (layoutname == tclass.defaultLayoutName()) layoutname = tclass.plainLayoutName(); } else { // otherwise, the empty layout maps to the default if (layoutname == tclass.plainLayoutName()) layoutname = tclass.defaultLayoutName(); } // When we apply an unknown layout to a document, we add this layout to the textclass // of this document. For example, when you apply class article to a beamer document, // all unknown layouts such as frame will be added to document class article so that // these layouts can keep their original names. bool const added_one = tclass.addLayoutIfNeeded(layoutname); if (added_one) { // Warn the user. docstring const s = bformat(_("Layout `%1$s' was not found."), layoutname); errorList.push_back( ErrorItem(_("Layout Not Found"), s, par.id(), 0, par.size())); } par.setLayout(bp.documentClass()[layoutname]); // Test whether the layout is obsolete. Layout const & layout = par.layout(); if (!layout.obsoleted_by().empty()) par.setLayout(bp.documentClass()[layout.obsoleted_by()]); par.params().read(lex); } else if (token == "\\end_layout") { LYXERR0("Solitary \\end_layout in line " << lex.lineNumber() << "\n" << "Missing \\begin_layout ?"); } else if (token == "\\end_inset") { LYXERR0("Solitary \\end_inset in line " << lex.lineNumber() << "\n" << "Missing \\begin_inset ?"); } else if (token == "\\begin_inset") { Inset * inset = readInset(lex, buf); if (inset) par.insertInset(par.size(), inset, font, change); else { lex.eatLine(); docstring line = lex.getDocString(); errorList.push_back(ErrorItem(_("Unknown Inset"), line, par.id(), 0, par.size())); } } else if (token == "\\family") { lex.next(); setLyXFamily(lex.getString(), font.fontInfo()); } else if (token == "\\series") { lex.next(); setLyXSeries(lex.getString(), font.fontInfo()); } else if (token == "\\shape") { lex.next(); setLyXShape(lex.getString(), font.fontInfo()); } else if (token == "\\size") { lex.next(); setLyXSize(lex.getString(), font.fontInfo()); } else if (token == "\\lang") { lex.next(); string const tok = lex.getString(); Language const * lang = languages.getLanguage(tok); if (lang) { font.setLanguage(lang); } else { font.setLanguage(bp.language); lex.printError("Unknown language `$$Token'"); } } else if (token == "\\numeric") { lex.next(); font.fontInfo().setNumber(setLyXMisc(lex.getString())); } else if (token == "\\emph") { lex.next(); font.fontInfo().setEmph(setLyXMisc(lex.getString())); } else if (token == "\\bar") { lex.next(); string const tok = lex.getString(); if (tok == "under") font.fontInfo().setUnderbar(FONT_ON); else if (tok == "no") font.fontInfo().setUnderbar(FONT_OFF); else if (tok == "default") font.fontInfo().setUnderbar(FONT_INHERIT); else lex.printError("Unknown bar font flag " "`$$Token'"); } else if (token == "\\strikeout") { lex.next(); font.fontInfo().setStrikeout(setLyXMisc(lex.getString())); } else if (token == "\\uuline") { lex.next(); font.fontInfo().setUuline(setLyXMisc(lex.getString())); } else if (token == "\\uwave") { lex.next(); font.fontInfo().setUwave(setLyXMisc(lex.getString())); } else if (token == "\\noun") { lex.next(); font.fontInfo().setNoun(setLyXMisc(lex.getString())); } else if (token == "\\color") { lex.next(); setLyXColor(lex.getString(), font.fontInfo()); } else if (token == "\\SpecialChar") { auto_ptr inset; inset.reset(new InsetSpecialChar); inset->read(lex); inset->setBuffer(*buf); par.insertInset(par.size(), inset.release(), font, change); } else if (token == "\\IPAChar") { auto_ptr inset; inset.reset(new InsetIPAChar); inset->read(lex); inset->setBuffer(*buf); par.insertInset(par.size(), inset.release(), font, change); } else if (token == "\\backslash") { par.appendChar('\\', font, change); } else if (token == "\\LyXTable") { auto_ptr inset(new InsetTabular(buf)); inset->read(lex); par.insertInset(par.size(), inset.release(), font, change); } else if (token == "\\change_unchanged") { change = Change(Change::UNCHANGED); } else if (token == "\\change_inserted" || token == "\\change_deleted") { lex.eatLine(); istringstream is(lex.getString()); int aid; time_t ct; is >> aid >> ct; BufferParams::AuthorMap const & am = bp.author_map; if (am.find(aid) == am.end()) { errorList.push_back(ErrorItem(_("Change tracking error"), bformat(_("Unknown author index for change: %1$d\n"), aid), par.id(), 0, par.size())); change = Change(Change::UNCHANGED); } else { if (token == "\\change_inserted") change = Change(Change::INSERTED, am.find(aid)->second, ct); else change = Change(Change::DELETED, am.find(aid)->second, ct); } } else { lex.eatLine(); errorList.push_back(ErrorItem(_("Unknown token"), bformat(_("Unknown token: %1$s %2$s\n"), from_utf8(token), lex.getDocString()), par.id(), 0, par.size())); } } void Text::readParagraph(Paragraph & par, Lexer & lex, ErrorList & errorList) { lex.nextToken(); string token = lex.getString(); Font font; Change change(Change::UNCHANGED); while (lex.isOK()) { readParToken(par, lex, token, font, change, errorList); lex.nextToken(); token = lex.getString(); if (token.empty()) continue; if (token == "\\end_layout") { //Ok, paragraph finished break; } LYXERR(Debug::PARSER, "Handling paragraph token: `" << token << '\''); if (token == "\\begin_layout" || token == "\\end_document" || token == "\\end_inset" || token == "\\begin_deeper" || token == "\\end_deeper") { lex.pushToken(token); lyxerr << "Paragraph ended in line " << lex.lineNumber() << "\n" << "Missing \\end_layout.\n"; break; } } // Final change goes to paragraph break: par.setChange(par.size(), change); // Initialize begin_of_body_ on load; redoParagraph maintains par.setBeginOfBody(); // mark paragraph for spell checking on load // par.requestSpellCheck(); } class TextCompletionList : public CompletionList { public: /// TextCompletionList(Cursor const & cur, WordList const * list) : buffer_(cur.buffer()), list_(list) {} /// virtual ~TextCompletionList() {} /// virtual bool sorted() const { return true; } /// virtual size_t size() const { return list_->size(); } /// virtual docstring const & data(size_t idx) const { return list_->word(idx); } private: /// Buffer const * buffer_; /// WordList const * list_; }; bool Text::empty() const { return pars_.empty() || (pars_.size() == 1 && pars_[0].empty() // FIXME: Should we consider the labeled type as empty too? && pars_[0].layout().labeltype == LABEL_NO_LABEL); } double Text::spacing(Paragraph const & par) const { if (par.params().spacing().isDefault()) return owner_->buffer().params().spacing().getValue(); return par.params().spacing().getValue(); } /** * This breaks a paragraph at the specified position. * The new paragraph will: * - Decrease depth by one (or change layout to default layout) when * keep_layout == false * - keep current depth and layout when keep_layout == true */ static void breakParagraph(Text & text, pit_type par_offset, pos_type pos, bool keep_layout) { BufferParams const & bparams = text.inset().buffer().params(); ParagraphList & pars = text.paragraphs(); // create a new paragraph, and insert into the list ParagraphList::iterator tmp = pars.insert(boost::next(pars.begin(), par_offset + 1), Paragraph()); Paragraph & par = pars[par_offset]; // remember to set the inset_owner tmp->setInsetOwner(&par.inInset()); // without doing that we get a crash when typing at the // end of a paragraph tmp->setPlainOrDefaultLayout(bparams.documentClass()); if (keep_layout) { tmp->setLayout(par.layout()); tmp->setLabelWidthString(par.params().labelWidthString()); tmp->params().depth(par.params().depth()); } else if (par.params().depth() > 0) { Paragraph const & hook = pars[text.outerHook(par_offset)]; tmp->setLayout(hook.layout()); // not sure the line below is useful tmp->setLabelWidthString(par.params().labelWidthString()); tmp->params().depth(hook.params().depth()); } bool const isempty = (par.allowEmpty() && par.empty()); if (!isempty && (par.size() > pos || par.empty())) { tmp->setLayout(par.layout()); tmp->params().align(par.params().align()); tmp->setLabelWidthString(par.params().labelWidthString()); tmp->params().depth(par.params().depth()); tmp->params().noindent(par.params().noindent()); // move everything behind the break position // to the new paragraph /* Note: if !keepempty, empty() == true, then we reach * here with size() == 0. So pos_end becomes - 1. This * doesn't cause problems because both loops below * enforce pos <= pos_end and 0 <= pos */ pos_type pos_end = par.size() - 1; for (pos_type i = pos, j = 0; i <= pos_end; ++i) { if (moveItem(par, pos, *tmp, j, bparams)) { ++j; } } } // Move over the end-of-par change information tmp->setChange(tmp->size(), par.lookupChange(par.size())); par.setChange(par.size(), Change(bparams.trackChanges ? Change::INSERTED : Change::UNCHANGED)); if (pos) { // Make sure that we keep the language when // breaking paragraph. if (tmp->empty()) { Font changed = tmp->getFirstFontSettings(bparams); Font const & old = par.getFontSettings(bparams, par.size()); changed.setLanguage(old.language()); tmp->setFont(0, changed); } return; } if (!isempty) { bool const soa = par.params().startOfAppendix(); par.params().clear(); // do not lose start of appendix marker (bug 4212) par.params().startOfAppendix(soa); par.setPlainOrDefaultLayout(bparams.documentClass()); } if (keep_layout) { par.setLayout(tmp->layout()); par.setLabelWidthString(tmp->params().labelWidthString()); par.params().depth(tmp->params().depth()); } } void Text::breakParagraph(Cursor & cur, bool inverse_logic) { LBUFERR(this == cur.text()); Paragraph & cpar = cur.paragraph(); pit_type cpit = cur.pit(); DocumentClass const & tclass = cur.buffer()->params().documentClass(); Layout const & layout = cpar.layout(); if (cur.lastpos() == 0 && !cpar.allowEmpty()) { if (changeDepthAllowed(cur, DEC_DEPTH)) changeDepth(cur, DEC_DEPTH); else setLayout(cur, tclass.defaultLayoutName()); return; } cur.recordUndo(); // Always break behind a space // It is better to erase the space (Dekel) if (cur.pos() != cur.lastpos() && cpar.isLineSeparator(cur.pos())) cpar.eraseChar(cur.pos(), cur.buffer()->params().trackChanges); // What should the layout for the new paragraph be? bool keep_layout = layout.isEnvironment() || (layout.isParagraph() && layout.parbreak_is_newline); if (inverse_logic) keep_layout = !keep_layout; // We need to remember this before we break the paragraph, because // that invalidates the layout variable bool sensitive = layout.labeltype == LABEL_SENSITIVE; // we need to set this before we insert the paragraph. bool const isempty = cpar.allowEmpty() && cpar.empty(); lyx::breakParagraph(*this, cpit, cur.pos(), keep_layout); // After this, neither paragraph contains any rows! cpit = cur.pit(); pit_type next_par = cpit + 1; // well this is the caption hack since one caption is really enough if (sensitive) { if (cur.pos() == 0) // set to standard-layout //FIXME Check if this should be plainLayout() in some cases pars_[cpit].applyLayout(tclass.defaultLayout()); else // set to standard-layout //FIXME Check if this should be plainLayout() in some cases pars_[next_par].applyLayout(tclass.defaultLayout()); } while (!pars_[next_par].empty() && pars_[next_par].isNewline(0)) { if (!pars_[next_par].eraseChar(0, cur.buffer()->params().trackChanges)) break; // the character couldn't be deleted physically due to change tracking } // A singlePar update is not enough in this case. cur.screenUpdateFlags(Update::Force); cur.forceBufferUpdate(); // This check is necessary. Otherwise the new empty paragraph will // be deleted automatically. And it is more friendly for the user! if (cur.pos() != 0 || isempty) setCursor(cur, cur.pit() + 1, 0); else setCursor(cur, cur.pit(), 0); } // needed to insert the selection void Text::insertStringAsLines(Cursor & cur, docstring const & str, Font const & font) { BufferParams const & bparams = owner_->buffer().params(); pit_type pit = cur.pit(); pos_type pos = cur.pos(); // insert the string, don't insert doublespace bool space_inserted = true; for (docstring::const_iterator cit = str.begin(); cit != str.end(); ++cit) { Paragraph & par = pars_[pit]; if (*cit == '\n') { if (autoBreakRows_ && (!par.empty() || par.allowEmpty())) { lyx::breakParagraph(*this, pit, pos, par.layout().isEnvironment()); ++pit; pos = 0; space_inserted = true; } else { continue; } // do not insert consecutive spaces if !free_spacing } else if ((*cit == ' ' || *cit == '\t') && space_inserted && !par.isFreeSpacing()) { continue; } else if (*cit == '\t') { if (!par.isFreeSpacing()) { // tabs are like spaces here par.insertChar(pos, ' ', font, bparams.trackChanges); ++pos; space_inserted = true; } else { par.insertChar(pos, *cit, font, bparams.trackChanges); ++pos; space_inserted = true; } } else if (!isPrintable(*cit)) { // Ignore unprintables continue; } else { // just insert the character par.insertChar(pos, *cit, font, bparams.trackChanges); ++pos; space_inserted = (*cit == ' '); } } setCursor(cur, pit, pos); } // turn double CR to single CR, others are converted into one // blank. Then insertStringAsLines is called void Text::insertStringAsParagraphs(Cursor & cur, docstring const & str, Font const & font) { docstring linestr = str; bool newline_inserted = false; for (string::size_type i = 0, siz = linestr.size(); i < siz; ++i) { if (linestr[i] == '\n') { if (newline_inserted) { // we know that \r will be ignored by // insertStringAsLines. Of course, it is a dirty // trick, but it works... linestr[i - 1] = '\r'; linestr[i] = '\n'; } else { linestr[i] = ' '; newline_inserted = true; } } else if (isPrintable(linestr[i])) { newline_inserted = false; } } insertStringAsLines(cur, linestr, font); } // insert a character, moves all the following breaks in the // same Paragraph one to the right and make a rebreak void Text::insertChar(Cursor & cur, char_type c) { LBUFERR(this == cur.text()); cur.recordUndo(INSERT_UNDO); TextMetrics const & tm = cur.bv().textMetrics(this); Buffer const & buffer = *cur.buffer(); Paragraph & par = cur.paragraph(); // try to remove this pit_type const pit = cur.pit(); bool const freeSpacing = par.layout().free_spacing || par.isFreeSpacing(); if (lyxrc.auto_number) { static docstring const number_operators = from_ascii("+-/*"); static docstring const number_unary_operators = from_ascii("+-"); static docstring const number_seperators = from_ascii(".,:"); if (cur.current_font.fontInfo().number() == FONT_ON) { if (!isDigitASCII(c) && !contains(number_operators, c) && !(contains(number_seperators, c) && cur.pos() != 0 && cur.pos() != cur.lastpos() && tm.displayFont(pit, cur.pos()).fontInfo().number() == FONT_ON && tm.displayFont(pit, cur.pos() - 1).fontInfo().number() == FONT_ON) ) number(cur); // Set current_font.number to OFF } else if (isDigitASCII(c) && cur.real_current_font.isVisibleRightToLeft()) { number(cur); // Set current_font.number to ON if (cur.pos() != 0) { char_type const c = par.getChar(cur.pos() - 1); if (contains(number_unary_operators, c) && (cur.pos() == 1 || par.isSeparator(cur.pos() - 2) || par.isNewline(cur.pos() - 2)) ) { setCharFont(pit, cur.pos() - 1, cur.current_font, tm.font_); } else if (contains(number_seperators, c) && cur.pos() >= 2 && tm.displayFont(pit, cur.pos() - 2).fontInfo().number() == FONT_ON) { setCharFont(pit, cur.pos() - 1, cur.current_font, tm.font_); } } } } // In Bidi text, we want spaces to be treated in a special way: spaces // which are between words in different languages should get the // paragraph's language; otherwise, spaces should keep the language // they were originally typed in. This is only in effect while typing; // after the text is already typed in, the user can always go back and // explicitly set the language of a space as desired. But 99.9% of the // time, what we're doing here is what the user actually meant. // // The following cases are the ones in which the language of the space // should be changed to match that of the containing paragraph. In the // depictions, lowercase is LTR, uppercase is RTL, underscore (_) // represents a space, pipe (|) represents the cursor position (so the // character before it is the one just typed in). The different cases // are depicted logically (not visually), from left to right: // // 1. A_a| // 2. a_A| // // Theoretically, there are other situations that we should, perhaps, deal // with (e.g.: a|_A, A|_a). In practice, though, there really isn't any // point (to understand why, just try to create this situation...). if ((cur.pos() >= 2) && (par.isLineSeparator(cur.pos() - 1))) { // get font in front and behind the space in question. But do NOT // use getFont(cur.pos()) because the character c is not inserted yet Font const pre_space_font = tm.displayFont(cur.pit(), cur.pos() - 2); Font const & post_space_font = cur.real_current_font; bool pre_space_rtl = pre_space_font.isVisibleRightToLeft(); bool post_space_rtl = post_space_font.isVisibleRightToLeft(); if (pre_space_rtl != post_space_rtl) { // Set the space's language to match the language of the // adjacent character whose direction is the paragraph's // direction; don't touch other properties of the font Language const * lang = (pre_space_rtl == par.isRTL(buffer.params())) ? pre_space_font.language() : post_space_font.language(); Font space_font = tm.displayFont(cur.pit(), cur.pos() - 1); space_font.setLanguage(lang); par.setFont(cur.pos() - 1, space_font); } } // Next check, if there will be two blanks together or a blank at // the beginning of a paragraph. // I decided to handle blanks like normal characters, the main // difference are the special checks when calculating the row.fill // (blank does not count at the end of a row) and the check here // When the free-spacing option is set for the current layout, // disable the double-space checking if (!freeSpacing && isLineSeparatorChar(c)) { if (cur.pos() == 0) { cur.message(_( "You cannot insert a space at the " "beginning of a paragraph. Please read the Tutorial.")); return; } // LASSERT: Is it safe to continue here? LASSERT(cur.pos() > 0, /**/); if ((par.isLineSeparator(cur.pos() - 1) || par.isNewline(cur.pos() - 1)) && !par.isDeleted(cur.pos() - 1)) { cur.message(_( "You cannot type two spaces this way. " "Please read the Tutorial.")); return; } } par.insertChar(cur.pos(), c, cur.current_font, cur.buffer()->params().trackChanges); cur.checkBufferStructure(); // cur.screenUpdateFlags(Update::Force); bool boundary = cur.boundary() || tm.isRTLBoundary(cur.pit(), cur.pos() + 1); setCursor(cur, cur.pit(), cur.pos() + 1, false, boundary); charInserted(cur); } void Text::charInserted(Cursor & cur) { Paragraph & par = cur.paragraph(); // Here we call finishUndo for every 20 characters inserted. // This is from my experience how emacs does it. (Lgb) if (undo_counter_ < 20) { ++undo_counter_; } else { cur.finishUndo(); undo_counter_ = 0; } // register word if a non-letter was entered if (cur.pos() > 1 && !par.isWordSeparator(cur.pos() - 2) && par.isWordSeparator(cur.pos() - 1)) { // get the word in front of cursor LBUFERR(this == cur.text()); cur.paragraph().updateWords(); } } // the cursor set functions have a special mechanism. When they // realize, that you left an empty paragraph, they will delete it. bool Text::cursorForwardOneWord(Cursor & cur) { LBUFERR(this == cur.text()); pos_type const lastpos = cur.lastpos(); pit_type pit = cur.pit(); pos_type pos = cur.pos(); Paragraph const & par = cur.paragraph(); // Paragraph boundary is a word boundary if (pos == lastpos) { if (pit != cur.lastpit()) return setCursor(cur, pit + 1, 0); else return false; } if (lyxrc.mac_like_cursor_movement) { // Skip through trailing punctuation and spaces. while (pos != lastpos && (par.isChar(pos) || par.isSpace(pos))) ++pos; // Skip over either a non-char inset or a full word if (pos != lastpos && par.isWordSeparator(pos)) ++pos; else while (pos != lastpos && !par.isWordSeparator(pos)) ++pos; } else { LASSERT(pos < lastpos, return false); // see above if (!par.isWordSeparator(pos)) while (pos != lastpos && !par.isWordSeparator(pos)) ++pos; else if (par.isChar(pos)) while (pos != lastpos && par.isChar(pos)) ++pos; else if (!par.isSpace(pos)) // non-char inset ++pos; // Skip over white space while (pos != lastpos && par.isSpace(pos)) ++pos; } return setCursor(cur, pit, pos); } bool Text::cursorBackwardOneWord(Cursor & cur) { LBUFERR(this == cur.text()); pit_type pit = cur.pit(); pos_type pos = cur.pos(); Paragraph & par = cur.paragraph(); // Paragraph boundary is a word boundary if (pos == 0 && pit != 0) return setCursor(cur, pit - 1, getPar(pit - 1).size()); if (lyxrc.mac_like_cursor_movement) { // Skip through punctuation and spaces. while (pos != 0 && (par.isChar(pos - 1) || par.isSpace(pos - 1))) --pos; // Skip over either a non-char inset or a full word if (pos != 0 && par.isWordSeparator(pos - 1) && !par.isChar(pos - 1)) --pos; else while (pos != 0 && !par.isWordSeparator(pos - 1)) --pos; } else { // Skip over white space while (pos != 0 && par.isSpace(pos - 1)) --pos; if (pos != 0 && !par.isWordSeparator(pos - 1)) while (pos != 0 && !par.isWordSeparator(pos - 1)) --pos; else if (pos != 0 && par.isChar(pos - 1)) while (pos != 0 && par.isChar(pos - 1)) --pos; else if (pos != 0 && !par.isSpace(pos - 1)) // non-char inset --pos; } return setCursor(cur, pit, pos); } bool Text::cursorVisLeftOneWord(Cursor & cur) { LBUFERR(this == cur.text()); pos_type left_pos, right_pos; bool left_is_letter, right_is_letter; Cursor temp_cur = cur; // always try to move at least once... while (temp_cur.posVisLeft(true /* skip_inset */)) { // collect some information about current cursor position temp_cur.getSurroundingPos(left_pos, right_pos); left_is_letter = (left_pos > -1 ? !temp_cur.paragraph().isWordSeparator(left_pos) : false); right_is_letter = (right_pos > -1 ? !temp_cur.paragraph().isWordSeparator(right_pos) : false); // if we're not at a letter/non-letter boundary, continue moving if (left_is_letter == right_is_letter) continue; // we should stop when we have an LTR word on our right or an RTL word // on our left if ((left_is_letter && temp_cur.paragraph().getFontSettings( temp_cur.buffer()->params(), left_pos).isRightToLeft()) || (right_is_letter && !temp_cur.paragraph().getFontSettings( temp_cur.buffer()->params(), right_pos).isRightToLeft())) break; } return setCursor(cur, temp_cur.pit(), temp_cur.pos(), true, temp_cur.boundary()); } bool Text::cursorVisRightOneWord(Cursor & cur) { LBUFERR(this == cur.text()); pos_type left_pos, right_pos; bool left_is_letter, right_is_letter; Cursor temp_cur = cur; // always try to move at least once... while (temp_cur.posVisRight(true /* skip_inset */)) { // collect some information about current cursor position temp_cur.getSurroundingPos(left_pos, right_pos); left_is_letter = (left_pos > -1 ? !temp_cur.paragraph().isWordSeparator(left_pos) : false); right_is_letter = (right_pos > -1 ? !temp_cur.paragraph().isWordSeparator(right_pos) : false); // if we're not at a letter/non-letter boundary, continue moving if (left_is_letter == right_is_letter) continue; // we should stop when we have an LTR word on our right or an RTL word // on our left if ((left_is_letter && temp_cur.paragraph().getFontSettings( temp_cur.buffer()->params(), left_pos).isRightToLeft()) || (right_is_letter && !temp_cur.paragraph().getFontSettings( temp_cur.buffer()->params(), right_pos).isRightToLeft())) break; } return setCursor(cur, temp_cur.pit(), temp_cur.pos(), true, temp_cur.boundary()); } void Text::selectWord(Cursor & cur, word_location loc) { LBUFERR(this == cur.text()); CursorSlice from = cur.top(); CursorSlice to = cur.top(); getWord(from, to, loc); if (cur.top() != from) setCursor(cur, from.pit(), from.pos()); if (to == from) return; if (!cur.selection()) cur.resetAnchor(); setCursor(cur, to.pit(), to.pos()); cur.setSelection(); cur.setWordSelection(true); } void Text::selectAll(Cursor & cur) { LBUFERR(this == cur.text()); if (cur.lastpos() == 0 && cur.lastpit() == 0) return; // If the cursor is at the beginning, make sure the cursor ends there if (cur.pit() == 0 && cur.pos() == 0) { setCursor(cur, cur.lastpit(), getPar(cur.lastpit()).size()); cur.resetAnchor(); setCursor(cur, 0, 0); } else { setCursor(cur, 0, 0); cur.resetAnchor(); setCursor(cur, cur.lastpit(), getPar(cur.lastpit()).size()); } cur.setSelection(); } // Select the word currently under the cursor when no // selection is currently set bool Text::selectWordWhenUnderCursor(Cursor & cur, word_location loc) { LBUFERR(this == cur.text()); if (cur.selection()) return false; selectWord(cur, loc); return cur.selection(); } void Text::acceptOrRejectChanges(Cursor & cur, ChangeOp op) { LBUFERR(this == cur.text()); if (!cur.selection()) { bool const changed = cur.paragraph().isChanged(cur.pos()); if (!(changed && findNextChange(&cur.bv()))) return; } cur.recordUndoSelection(); pit_type begPit = cur.selectionBegin().pit(); pit_type endPit = cur.selectionEnd().pit(); pos_type begPos = cur.selectionBegin().pos(); pos_type endPos = cur.selectionEnd().pos(); // keep selection info, because endPos becomes invalid after the first loop bool endsBeforeEndOfPar = (endPos < pars_[endPit].size()); // first, accept/reject changes within each individual paragraph (do not consider end-of-par) for (pit_type pit = begPit; pit <= endPit; ++pit) { pos_type parSize = pars_[pit].size(); // ignore empty paragraphs; otherwise, an assertion will fail for // acceptChanges(bparams, 0, 0) or rejectChanges(bparams, 0, 0) if (parSize == 0) continue; // do not consider first paragraph if the cursor starts at pos size() if (pit == begPit && begPos == parSize) continue; // do not consider last paragraph if the cursor ends at pos 0 if (pit == endPit && endPos == 0) break; // last iteration anyway pos_type left = (pit == begPit ? begPos : 0); pos_type right = (pit == endPit ? endPos : parSize); if (left == right) // there is no change here continue; if (op == ACCEPT) { pars_[pit].acceptChanges(left, right); } else { pars_[pit].rejectChanges(left, right); } } // next, accept/reject imaginary end-of-par characters for (pit_type pit = begPit; pit <= endPit; ++pit) { pos_type pos = pars_[pit].size(); // skip if the selection ends before the end-of-par if (pit == endPit && endsBeforeEndOfPar) break; // last iteration anyway // skip if this is not the last paragraph of the document // note: the user should be able to accept/reject the par break of the last par! if (pit == endPit && pit + 1 != int(pars_.size())) break; // last iteration anway if (op == ACCEPT) { if (pars_[pit].isInserted(pos)) { pars_[pit].setChange(pos, Change(Change::UNCHANGED)); } else if (pars_[pit].isDeleted(pos)) { if (pit + 1 == int(pars_.size())) { // we cannot remove a par break at the end of the last paragraph; // instead, we mark it unchanged pars_[pit].setChange(pos, Change(Change::UNCHANGED)); } else { mergeParagraph(cur.buffer()->params(), pars_, pit); --endPit; --pit; } } } else { if (pars_[pit].isDeleted(pos)) { pars_[pit].setChange(pos, Change(Change::UNCHANGED)); } else if (pars_[pit].isInserted(pos)) { if (pit + 1 == int(pars_.size())) { // we mark the par break at the end of the last paragraph unchanged pars_[pit].setChange(pos, Change(Change::UNCHANGED)); } else { mergeParagraph(cur.buffer()->params(), pars_, pit); --endPit; --pit; } } } } // finally, invoke the DEPM deleteEmptyParagraphMechanism(begPit, endPit, cur.buffer()->params().trackChanges); // cur.finishUndo(); cur.clearSelection(); setCursorIntern(cur, begPit, begPos); cur.screenUpdateFlags(Update::Force); cur.forceBufferUpdate(); } void Text::acceptChanges() { BufferParams const & bparams = owner_->buffer().params(); lyx::acceptChanges(pars_, bparams); deleteEmptyParagraphMechanism(0, pars_.size() - 1, bparams.trackChanges); } void Text::rejectChanges() { BufferParams const & bparams = owner_->buffer().params(); pit_type pars_size = static_cast(pars_.size()); // first, reject changes within each individual paragraph // (do not consider end-of-par) for (pit_type pit = 0; pit < pars_size; ++pit) { if (!pars_[pit].empty()) // prevent assertion failure pars_[pit].rejectChanges(0, pars_[pit].size()); } // next, reject imaginary end-of-par characters for (pit_type pit = 0; pit < pars_size; ++pit) { pos_type pos = pars_[pit].size(); if (pars_[pit].isDeleted(pos)) { pars_[pit].setChange(pos, Change(Change::UNCHANGED)); } else if (pars_[pit].isInserted(pos)) { if (pit == pars_size - 1) { // we mark the par break at the end of the last // paragraph unchanged pars_[pit].setChange(pos, Change(Change::UNCHANGED)); } else { mergeParagraph(bparams, pars_, pit); --pit; --pars_size; } } } // finally, invoke the DEPM deleteEmptyParagraphMechanism(0, pars_size - 1, bparams.trackChanges); } void Text::deleteWordForward(Cursor & cur) { LBUFERR(this == cur.text()); if (cur.lastpos() == 0) cursorForward(cur); else { cur.resetAnchor(); cur.setSelection(true); cursorForwardOneWord(cur); cur.setSelection(); cutSelection(cur, true, false); cur.checkBufferStructure(); } } void Text::deleteWordBackward(Cursor & cur) { LBUFERR(this == cur.text()); if (cur.lastpos() == 0) cursorBackward(cur); else { cur.resetAnchor(); cur.setSelection(true); cursorBackwardOneWord(cur); cur.setSelection(); cutSelection(cur, true, false); cur.checkBufferStructure(); } } // Kill to end of line. void Text::changeCase(Cursor & cur, TextCase action) { LBUFERR(this == cur.text()); CursorSlice from; CursorSlice to; bool gotsel = false; if (cur.selection()) { from = cur.selBegin(); to = cur.selEnd(); gotsel = true; } else { from = cur.top(); getWord(from, to, PARTIAL_WORD); cursorForwardOneWord(cur); } cur.recordUndoSelection(); pit_type begPit = from.pit(); pit_type endPit = to.pit(); pos_type begPos = from.pos(); pos_type endPos = to.pos(); pos_type right = 0; // needed after the for loop for (pit_type pit = begPit; pit <= endPit; ++pit) { Paragraph & par = pars_[pit]; pos_type const pos = (pit == begPit ? begPos : 0); right = (pit == endPit ? endPos : par.size()); par.changeCase(cur.buffer()->params(), pos, right, action); } // the selection may have changed due to logically-only deleted chars if (gotsel) { setCursor(cur, begPit, begPos); cur.resetAnchor(); setCursor(cur, endPit, right); cur.setSelection(); } else setCursor(cur, endPit, right); cur.checkBufferStructure(); } bool Text::handleBibitems(Cursor & cur) { if (cur.paragraph().layout().labeltype != LABEL_BIBLIO) return false; if (cur.pos() != 0) return false; BufferParams const & bufparams = cur.buffer()->params(); Paragraph const & par = cur.paragraph(); Cursor prevcur = cur; if (cur.pit() > 0) { --prevcur.pit(); prevcur.pos() = prevcur.lastpos(); } Paragraph const & prevpar = prevcur.paragraph(); // if a bibitem is deleted, merge with previous paragraph // if this is a bibliography item as well if (cur.pit() > 0 && par.layout() == prevpar.layout()) { cur.recordUndo(ATOMIC_UNDO, prevcur.pit()); mergeParagraph(bufparams, cur.text()->paragraphs(), prevcur.pit()); cur.forceBufferUpdate(); setCursorIntern(cur, prevcur.pit(), prevcur.pos()); cur.screenUpdateFlags(Update::Force); return true; } // otherwise reset to default cur.paragraph().setPlainOrDefaultLayout(bufparams.documentClass()); return true; } bool Text::erase(Cursor & cur) { LASSERT(this == cur.text(), return false); bool needsUpdate = false; Paragraph & par = cur.paragraph(); if (cur.pos() != cur.lastpos()) { // this is the code for a normal delete, not pasting // any paragraphs cur.recordUndo(DELETE_UNDO); bool const was_inset = cur.paragraph().isInset(cur.pos()); if(!par.eraseChar(cur.pos(), cur.buffer()->params().trackChanges)) // the character has been logically deleted only => skip it cur.top().forwardPos(); if (was_inset) cur.forceBufferUpdate(); else cur.checkBufferStructure(); needsUpdate = true; } else { if (cur.pit() == cur.lastpit()) return dissolveInset(cur); if (!par.isMergedOnEndOfParDeletion(cur.buffer()->params().trackChanges)) { par.setChange(cur.pos(), Change(Change::DELETED)); cur.forwardPos(); needsUpdate = true; } else { setCursorIntern(cur, cur.pit() + 1, 0); needsUpdate = backspacePos0(cur); } } needsUpdate |= handleBibitems(cur); if (needsUpdate) { // Make sure the cursor is correct. Is this really needed? // No, not really... at least not here! cur.text()->setCursor(cur.top(), cur.pit(), cur.pos()); cur.checkBufferStructure(); } return needsUpdate; } bool Text::backspacePos0(Cursor & cur) { LBUFERR(this == cur.text()); if (cur.pit() == 0) return false; bool needsUpdate = false; BufferParams const & bufparams = cur.buffer()->params(); DocumentClass const & tclass = bufparams.documentClass(); ParagraphList & plist = cur.text()->paragraphs(); Paragraph const & par = cur.paragraph(); Cursor prevcur = cur; --prevcur.pit(); prevcur.pos() = prevcur.lastpos(); Paragraph const & prevpar = prevcur.paragraph(); // is it an empty paragraph? if (cur.lastpos() == 0 || (cur.lastpos() == 1 && par.isSeparator(0))) { cur.recordUndo(ATOMIC_UNDO, prevcur.pit(), cur.pit()); plist.erase(boost::next(plist.begin(), cur.pit())); needsUpdate = true; } // is previous par empty? else if (prevcur.lastpos() == 0 || (prevcur.lastpos() == 1 && prevpar.isSeparator(0))) { cur.recordUndo(ATOMIC_UNDO, prevcur.pit(), cur.pit()); plist.erase(boost::next(plist.begin(), prevcur.pit())); needsUpdate = true; } // Pasting is not allowed, if the paragraphs have different // layouts. I think it is a real bug of all other // word processors to allow it. It confuses the user. // Correction: Pasting is always allowed with standard-layout // or the empty layout. else if (par.layout() == prevpar.layout() || tclass.isDefaultLayout(par.layout()) || tclass.isPlainLayout(par.layout())) { cur.recordUndo(ATOMIC_UNDO, prevcur.pit()); mergeParagraph(bufparams, plist, prevcur.pit()); needsUpdate = true; } if (needsUpdate) { cur.forceBufferUpdate(); setCursorIntern(cur, prevcur.pit(), prevcur.pos()); } return needsUpdate; } bool Text::backspace(Cursor & cur) { LBUFERR(this == cur.text()); bool needsUpdate = false; if (cur.pos() == 0) { if (cur.pit() == 0) return dissolveInset(cur); Cursor prev_cur = cur; --prev_cur.pit(); if (!prev_cur.paragraph().isMergedOnEndOfParDeletion(cur.buffer()->params().trackChanges)) { cur.recordUndo(ATOMIC_UNDO, prev_cur.pit(), prev_cur.pit()); prev_cur.paragraph().setChange(prev_cur.lastpos(), Change(Change::DELETED)); setCursorIntern(cur, prev_cur.pit(), prev_cur.lastpos()); return true; } // The cursor is at the beginning of a paragraph, so // the backspace will collapse two paragraphs into one. needsUpdate = backspacePos0(cur); } else { // this is the code for a normal backspace, not pasting // any paragraphs cur.recordUndo(DELETE_UNDO); // We used to do cursorBackwardIntern() here, but it is // not a good idea since it triggers the auto-delete // mechanism. So we do a cursorBackwardIntern()-lite, // without the dreaded mechanism. (JMarc) setCursorIntern(cur, cur.pit(), cur.pos() - 1, false, cur.boundary()); bool const was_inset = cur.paragraph().isInset(cur.pos()); cur.paragraph().eraseChar(cur.pos(), cur.buffer()->params().trackChanges); if (was_inset) cur.forceBufferUpdate(); else cur.checkBufferStructure(); } if (cur.pos() == cur.lastpos()) cur.setCurrentFont(); needsUpdate |= handleBibitems(cur); // A singlePar update is not enough in this case. // cur.screenUpdateFlags(Update::Force); setCursor(cur.top(), cur.pit(), cur.pos()); return needsUpdate; } bool Text::dissolveInset(Cursor & cur) { LASSERT(this == cur.text(), return false); if (isMainText() || cur.inset().nargs() != 1) return false; cur.recordUndoInset(); cur.setMark(false); cur.selHandle(false); // save position pos_type spos = cur.pos(); pit_type spit = cur.pit(); ParagraphList plist; if (cur.lastpit() != 0 || cur.lastpos() != 0) plist = paragraphs(); cur.popBackward(); // store cursor offset if (spit == 0) spos += cur.pos(); spit += cur.pit(); Buffer & b = *cur.buffer(); cur.paragraph().eraseChar(cur.pos(), b.params().trackChanges); if (!plist.empty()) { // see bug 7319 // we clear the cache so that we won't get conflicts with labels // that get pasted into the buffer. we should update this before // its being empty matters. if not (i.e., if we encounter bugs), // then this should instead be: // cur.buffer().updateBuffer(); // but we'll try the cheaper solution here. cur.buffer()->clearReferenceCache(); // ERT paragraphs have the Language latex_language. // This is invalid outside of ERT, so we need to // change it to the buffer language. ParagraphList::iterator it = plist.begin(); ParagraphList::iterator it_end = plist.end(); for (; it != it_end; ++it) it->changeLanguage(b.params(), latex_language, b.language()); pasteParagraphList(cur, plist, b.params().documentClassPtr(), b.errorList("Paste")); // restore position cur.pit() = min(cur.lastpit(), spit); cur.pos() = min(cur.lastpos(), spos); } cur.forceBufferUpdate(); // Ensure the current language is set correctly (bug 6292) cur.text()->setCursor(cur, cur.pit(), cur.pos()); cur.clearSelection(); cur.resetAnchor(); return true; } void Text::getWord(CursorSlice & from, CursorSlice & to, word_location const loc) const { to = from; pars_[to.pit()].locateWord(from.pos(), to.pos(), loc); } void Text::write(ostream & os) const { Buffer const & buf = owner_->buffer(); ParagraphList::const_iterator pit = paragraphs().begin(); ParagraphList::const_iterator end = paragraphs().end(); depth_type dth = 0; for (; pit != end; ++pit) pit->write(os, buf.params(), dth); // Close begin_deeper for(; dth > 0; --dth) os << "\n\\end_deeper"; } bool Text::read(Lexer & lex, ErrorList & errorList, InsetText * insetPtr) { Buffer const & buf = owner_->buffer(); depth_type depth = 0; bool res = true; while (lex.isOK()) { lex.nextToken(); string const token = lex.getString(); if (token.empty()) continue; if (token == "\\end_inset") break; if (token == "\\end_body") continue; if (token == "\\begin_body") continue; if (token == "\\end_document") { res = false; break; } if (token == "\\begin_layout") { lex.pushToken(token); Paragraph par; par.setInsetOwner(insetPtr); par.params().depth(depth); par.setFont(0, Font(inherit_font, buf.params().language)); pars_.push_back(par); readParagraph(pars_.back(), lex, errorList); // register the words in the global word list pars_.back().updateWords(); } else if (token == "\\begin_deeper") { ++depth; } else if (token == "\\end_deeper") { if (!depth) lex.printError("\\end_deeper: " "depth is already null"); else --depth; } else { LYXERR0("Handling unknown body token: `" << token << '\''); } } // avoid a crash on weird documents (bug 4859) if (pars_.empty()) { Paragraph par; par.setInsetOwner(insetPtr); par.params().depth(depth); par.setFont(0, Font(inherit_font, buf.params().language)); par.setPlainOrDefaultLayout(buf.params().documentClass()); pars_.push_back(par); } return res; } // Returns the current font and depth as a message. docstring Text::currentState(Cursor const & cur) const { LBUFERR(this == cur.text()); Buffer & buf = *cur.buffer(); Paragraph const & par = cur.paragraph(); odocstringstream os; if (buf.params().trackChanges) os << _("[Change Tracking] "); Change change = par.lookupChange(cur.pos()); if (change.changed()) { Author const & a = buf.params().authors().get(change.author); os << _("Change: ") << a.name(); if (!a.email().empty()) os << " (" << a.email() << ")"; // FIXME ctime is english, we should translate that os << _(" at ") << ctime(&change.changetime); os << " : "; } // I think we should only show changes from the default // font. (Asger) // No, from the document font (MV) Font font = cur.real_current_font; font.fontInfo().reduce(buf.params().getFont().fontInfo()); os << bformat(_("Font: %1$s"), font.stateText(&buf.params())); // The paragraph depth int depth = cur.paragraph().getDepth(); if (depth > 0) os << bformat(_(", Depth: %1$d"), depth); // The paragraph spacing, but only if different from // buffer spacing. Spacing const & spacing = par.params().spacing(); if (!spacing.isDefault()) { os << _(", Spacing: "); switch (spacing.getSpace()) { case Spacing::Single: os << _("Single"); break; case Spacing::Onehalf: os << _("OneHalf"); break; case Spacing::Double: os << _("Double"); break; case Spacing::Other: os << _("Other (") << from_ascii(spacing.getValueAsString()) << ')'; break; case Spacing::Default: // should never happen, do nothing break; } } #ifdef DEVEL_VERSION os << _(", Inset: ") << &cur.inset(); os << _(", Paragraph: ") << cur.pit(); os << _(", Id: ") << par.id(); os << _(", Position: ") << cur.pos(); // FIXME: Why is the check for par.size() needed? // We are called with cur.pos() == par.size() quite often. if (!par.empty() && cur.pos() < par.size()) { // Force output of code point, not character size_t const c = par.getChar(cur.pos()); os << _(", Char: 0x") << hex << c; } os << _(", Boundary: ") << cur.boundary(); // Row & row = cur.textRow(); // os << bformat(_(", Row b:%1$d e:%2$d"), row.pos(), row.endpos()); #endif return os.str(); } docstring Text::getPossibleLabel(Cursor const & cur) const { pit_type pit = cur.pit(); Layout const * layout = &(pars_[pit].layout()); docstring text; docstring par_text = pars_[pit].asString(); // The return string of math matrices might contain linebreaks par_text = subst(par_text, '\n', '-'); int const numwords = 3; for (int i = 0; i < numwords; ++i) { if (par_text.empty()) break; docstring head; par_text = split(par_text, head, ' '); // Is it legal to use spaces in labels ? if (i > 0) text += '-'; text += head; } // Make sure it isn't too long unsigned int const max_label_length = 32; if (text.size() > max_label_length) text.resize(max_label_length); // Will contain the label prefix. docstring name; // For section, subsection, etc... if (layout->latextype == LATEX_PARAGRAPH && pit != 0) { Layout const * layout2 = &(pars_[pit - 1].layout()); if (layout2->latextype != LATEX_PARAGRAPH) { --pit; layout = layout2; } } if (layout->latextype != LATEX_PARAGRAPH) name = layout->refprefix; // For captions, we just take the caption type Inset * caption_inset = cur.innerInsetOfType(CAPTION_CODE); if (caption_inset) { string const & ftype = static_cast(caption_inset)->floattype(); FloatList const & fl = cur.buffer()->params().documentClass().floats(); if (fl.typeExist(ftype)) { Floating const & flt = fl.getType(ftype); name = from_utf8(flt.refPrefix()); } if (name.empty()) name = from_utf8(ftype.substr(0,3)); } // If none of the above worked, see if the inset knows. if (name.empty()) { InsetLayout const & il = cur.inset().getLayout(); name = il.refprefix(); } if (!name.empty()) text = name + ':' + text; // We need a unique label docstring label = text; int i = 1; while (cur.buffer()->insetLabel(label)) { label = text + '-' + convert(i); ++i; } return label; } docstring Text::asString(int options) const { return asString(0, pars_.size(), options); } docstring Text::asString(pit_type beg, pit_type end, int options) const { size_t i = size_t(beg); docstring str = pars_[i].asString(options); for (++i; i != size_t(end); ++i) { str += '\n'; str += pars_[i].asString(options); } return str; } void Text::forToc(docstring & os, size_t maxlen, bool shorten) const { if (maxlen == 0) maxlen = std::numeric_limits::max(); else LASSERT(maxlen >= 8, maxlen = TOC_ENTRY_LENGTH); for (size_t i = 0; i != pars_.size() && os.length() < maxlen; ++i) pars_[i].forToc(os, maxlen); if (shorten && os.length() >= maxlen) os = os.substr(0, maxlen - 3) + from_ascii("..."); } void Text::charsTranspose(Cursor & cur) { LBUFERR(this == cur.text()); pos_type pos = cur.pos(); // If cursor is at beginning or end of paragraph, do nothing. if (pos == cur.lastpos() || pos == 0) return; Paragraph & par = cur.paragraph(); // Get the positions of the characters to be transposed. pos_type pos1 = pos - 1; pos_type pos2 = pos; // In change tracking mode, ignore deleted characters. while (pos2 < cur.lastpos() && par.isDeleted(pos2)) ++pos2; if (pos2 == cur.lastpos()) return; while (pos1 >= 0 && par.isDeleted(pos1)) --pos1; if (pos1 < 0) return; // Don't do anything if one of the "characters" is not regular text. if (par.isInset(pos1) || par.isInset(pos2)) return; // Store the characters to be transposed (including font information). char_type const char1 = par.getChar(pos1); Font const font1 = par.getFontSettings(cur.buffer()->params(), pos1); char_type const char2 = par.getChar(pos2); Font const font2 = par.getFontSettings(cur.buffer()->params(), pos2); // And finally, we are ready to perform the transposition. // Track the changes if Change Tracking is enabled. bool const trackChanges = cur.buffer()->params().trackChanges; cur.recordUndo(); par.eraseChar(pos2, trackChanges); par.eraseChar(pos1, trackChanges); par.insertChar(pos1, char2, font2, trackChanges); par.insertChar(pos2, char1, font1, trackChanges); cur.checkBufferStructure(); // After the transposition, move cursor to after the transposition. setCursor(cur, cur.pit(), pos2); cur.forwardPos(); } DocIterator Text::macrocontextPosition() const { return macrocontext_position_; } void Text::setMacrocontextPosition(DocIterator const & pos) { macrocontext_position_ = pos; } docstring Text::previousWord(CursorSlice const & sl) const { CursorSlice from = sl; CursorSlice to = sl; getWord(from, to, PREVIOUS_WORD); if (sl == from || to == from) return docstring(); Paragraph const & par = sl.paragraph(); return par.asString(from.pos(), to.pos()); } bool Text::completionSupported(Cursor const & cur) const { Paragraph const & par = cur.paragraph(); return cur.pos() > 0 && (cur.pos() >= par.size() || par.isWordSeparator(cur.pos())) && !par.isWordSeparator(cur.pos() - 1); } CompletionList const * Text::createCompletionList(Cursor const & cur) const { WordList const * list = theWordList(*cur.getFont().language()); return new TextCompletionList(cur, list); } bool Text::insertCompletion(Cursor & cur, docstring const & s, bool /*finished*/) { LBUFERR(cur.bv().cursor() == cur); cur.insert(s); cur.bv().cursor() = cur; if (!(cur.result().screenUpdate() & Update::Force)) cur.screenUpdateFlags(cur.result().screenUpdate() | Update::SinglePar); return true; } docstring Text::completionPrefix(Cursor const & cur) const { return previousWord(cur.top()); } } // namespace lyx