/** * \file buffer_funcs.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Lars Gullik Bjønnes * \author Alfredo Braunstein * * Full author contact details are available in file CREDITS. * */ #include #include "buffer_funcs.h" #include "Buffer.h" #include "BufferList.h" #include "BufferParams.h" #include "DocIterator.h" #include "Counters.h" #include "ErrorList.h" #include "Floating.h" #include "FloatList.h" #include "InsetList.h" #include "Language.h" #include "LaTeX.h" #include "Layout.h" #include "LyX.h" #include "TextClass.h" #include "Paragraph.h" #include "paragraph_funcs.h" #include "ParagraphList.h" #include "ParagraphParameters.h" #include "ParIterator.h" #include "TexRow.h" #include "Text.h" #include "TocBackend.h" #include "frontends/alert.h" #include "insets/InsetBibitem.h" #include "insets/InsetInclude.h" #include "support/lassert.h" #include "support/convert.h" #include "support/debug.h" #include "support/filetools.h" #include "support/gettext.h" #include "support/lstrings.h" #include "support/textutils.h" using namespace std; using namespace lyx::support; namespace lyx { namespace Alert = frontend::Alert; Buffer * checkAndLoadLyXFile(FileName const & filename) { // File already open? Buffer * checkBuffer = theBufferList().getBuffer(filename.absFilename()); if (checkBuffer) { if (checkBuffer->isClean()) return checkBuffer; docstring const file = makeDisplayPath(filename.absFilename(), 20); docstring text = bformat(_( "The document %1$s is already loaded and has unsaved changes.\n" "Do you want to abandon your changes and reload the version on disk?"), file); if (Alert::prompt(_("Reload saved document?"), text, 0, 1, _("&Reload"), _("&Keep Changes"))) return checkBuffer; // FIXME: should be LFUN_REVERT theBufferList().release(checkBuffer); // Load it again. return checkAndLoadLyXFile(filename); } if (filename.exists()) { if (!filename.isReadableFile()) { docstring text = bformat(_("The file %1$s exists but is not " "readable by the current user."), from_utf8(filename.absFilename())); Alert::error(_("File not readable!"), text); return 0; } Buffer * b = theBufferList().newBuffer(filename.absFilename()); if (!b) // Buffer creation is not possible. return 0; if (!b->loadLyXFile(filename)) { theBufferList().release(b); return 0; } return b; } docstring text = bformat(_("The document %1$s does not yet " "exist.\n\nDo you want to create a new document?"), from_utf8(filename.absFilename())); if (!Alert::prompt(_("Create new document?"), text, 0, 1, _("&Create"), _("Cancel"))) return newFile(filename.absFilename(), string(), true); return 0; } // FIXME newFile() should probably be a member method of Application... Buffer * newFile(string const & filename, string const & templatename, bool const isNamed) { // get a free buffer Buffer * b = theBufferList().newBuffer(filename); if (!b) // Buffer creation is not possible. return 0; FileName tname; // use defaults.lyx as a default template if it exists. if (templatename.empty()) tname = libFileSearch("templates", "defaults.lyx"); else tname = makeAbsPath(templatename); if (!tname.empty()) { if (!b->readFile(tname)) { docstring const file = makeDisplayPath(tname.absFilename(), 50); docstring const text = bformat( _("The specified document template\n%1$s\ncould not be read."), file); Alert::error(_("Could not read template"), text); theBufferList().release(b); return 0; } } if (!isNamed) { b->setUnnamed(); b->setFileName(filename); } b->setReadonly(false); b->setFullyLoaded(true); return b; } Buffer * newUnnamedFile(string const & templatename, FileName const & path) { static int newfile_number; string document_path = path.absFilename(); string filename = addName(document_path, "newfile" + convert(++newfile_number) + ".lyx"); while (theBufferList().exists(filename) || FileName(filename).isReadableFile()) { ++newfile_number; filename = addName(document_path, "newfile" + convert(newfile_number) + ".lyx"); } return newFile(filename, templatename, false); } int countWords(DocIterator const & from, DocIterator const & to) { int count = 0; bool inword = false; for (DocIterator dit = from ; dit != to ; dit.forwardPos()) { // Copied and adapted from isLetter() in ControlSpellChecker if (dit.inTexted() && dit.pos() != dit.lastpos() && dit.paragraph().isLetter(dit.pos()) && !dit.paragraph().isDeleted(dit.pos())) { if (!inword) { ++count; inword = true; } } else if (inword) inword = false; } return count; } int countChars(DocIterator const & from, DocIterator const & to, bool with_blanks) { int chars = 0; int blanks = 0; for (DocIterator dit = from ; dit != to ; dit.forwardPos()) { if (!dit.inTexted()) continue; Paragraph const & par = dit.paragraph(); pos_type const pos = dit.pos(); if (pos != dit.lastpos() && !par.isDeleted(pos)) { if (Inset const * ins = par.getInset(pos)) { if (ins->isLetter()) ++chars; else if (with_blanks && ins->isSpace()) ++blanks; } else { char_type const c = par.getChar(pos); if (isPrintableNonspace(c)) ++chars; else if (isSpace(c) && with_blanks) ++blanks; } } } return chars + blanks; } namespace { depth_type getDepth(DocIterator const & it) { depth_type depth = 0; for (size_t i = 0 ; i < it.depth() ; ++i) if (!it[i].inset().inMathed()) depth += it[i].paragraph().getDepth() + 1; // remove 1 since the outer inset does not count return depth - 1; } depth_type getItemDepth(ParIterator const & it) { Paragraph const & par = *it; LabelType const labeltype = par.layout().labeltype; if (labeltype != LABEL_ENUMERATE && labeltype != LABEL_ITEMIZE) return 0; // this will hold the lowest depth encountered up to now. depth_type min_depth = getDepth(it); ParIterator prev_it = it; while (true) { if (prev_it.pit()) --prev_it.top().pit(); else { // start of nested inset: go to outer par prev_it.pop_back(); if (prev_it.empty()) { // start of document: nothing to do return 0; } } // We search for the first paragraph with same label // that is not more deeply nested. Paragraph & prev_par = *prev_it; depth_type const prev_depth = getDepth(prev_it); if (labeltype == prev_par.layout().labeltype) { if (prev_depth < min_depth) return prev_par.itemdepth + 1; if (prev_depth == min_depth) return prev_par.itemdepth; } min_depth = min(min_depth, prev_depth); // small optimization: if we are at depth 0, we won't // find anything else if (prev_depth == 0) return 0; } } bool needEnumCounterReset(ParIterator const & it) { Paragraph const & par = *it; LASSERT(par.layout().labeltype == LABEL_ENUMERATE, /**/); depth_type const cur_depth = par.getDepth(); ParIterator prev_it = it; while (prev_it.pit()) { --prev_it.top().pit(); Paragraph const & prev_par = *prev_it; if (prev_par.getDepth() <= cur_depth) return prev_par.layout().labeltype != LABEL_ENUMERATE; } // start of nested inset: reset return true; } // set the label of a paragraph. This includes the counters. void setLabel(Buffer const & buf, ParIterator & it) { BufferParams const & bp = buf.masterBuffer()->params(); DocumentClass const & textclass = bp.documentClass(); Paragraph & par = it.paragraph(); Layout const & layout = par.layout(); Counters & counters = textclass.counters(); if (par.params().startOfAppendix()) { // FIXME: only the counter corresponding to toplevel // sectionning should be reset counters.reset(); counters.appendix(true); } par.params().appendix(counters.appendix()); // Compute the item depth of the paragraph par.itemdepth = getItemDepth(it); if (layout.margintype == MARGIN_MANUAL) { if (par.params().labelWidthString().empty()) par.params().labelWidthString(par.translateIfPossible(layout.labelstring(), bp)); } else { par.params().labelWidthString(docstring()); } switch(layout.labeltype) { case LABEL_COUNTER: if (layout.toclevel <= bp.secnumdepth && (layout.latextype != LATEX_ENVIRONMENT || isFirstInSequence(it.pit(), it.plist()))) { counters.step(layout.counter); par.params().labelString( par.expandLabel(layout, bp)); } else par.params().labelString(docstring()); break; case LABEL_ITEMIZE: { // At some point of time we should do something more // clever here, like: // par.params().labelString( // bp.user_defined_bullet(par.itemdepth).getText()); // for now, use a simple hardcoded label docstring itemlabel; switch (par.itemdepth) { case 0: itemlabel = char_type(0x2022); break; case 1: itemlabel = char_type(0x2013); break; case 2: itemlabel = char_type(0x2217); break; case 3: itemlabel = char_type(0x2219); // or 0x00b7 break; } par.params().labelString(itemlabel); break; } case LABEL_ENUMERATE: { // FIXME: Yes I know this is a really, really! bad solution // (Lgb) docstring enumcounter = from_ascii("enum"); switch (par.itemdepth) { case 2: enumcounter += 'i'; case 1: enumcounter += 'i'; case 0: enumcounter += 'i'; break; case 3: enumcounter += "iv"; break; default: // not a valid enumdepth... break; } // Maybe we have to reset the enumeration counter. if (needEnumCounterReset(it)) counters.reset(enumcounter); counters.step(enumcounter); string format; switch (par.itemdepth) { case 0: format = N_("\\arabic{enumi}."); break; case 1: format = N_("(\\alph{enumii})"); break; case 2: format = N_("\\roman{enumiii}."); break; case 3: format = N_("\\Alph{enumiv}."); break; default: // not a valid enumdepth... break; } par.params().labelString(counters.counterLabel( par.translateIfPossible(from_ascii(format), bp))); break; } case LABEL_SENSITIVE: { string const & type = counters.current_float(); docstring full_label; if (type.empty()) full_label = buf.B_("Senseless!!! "); else { docstring name = buf.B_(textclass.floats().getType(type).name()); if (counters.hasCounter(from_utf8(type))) { counters.step(from_utf8(type)); full_label = bformat(from_ascii("%1$s %2$s:"), name, counters.theCounter(from_utf8(type))); } else full_label = bformat(from_ascii("%1$s #:"), name); } par.params().labelString(full_label); break; } case LABEL_NO_LABEL: par.params().labelString(docstring()); break; case LABEL_MANUAL: case LABEL_TOP_ENVIRONMENT: case LABEL_CENTERED_TOP_ENVIRONMENT: case LABEL_STATIC: case LABEL_BIBLIO: par.params().labelString( par.translateIfPossible(layout.labelstring(), bp)); break; } } } // anon namespace void updateLabels(Buffer const & buf, ParIterator & parit) { LASSERT(parit.pit() == 0, /**/); // set the position of the text in the buffer to be able // to resolve macros in it. This has nothing to do with // labels, but by putting it here we avoid implementing // a whole bunch of traversal routines just for this call. parit.text()->setMacrocontextPosition(parit); depth_type maxdepth = 0; pit_type const lastpit = parit.lastpit(); for ( ; parit.pit() <= lastpit ; ++parit.pit()) { // reduce depth if necessary parit->params().depth(min(parit->params().depth(), maxdepth)); maxdepth = parit->getMaxDepthAfter(); // set the counter for this paragraph setLabel(buf, parit); // Now the insets InsetList::const_iterator iit = parit->insetList().begin(); InsetList::const_iterator end = parit->insetList().end(); for (; iit != end; ++iit) { parit.pos() = iit->pos; iit->inset->updateLabels(parit); } } } // FIXME: buf should should be const because updateLabels() modifies // the contents of the paragraphs. void updateLabels(Buffer const & buf, bool childonly) { Buffer const * const master = buf.masterBuffer(); // Use the master text class also for child documents DocumentClass const & textclass = master->params().documentClass(); if (!childonly) { // If this is a child document start with the master if (master != &buf) { updateLabels(*master); return; } // start over the counters textclass.counters().reset(); buf.clearReferenceCache(); buf.updateMacros(); } Buffer & cbuf = const_cast(buf); if (buf.text().empty()) { // FIXME: we don't call continue with updateLabels() // here because it crashes on newly created documents. // But the TocBackend needs to be initialised // nonetheless so we update the tocBackend manually. cbuf.tocBackend().update(); return; } // do the real work ParIterator parit = par_iterator_begin(buf.inset()); updateLabels(buf, parit); if (master != &buf) // TocBackend update will be done later. return; cbuf.tocBackend().update(); if (!childonly) cbuf.structureChanged(); } } // namespace lyx