/** * \file Buffer.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Lars Gullik Bjønnes * \author Stefan Schimanski * * Full author contact details are available in file CREDITS. */ #include #include "Buffer.h" #include "Author.h" #include "LayoutFile.h" #include "BiblioInfo.h" #include "BranchList.h" #include "buffer_funcs.h" #include "BufferList.h" #include "BufferParams.h" #include "Bullet.h" #include "Chktex.h" #include "Converter.h" #include "Counters.h" #include "Cursor.h" #include "CutAndPaste.h" #include "DispatchResult.h" #include "DocIterator.h" #include "BufferEncodings.h" #include "ErrorList.h" #include "Exporter.h" #include "Format.h" #include "FuncRequest.h" #include "FuncStatus.h" #include "IndicesList.h" #include "InsetIterator.h" #include "InsetList.h" #include "Language.h" #include "LaTeXFeatures.h" #include "LaTeX.h" #include "Layout.h" #include "Lexer.h" #include "LyXAction.h" #include "LyX.h" #include "LyXRC.h" #include "LyXVC.h" #include "output_docbook.h" #include "output.h" #include "output_latex.h" #include "output_xhtml.h" #include "output_plaintext.h" #include "Paragraph.h" #include "ParagraphParameters.h" #include "ParIterator.h" #include "PDFOptions.h" #include "SpellChecker.h" #include "sgml.h" #include "texstream.h" #include "TexRow.h" #include "Text.h" #include "TextClass.h" #include "TocBackend.h" #include "Undo.h" #include "VCBackend.h" #include "version.h" #include "WordLangTuple.h" #include "WordList.h" #include "insets/InsetBibtex.h" #include "insets/InsetBranch.h" #include "insets/InsetInclude.h" #include "insets/InsetTabular.h" #include "insets/InsetText.h" #include "mathed/InsetMathHull.h" #include "mathed/MacroTable.h" #include "mathed/MathMacroTemplate.h" #include "mathed/MathSupport.h" #include "graphics/PreviewLoader.h" #include "frontends/alert.h" #include "frontends/Delegates.h" #include "frontends/WorkAreaManager.h" #include "support/lassert.h" #include "support/convert.h" #include "support/debug.h" #include "support/docstring_list.h" #include "support/ExceptionMessage.h" #include "support/FileName.h" #include "support/FileNameList.h" #include "support/filetools.h" #include "support/ForkedCalls.h" #include "support/gettext.h" #include "support/gzstream.h" #include "support/lstrings.h" #include "support/lyxalgo.h" #include "support/mutex.h" #include "support/os.h" #include "support/Package.h" #include "support/PathChanger.h" #include "support/Systemcall.h" #include "support/TempFile.h" #include "support/textutils.h" #include "support/types.h" #include "support/bind.h" #include #include #include #include #include #include #include #include using namespace std; using namespace lyx::support; using namespace lyx::graphics; namespace lyx { namespace Alert = frontend::Alert; namespace os = support::os; namespace { int const LYX_FORMAT = LYX_FORMAT_LYX; typedef map DepClean; typedef map > RefCache; } // namespace anon // A storehouse for the cloned buffers. list cloned_buffers; class Buffer::Impl { public: Impl(Buffer * owner, FileName const & file, bool readonly, Buffer const * cloned_buffer); ~Impl() { delete preview_loader_; if (wa_) { wa_->closeAll(); delete wa_; } delete inset; } /// search for macro in local (buffer) table or in children MacroData const * getBufferMacro(docstring const & name, DocIterator const & pos) const; /// Update macro table starting with position of it \param it in some /// text inset. void updateMacros(DocIterator & it, DocIterator & scope); /// void setLabel(ParIterator & it, UpdateType utype) const; /** If we have branches that use the file suffix feature, return the file name with suffix appended. */ support::FileName exportFileName() const; Buffer * owner_; BufferParams params; LyXVC lyxvc; FileName temppath; mutable TexRow texrow; /// need to regenerate .tex? DepClean dep_clean; /// is save needed? mutable bool lyx_clean; /// is autosave needed? mutable bool bak_clean; /// is this an unnamed file (New...)? bool unnamed; /// is this an internal bufffer? bool internal_buffer; /// buffer is r/o bool read_only; /// name of the file the buffer is associated with. FileName filename; /** Set to true only when the file is fully loaded. * Used to prevent the premature generation of previews * and by the citation inset. */ bool file_fully_loaded; /// original format of loaded file int file_format; /// if the file was originally loaded from an older format, do /// we need to back it up still? bool need_format_backup; /// Ignore the parent (e.g. when exporting a child standalone)? bool ignore_parent; /// mutable TocBackend toc_backend; /// macro tables struct ScopeMacro { ScopeMacro() {} ScopeMacro(DocIterator const & s, MacroData const & m) : scope(s), macro(m) {} DocIterator scope; MacroData macro; }; typedef map PositionScopeMacroMap; typedef map NamePositionScopeMacroMap; /// map from the macro name to the position map, /// which maps the macro definition position to the scope and the MacroData. NamePositionScopeMacroMap macros; /// This seem to change the way Buffer::getMacro() works mutable bool macro_lock; /// positions of child buffers in the buffer typedef map BufferPositionMap; struct ScopeBuffer { ScopeBuffer() : buffer(0) {} ScopeBuffer(DocIterator const & s, Buffer const * b) : scope(s), buffer(b) {} DocIterator scope; Buffer const * buffer; }; typedef map PositionScopeBufferMap; /// position of children buffers in this buffer BufferPositionMap children_positions; /// map from children inclusion positions to their scope and their buffer PositionScopeBufferMap position_to_children; /// Contains the old buffer filePath() while saving-as, or the /// directory where the document was last saved while loading. string old_position; /** Keeps track of the path of local layout files. * If possible, it is always relative to the buffer path. * Empty for layouts in system or user directory. */ string layout_position; /// Container for all sort of Buffer dependant errors. map errorLists; /// timestamp and checksum used to test if the file has been externally /// modified. (Used to properly enable 'File->Revert to saved', bug 4114). time_t timestamp_; unsigned long checksum_; /// frontend::WorkAreaManager * wa_; /// frontend::GuiBufferDelegate * gui_; /// Undo undo_; /// A cache for the bibfiles (including bibfiles of loaded child /// documents), needed for appropriate update of natbib labels. mutable support::FileNameList bibfiles_cache_; // FIXME The caching mechanism could be improved. At present, we have a // cache for each Buffer, that caches all the bibliography info for that // Buffer. A more efficient solution would be to have a global cache per // file, and then to construct the Buffer's bibinfo from that. /// A cache for bibliography info mutable BiblioInfo bibinfo_; /// whether the bibinfo cache is valid mutable bool bibinfo_cache_valid_; /// whether the bibfile cache is valid mutable bool bibfile_cache_valid_; /// Cache of timestamps of .bib files map bibfile_status_; /// Indicates whether the bibinfo has changed since the last time /// we ran updateBuffer(), i.e., whether citation labels may need /// to be updated. mutable bool cite_labels_valid_; /// These two hold the file name and format, written to by /// Buffer::preview and read from by LFUN_BUFFER_VIEW_CACHE. FileName preview_file_; string preview_format_; /// If there was an error when previewing, on the next preview we do /// a fresh compile (e.g. in case the user installed a package that /// was missing). bool preview_error_; mutable RefCache ref_cache_; /// our Text that should be wrapped in an InsetText InsetText * inset; /// PreviewLoader * preview_loader_; /// This is here to force the test to be done whenever parent_buffer /// is accessed. Buffer const * parent() const { // ignore_parent temporarily "orphans" a buffer // (e.g. if a child is compiled standalone) if (ignore_parent) return 0; // if parent_buffer is not loaded, then it has been unloaded, // which means that parent_buffer is an invalid pointer. So we // set it to null in that case. // however, the BufferList doesn't know about cloned buffers, so // they will always be regarded as unloaded. in that case, we hope // for the best. if (!cloned_buffer_ && !theBufferList().isLoaded(parent_buffer)) parent_buffer = 0; return parent_buffer; } /// void setParent(Buffer const * pb) { if (parent_buffer == pb) // nothing to do return; if (!cloned_buffer_ && parent_buffer && pb) LYXERR0("Warning: a buffer should not have two parents!"); parent_buffer = pb; if (!cloned_buffer_ && parent_buffer) { parent_buffer->invalidateBibfileCache(); parent_buffer->invalidateBibinfoCache(); } } /// If non zero, this buffer is a clone of existing buffer \p cloned_buffer_ /// This one is useful for preview detached in a thread. Buffer const * cloned_buffer_; /// CloneList * clone_list_; /// are we in the process of exporting this buffer? mutable bool doing_export; /// compute statistics /// \p from initial position /// \p to points to the end position void updateStatistics(DocIterator & from, DocIterator & to, bool skipNoOutput = true); /// statistics accessor functions int wordCount() const { return word_count_; } int charCount(bool with_blanks) const { return char_count_ + (with_blanks ? blank_count_ : 0); } // does the buffer contain tracked changes? (if so, we automatically // display the review toolbar, for instance) mutable bool tracked_changes_present_; private: /// So we can force access via the accessors. mutable Buffer const * parent_buffer; int word_count_; int char_count_; int blank_count_; }; /// Creates the per buffer temporary directory static FileName createBufferTmpDir() { // FIXME This would be the ideal application for a TempDir class (like // TempFile but for directories) string counter; { static int count; static Mutex mutex; Mutex::Locker locker(&mutex); counter = convert(count++); } // We are in our own directory. Why bother to mangle name? // In fact I wrote this code to circumvent a problematic behaviour // (bug?) of EMX mkstemp(). FileName tmpfl(package().temp_dir().absFileName() + "/lyx_tmpbuf" + counter); if (!tmpfl.createDirectory(0777)) { throw ExceptionMessage(WarningException, _("Disk Error: "), bformat( _("LyX could not create the temporary directory '%1$s' (Disk is full maybe?)"), from_utf8(tmpfl.absFileName()))); } return tmpfl; } Buffer::Impl::Impl(Buffer * owner, FileName const & file, bool readonly_, Buffer const * cloned_buffer) : owner_(owner), lyx_clean(true), bak_clean(true), unnamed(false), internal_buffer(false), read_only(readonly_), filename(file), file_fully_loaded(false), file_format(LYX_FORMAT), need_format_backup(false), ignore_parent(false), toc_backend(owner), macro_lock(false), timestamp_(0), checksum_(0), wa_(0), gui_(0), undo_(*owner), bibinfo_cache_valid_(false), bibfile_cache_valid_(false), cite_labels_valid_(false), preview_error_(false), inset(0), preview_loader_(0), cloned_buffer_(cloned_buffer), clone_list_(0), doing_export(false), parent_buffer(0), word_count_(0), char_count_(0), blank_count_(0) { if (!cloned_buffer_) { temppath = createBufferTmpDir(); lyxvc.setBuffer(owner_); if (use_gui) wa_ = new frontend::WorkAreaManager; return; } temppath = cloned_buffer_->d->temppath; file_fully_loaded = true; params = cloned_buffer_->d->params; bibfiles_cache_ = cloned_buffer_->d->bibfiles_cache_; bibinfo_ = cloned_buffer_->d->bibinfo_; bibinfo_cache_valid_ = cloned_buffer_->d->bibinfo_cache_valid_; bibfile_cache_valid_ = cloned_buffer_->d->bibfile_cache_valid_; bibfile_status_ = cloned_buffer_->d->bibfile_status_; cite_labels_valid_ = cloned_buffer_->d->cite_labels_valid_; unnamed = cloned_buffer_->d->unnamed; internal_buffer = cloned_buffer_->d->internal_buffer; layout_position = cloned_buffer_->d->layout_position; preview_file_ = cloned_buffer_->d->preview_file_; preview_format_ = cloned_buffer_->d->preview_format_; preview_error_ = cloned_buffer_->d->preview_error_; tracked_changes_present_ = cloned_buffer_->d->tracked_changes_present_; } Buffer::Buffer(string const & file, bool readonly, Buffer const * cloned_buffer) : d(new Impl(this, FileName(file), readonly, cloned_buffer)) { LYXERR(Debug::INFO, "Buffer::Buffer()"); if (cloned_buffer) { d->inset = new InsetText(*cloned_buffer->d->inset); d->inset->setBuffer(*this); // FIXME: optimize this loop somewhat, maybe by creating a new // general recursive Inset::setId(). DocIterator it = doc_iterator_begin(this); DocIterator cloned_it = doc_iterator_begin(cloned_buffer); for (; !it.atEnd(); it.forwardPar(), cloned_it.forwardPar()) it.paragraph().setId(cloned_it.paragraph().id()); } else d->inset = new InsetText(this); d->inset->getText(0)->setMacrocontextPosition(par_iterator_begin()); } Buffer::~Buffer() { LYXERR(Debug::INFO, "Buffer::~Buffer()"); // here the buffer should take care that it is // saved properly, before it goes into the void. // GuiView already destroyed d->gui_ = 0; if (isInternal()) { // No need to do additional cleanups for internal buffer. delete d; return; } if (isClone()) { // this is in case of recursive includes: we won't try to delete // ourselves as a child. d->clone_list_->erase(this); // loop over children Impl::BufferPositionMap::iterator it = d->children_positions.begin(); Impl::BufferPositionMap::iterator end = d->children_positions.end(); for (; it != end; ++it) { Buffer * child = const_cast(it->first); if (d->clone_list_->erase(child)) delete child; } // if we're the master buffer, then we should get rid of the list // of clones if (!parent()) { // If this is not empty, we have leaked something. Worse, one of the // children still has a reference to this list. But we will try to // continue, rather than shut down. LATTEST(d->clone_list_->empty()); list::iterator it = find(cloned_buffers.begin(), cloned_buffers.end(), d->clone_list_); if (it == cloned_buffers.end()) { // We will leak in this case, but it is safe to continue. LATTEST(false); } else cloned_buffers.erase(it); delete d->clone_list_; } // FIXME Do we really need to do this right before we delete d? // clear references to children in macro tables d->children_positions.clear(); d->position_to_children.clear(); } else { // loop over children Impl::BufferPositionMap::iterator it = d->children_positions.begin(); Impl::BufferPositionMap::iterator end = d->children_positions.end(); for (; it != end; ++it) { Buffer * child = const_cast(it->first); if (theBufferList().isLoaded(child)) { if (theBufferList().isOthersChild(this, child)) child->setParent(0); else theBufferList().release(child); } } if (!isClean()) { docstring msg = _("LyX attempted to close a document that had unsaved changes!\n"); msg += emergencyWrite(); Alert::warning(_("Attempting to close changed document!"), msg); } // FIXME Do we really need to do this right before we delete d? // clear references to children in macro tables d->children_positions.clear(); d->position_to_children.clear(); if (!d->temppath.destroyDirectory()) { LYXERR0(bformat(_("Could not remove the temporary directory %1$s"), from_utf8(d->temppath.absFileName()))); } removePreviews(); } delete d; } Buffer * Buffer::cloneFromMaster() const { BufferMap bufmap; cloned_buffers.push_back(new CloneList); CloneList * clones = cloned_buffers.back(); masterBuffer()->cloneWithChildren(bufmap, clones); // make sure we got cloned BufferMap::const_iterator bit = bufmap.find(this); LASSERT(bit != bufmap.end(), return 0); Buffer * cloned_buffer = bit->second; return cloned_buffer; } void Buffer::cloneWithChildren(BufferMap & bufmap, CloneList * clones) const { // have we already been cloned? if (bufmap.find(this) != bufmap.end()) return; Buffer * buffer_clone = new Buffer(fileName().absFileName(), false, this); // The clone needs its own DocumentClass, since running updateBuffer() will // modify it, and we would otherwise be sharing it with the original Buffer. buffer_clone->params().makeDocumentClass(true); ErrorList el; cap::switchBetweenClasses( params().documentClassPtr(), buffer_clone->params().documentClassPtr(), static_cast(buffer_clone->inset()), el); bufmap[this] = buffer_clone; clones->insert(buffer_clone); buffer_clone->d->clone_list_ = clones; buffer_clone->d->macro_lock = true; buffer_clone->d->children_positions.clear(); // FIXME (Abdel 09/01/2010): this is too complicated. The whole children_positions and // math macro caches need to be rethought and simplified. // I am not sure wether we should handle Buffer cloning here or in BufferList. // Right now BufferList knows nothing about buffer clones. Impl::PositionScopeBufferMap::iterator it = d->position_to_children.begin(); Impl::PositionScopeBufferMap::iterator end = d->position_to_children.end(); for (; it != end; ++it) { DocIterator dit = it->first.clone(buffer_clone); dit.setBuffer(buffer_clone); Buffer * child = const_cast(it->second.buffer); child->cloneWithChildren(bufmap, clones); BufferMap::iterator const bit = bufmap.find(child); LASSERT(bit != bufmap.end(), continue); Buffer * child_clone = bit->second; Inset * inset = dit.nextInset(); LASSERT(inset && inset->lyxCode() == INCLUDE_CODE, continue); InsetInclude * inset_inc = static_cast(inset); inset_inc->setChildBuffer(child_clone); child_clone->d->setParent(buffer_clone); // FIXME Do we need to do this now, or can we wait until we run updateMacros()? buffer_clone->setChild(dit, child_clone); } buffer_clone->d->macro_lock = false; return; } Buffer * Buffer::cloneBufferOnly() const { cloned_buffers.push_back(new CloneList); CloneList * clones = cloned_buffers.back(); Buffer * buffer_clone = new Buffer(fileName().absFileName(), false, this); // The clone needs its own DocumentClass, since running updateBuffer() will // modify it, and we would otherwise be sharing it with the original Buffer. buffer_clone->params().makeDocumentClass(true); ErrorList el; cap::switchBetweenClasses( params().documentClassPtr(), buffer_clone->params().documentClassPtr(), static_cast(buffer_clone->inset()), el); clones->insert(buffer_clone); buffer_clone->d->clone_list_ = clones; // we won't be cloning the children buffer_clone->d->children_positions.clear(); return buffer_clone; } bool Buffer::isClone() const { return d->cloned_buffer_; } void Buffer::changed(bool update_metrics) const { if (d->wa_) d->wa_->redrawAll(update_metrics); } frontend::WorkAreaManager & Buffer::workAreaManager() const { LBUFERR(d->wa_); return *d->wa_; } Text & Buffer::text() const { return d->inset->text(); } Inset & Buffer::inset() const { return *d->inset; } BufferParams & Buffer::params() { return d->params; } BufferParams const & Buffer::params() const { return d->params; } BufferParams const & Buffer::masterParams() const { if (masterBuffer() == this) return params(); BufferParams & mparams = const_cast(masterBuffer())->params(); // Copy child authors to the params. We need those pointers. AuthorList const & child_authors = params().authors(); AuthorList::Authors::const_iterator it = child_authors.begin(); for (; it != child_authors.end(); ++it) mparams.authors().record(*it); return mparams; } double Buffer::fontScalingFactor() const { return isExporting() ? 75.0 * params().html_math_img_scale : 0.01 * lyxrc.dpi * lyxrc.zoom * lyxrc.preview_scale_factor * params().display_pixel_ratio; } ParagraphList & Buffer::paragraphs() { return text().paragraphs(); } ParagraphList const & Buffer::paragraphs() const { return text().paragraphs(); } LyXVC & Buffer::lyxvc() { return d->lyxvc; } LyXVC const & Buffer::lyxvc() const { return d->lyxvc; } string const Buffer::temppath() const { return d->temppath.absFileName(); } TexRow & Buffer::texrow() { return d->texrow; } TexRow const & Buffer::texrow() const { return d->texrow; } TocBackend & Buffer::tocBackend() const { return d->toc_backend; } Undo & Buffer::undo() { return d->undo_; } void Buffer::setChild(DocIterator const & dit, Buffer * child) { d->children_positions[child] = dit; } string Buffer::latexName(bool const no_path) const { FileName latex_name = makeLatexName(d->exportFileName()); return no_path ? latex_name.onlyFileName() : latex_name.absFileName(); } FileName Buffer::Impl::exportFileName() const { docstring const branch_suffix = params.branchlist().getFileNameSuffix(); if (branch_suffix.empty()) return filename; string const name = filename.onlyFileNameWithoutExt() + to_utf8(branch_suffix); FileName res(filename.onlyPath().absFileName() + "/" + name); res.changeExtension(filename.extension()); return res; } string Buffer::logName(LogType * type) const { string const filename = latexName(false); if (filename.empty()) { if (type) *type = latexlog; return string(); } string const path = temppath(); FileName const fname(addName(temppath(), onlyFileName(changeExtension(filename, ".log")))); // FIXME: how do we know this is the name of the build log? FileName const bname( addName(path, onlyFileName( changeExtension(filename, formats.extension(params().bufferFormat()) + ".out")))); // Also consider the master buffer log file FileName masterfname = fname; LogType mtype = latexlog; if (masterBuffer() != this) { string const mlogfile = masterBuffer()->logName(&mtype); masterfname = FileName(mlogfile); } // If no Latex log or Build log is newer, show Build log if (bname.exists() && ((!fname.exists() && !masterfname.exists()) || (fname.lastModified() < bname.lastModified() && masterfname.lastModified() < bname.lastModified()))) { LYXERR(Debug::FILES, "Log name calculated as: " << bname); if (type) *type = buildlog; return bname.absFileName(); // If we have a newer master file log or only a master log, show this } else if (fname != masterfname && (!fname.exists() && (masterfname.exists() || fname.lastModified() < masterfname.lastModified()))) { LYXERR(Debug::FILES, "Log name calculated as: " << masterfname); if (type) *type = mtype; return masterfname.absFileName(); } LYXERR(Debug::FILES, "Log name calculated as: " << fname); if (type) *type = latexlog; return fname.absFileName(); } void Buffer::setReadonly(bool const flag) { if (d->read_only != flag) { d->read_only = flag; changed(false); } } void Buffer::setFileName(FileName const & fname) { bool const changed = fname != d->filename; d->filename = fname; if (changed) lyxvc().file_found_hook(fname); setReadonly(d->filename.isReadOnly()); saveCheckSum(); updateTitles(); } int Buffer::readHeader(Lexer & lex) { int unknown_tokens = 0; int line = -1; int begin_header_line = -1; // Initialize parameters that may be/go lacking in header: params().branchlist().clear(); params().preamble.erase(); params().options.erase(); params().master.erase(); params().float_placement.erase(); params().paperwidth.erase(); params().paperheight.erase(); params().leftmargin.erase(); params().rightmargin.erase(); params().topmargin.erase(); params().bottommargin.erase(); params().headheight.erase(); params().headsep.erase(); params().footskip.erase(); params().columnsep.erase(); params().fonts_cjk.erase(); params().listings_params.clear(); params().clearLayoutModules(); params().clearRemovedModules(); params().clearIncludedChildren(); params().pdfoptions().clear(); params().indiceslist().clear(); params().backgroundcolor = lyx::rgbFromHexName("#ffffff"); params().isbackgroundcolor = false; params().fontcolor = RGBColor(0, 0, 0); params().isfontcolor = false; params().notefontcolor = RGBColor(0xCC, 0xCC, 0xCC); params().boxbgcolor = RGBColor(0xFF, 0, 0); params().html_latex_start.clear(); params().html_latex_end.clear(); params().html_math_img_scale = 1.0; params().output_sync_macro.erase(); params().setLocalLayout(docstring(), false); params().setLocalLayout(docstring(), true); for (int i = 0; i < 4; ++i) { params().user_defined_bullet(i) = ITEMIZE_DEFAULTS[i]; params().temp_bullet(i) = ITEMIZE_DEFAULTS[i]; } ErrorList & errorList = d->errorLists["Parse"]; while (lex.isOK()) { string token; lex >> token; if (token.empty()) continue; if (token == "\\end_header") break; ++line; if (token == "\\begin_header") { begin_header_line = line; continue; } LYXERR(Debug::PARSER, "Handling document header token: `" << token << '\''); string const result = params().readToken(lex, token, d->filename.onlyPath()); if (!result.empty()) { if (token == "\\textclass") { d->layout_position = result; } else { ++unknown_tokens; docstring const s = bformat(_("Unknown token: " "%1$s %2$s\n"), from_utf8(token), lex.getDocString()); errorList.push_back(ErrorItem(_("Document header error"), s, -1, 0, 0)); } } } if (begin_header_line) { docstring const s = _("\\begin_header is missing"); errorList.push_back(ErrorItem(_("Document header error"), s, -1, 0, 0)); } params().makeDocumentClass(); return unknown_tokens; } // Uwe C. Schroeder // changed to be public and have one parameter // Returns true if "\end_document" is not read (Asger) bool Buffer::readDocument(Lexer & lex) { ErrorList & errorList = d->errorLists["Parse"]; errorList.clear(); // remove dummy empty par paragraphs().clear(); if (!lex.checkFor("\\begin_document")) { docstring const s = _("\\begin_document is missing"); errorList.push_back(ErrorItem(_("Document header error"), s, -1, 0, 0)); } readHeader(lex); if (params().output_changes) { bool dvipost = LaTeXFeatures::isAvailable("dvipost"); bool xcolorulem = LaTeXFeatures::isAvailable("ulem") && LaTeXFeatures::isAvailable("xcolor"); if (!dvipost && !xcolorulem) { Alert::warning(_("Changes not shown in LaTeX output"), _("Changes will not be highlighted in LaTeX output, " "because neither dvipost nor xcolor/ulem are installed.\n" "Please install these packages or redefine " "\\lyxadded and \\lyxdeleted in the LaTeX preamble.")); } else if (!xcolorulem) { Alert::warning(_("Changes not shown in LaTeX output"), _("Changes will not be highlighted in LaTeX output " "when using pdflatex, because xcolor and ulem are not installed.\n" "Please install both packages or redefine " "\\lyxadded and \\lyxdeleted in the LaTeX preamble.")); } } if (!parent() && !params().master.empty()) { FileName const master_file = makeAbsPath(params().master, onlyPath(absFileName())); if (isLyXFileName(master_file.absFileName())) { Buffer * master = checkAndLoadLyXFile(master_file, true); if (master) { // necessary e.g. after a reload // to re-register the child (bug 5873) // FIXME: clean up updateMacros (here, only // child registering is needed). master->updateMacros(); // set master as master buffer, but only // if we are a real child if (master->isChild(this)) setParent(master); // if the master is not fully loaded // it is probably just loading this // child. No warning needed then. else if (master->isFullyLoaded()) LYXERR0("The master '" << params().master << "' assigned to this document (" << absFileName() << ") does not include " "this document. Ignoring the master assignment."); } } } // assure we have a default index params().indiceslist().addDefault(B_("Index")); // read main text if (FileName::isAbsolute(params().origin)) d->old_position = params().origin; else d->old_position = filePath(); bool const res = text().read(lex, errorList, d->inset); d->old_position.clear(); // inform parent buffer about local macros if (parent()) { Buffer const * pbuf = parent(); UserMacroSet::const_iterator cit = usermacros.begin(); UserMacroSet::const_iterator end = usermacros.end(); for (; cit != end; ++cit) pbuf->usermacros.insert(*cit); } usermacros.clear(); updateMacros(); updateMacroInstances(InternalUpdate); return res; } bool Buffer::importString(string const & format, docstring const & contents, ErrorList & errorList) { Format const * fmt = formats.getFormat(format); if (!fmt) return false; // It is important to use the correct extension here, since some // converters create a wrong output file otherwise (e.g. html2latex) TempFile const tempfile("Buffer_importStringXXXXXX." + fmt->extension()); FileName const name(tempfile.name()); ofdocstream os(name.toFilesystemEncoding().c_str()); // Do not convert os implicitly to bool, since that is forbidden in C++11. bool const success = !(os << contents).fail(); os.close(); bool converted = false; if (success) { params().compressed = false; // remove dummy empty par paragraphs().clear(); converted = importFile(format, name, errorList); } if (name.exists()) name.removeFile(); return converted; } bool Buffer::importFile(string const & format, FileName const & name, ErrorList & errorList) { if (!theConverters().isReachable(format, "lyx")) return false; TempFile const tempfile("Buffer_importFileXXXXXX.lyx"); FileName const lyx(tempfile.name()); if (theConverters().convert(0, name, lyx, name, format, "lyx", errorList)) return readFile(lyx) == ReadSuccess; return false; } bool Buffer::readString(string const & s) { params().compressed = false; Lexer lex; istringstream is(s); lex.setStream(is); TempFile tempfile("Buffer_readStringXXXXXX.lyx"); FileName const fn = tempfile.name(); int file_format; bool success = parseLyXFormat(lex, fn, file_format) == ReadSuccess; if (success && file_format != LYX_FORMAT) { // We need to call lyx2lyx, so write the input to a file ofstream os(fn.toFilesystemEncoding().c_str()); os << s; os.close(); // lyxvc in readFile if (readFile(fn) != ReadSuccess) success = false; } else if (success) if (readDocument(lex)) success = false; return success; } Buffer::ReadStatus Buffer::readFile(FileName const & fn) { FileName fname(fn); Lexer lex; if (!lex.setFile(fname)) { Alert::error(_("File Not Found"), bformat(_("Unable to open file `%1$s'."), from_utf8(fn.absFileName()))); return ReadFileNotFound; } int file_format; ReadStatus const ret_plf = parseLyXFormat(lex, fn, file_format); if (ret_plf != ReadSuccess) return ret_plf; if (file_format != LYX_FORMAT) { FileName tmpFile; ReadStatus ret_clf = convertLyXFormat(fn, tmpFile, file_format); if (ret_clf != ReadSuccess) return ret_clf; ret_clf = readFile(tmpFile); if (ret_clf == ReadSuccess) { d->file_format = file_format; d->need_format_backup = true; } return ret_clf; } // FIXME: InsetInfo needs to know whether the file is under VCS // during the parse process, so this has to be done before. lyxvc().file_found_hook(d->filename); if (readDocument(lex)) { Alert::error(_("Document format failure"), bformat(_("%1$s ended unexpectedly, which means" " that it is probably corrupted."), from_utf8(fn.absFileName()))); return ReadDocumentFailure; } d->file_fully_loaded = true; d->read_only = !d->filename.isWritable(); params().compressed = formats.isZippedFile(d->filename); saveCheckSum(); return ReadSuccess; } bool Buffer::isFullyLoaded() const { return d->file_fully_loaded; } void Buffer::setFullyLoaded(bool value) { d->file_fully_loaded = value; } bool Buffer::lastPreviewError() const { return d->preview_error_; } PreviewLoader * Buffer::loader() const { if (!isExporting() && lyxrc.preview == LyXRC::PREVIEW_OFF) return 0; if (!d->preview_loader_) d->preview_loader_ = new PreviewLoader(*this); return d->preview_loader_; } void Buffer::removePreviews() const { delete d->preview_loader_; d->preview_loader_ = 0; } void Buffer::updatePreviews() const { PreviewLoader * ploader = loader(); if (!ploader) return; InsetIterator it = inset_iterator_begin(*d->inset); InsetIterator const end = inset_iterator_end(*d->inset); for (; it != end; ++it) it->addPreview(it, *ploader); ploader->startLoading(); } Buffer::ReadStatus Buffer::parseLyXFormat(Lexer & lex, FileName const & fn, int & file_format) const { if(!lex.checkFor("\\lyxformat")) { Alert::error(_("Document format failure"), bformat(_("%1$s is not a readable LyX document."), from_utf8(fn.absFileName()))); return ReadNoLyXFormat; } string tmp_format; lex >> tmp_format; // LyX formats 217 and earlier were written as 2.17. This corresponds // to files from LyX versions < 1.1.6.3. We just remove the dot in // these cases. See also: www.lyx.org/trac/changeset/1313. size_t dot = tmp_format.find_first_of(".,"); if (dot != string::npos) tmp_format.erase(dot, 1); file_format = convert(tmp_format); return ReadSuccess; } Buffer::ReadStatus Buffer::convertLyXFormat(FileName const & fn, FileName & tmpfile, int from_format) { TempFile tempfile("Buffer_convertLyXFormatXXXXXX.lyx"); tempfile.setAutoRemove(false); tmpfile = tempfile.name(); if(tmpfile.empty()) { Alert::error(_("Conversion failed"), bformat(_("%1$s is from a different" " version of LyX, but a temporary" " file for converting it could" " not be created."), from_utf8(fn.absFileName()))); return LyX2LyXNoTempFile; } FileName const lyx2lyx = libFileSearch("lyx2lyx", "lyx2lyx"); if (lyx2lyx.empty()) { Alert::error(_("Conversion script not found"), bformat(_("%1$s is from a different" " version of LyX, but the" " conversion script lyx2lyx" " could not be found."), from_utf8(fn.absFileName()))); return LyX2LyXNotFound; } // Run lyx2lyx: // $python$ "$lyx2lyx$" -t $LYX_FORMAT$ -o "$tempfile$" "$filetoread$" ostringstream command; command << os::python() << ' ' << quoteName(lyx2lyx.toFilesystemEncoding()) << " -t " << convert(LYX_FORMAT) << " -o " << quoteName(tmpfile.toFilesystemEncoding()) << ' ' << quoteName(fn.toSafeFilesystemEncoding()); string const command_str = command.str(); LYXERR(Debug::INFO, "Running '" << command_str << '\''); cmd_ret const ret = runCommand(command_str); if (ret.first != 0) { if (from_format < LYX_FORMAT) { Alert::error(_("Conversion script failed"), bformat(_("%1$s is from an older version" " of LyX and the lyx2lyx script" " failed to convert it."), from_utf8(fn.absFileName()))); return LyX2LyXOlderFormat; } else { Alert::error(_("Conversion script failed"), bformat(_("%1$s is from a newer version" " of LyX and the lyx2lyx script" " failed to convert it."), from_utf8(fn.absFileName()))); return LyX2LyXNewerFormat; } } return ReadSuccess; } FileName Buffer::getBackupName() const { FileName const & fn = fileName(); string const fname = fn.onlyFileNameWithoutExt(); string const fext = fn.extension() + "~"; string const fpath = lyxrc.backupdir_path.empty() ? fn.onlyPath().absFileName() : lyxrc.backupdir_path; string const fform = convert(d->file_format); string const backname = fname + "-lyxformat-" + fform; FileName backup(addName(fpath, addExtension(backname, fext))); // limit recursion, just in case int v = 1; unsigned long orig_checksum = 0; while (backup.exists() && v < 100) { if (orig_checksum == 0) orig_checksum = fn.checksum(); unsigned long new_checksum = backup.checksum(); if (orig_checksum == new_checksum) { LYXERR(Debug::FILES, "Not backing up " << fn << "since " << backup << "has the same checksum."); // a bit of a hack, but we have to check this anyway // below, and setting this is simpler than introducing // a special boolean for this purpose. v = 1000; break; } string const newbackname = backname + "-" + convert(v); backup.set(addName(fpath, addExtension(newbackname, fext))); v++; } return v < 100 ? backup : FileName(); } // Should probably be moved to somewhere else: BufferView? GuiView? bool Buffer::save() const { docstring const file = makeDisplayPath(absFileName(), 20); d->filename.refresh(); // check the read-only status before moving the file as a backup if (d->filename.exists()) { bool const read_only = !d->filename.isWritable(); if (read_only) { Alert::warning(_("File is read-only"), bformat(_("The file %1$s cannot be written because it " "is marked as read-only."), file)); return false; } } // ask if the disk file has been externally modified (use checksum method) if (fileName().exists() && isExternallyModified(checksum_method)) { docstring text = bformat(_("Document %1$s has been externally modified. " "Are you sure you want to overwrite this file?"), file); int const ret = Alert::prompt(_("Overwrite modified file?"), text, 1, 1, _("&Overwrite"), _("&Cancel")); if (ret == 1) return false; } // We don't need autosaves in the immediate future. (Asger) resetAutosaveTimers(); // if the file does not yet exist, none of the backup activity // that follows is necessary if (!fileName().exists()) { if (!writeFile(fileName())) return false; markClean(); return true; } // we first write the file to a new name, then move it to its // proper location once that has been done successfully. that // way we preserve the original file if something goes wrong. string const justname = fileName().onlyFileNameWithoutExt(); auto tempfile = make_unique(fileName().onlyPath(), justname + "-XXXXXX.lyx"); bool const symlink = fileName().isSymLink(); if (!symlink) tempfile->setAutoRemove(false); FileName savefile(tempfile->name()); LYXERR(Debug::FILES, "Saving to " << savefile.absFileName()); if (!writeFile(savefile)) return false; // we will set this to false if we fail bool made_backup = true; FileName backupName; bool const needBackup = lyxrc.make_backup || d->need_format_backup; if (needBackup) { if (d->need_format_backup) backupName = getBackupName(); // If we for some reason failed to find a backup name in case of // a format change, this will still set one. It's the best we can // do in this case. if (backupName.empty()) { backupName.set(fileName().absFileName() + "~"); if (!lyxrc.backupdir_path.empty()) { string const mangledName = subst(subst(backupName.absFileName(), '/', '!'), ':', '!'); backupName.set(addName(lyxrc.backupdir_path, mangledName)); } } LYXERR(Debug::FILES, "Backing up original file to " << backupName.absFileName()); // Except file is symlink do not copy because of #6587. // Hard links have bad luck. made_backup = symlink ? fileName().copyTo(backupName): fileName().moveTo(backupName); if (!made_backup) { Alert::error(_("Backup failure"), bformat(_("Cannot create backup file %1$s.\n" "Please check whether the directory exists and is writable."), from_utf8(backupName.absFileName()))); //LYXERR(Debug::DEBUG, "Fs error: " << fe.what()); } else if (d->need_format_backup) { // the original file has been backed up successfully, so we // will not need to do that again d->need_format_backup = false; } } // Destroy tempfile since it keeps the file locked on windows (bug 9234) // Only do this if tempfile is not in autoremove mode if (!symlink) tempfile.reset(); // If we have no symlink, we can simply rename the temp file. // Otherwise, we need to copy it so the symlink stays intact. if (made_backup && symlink ? savefile.copyTo(fileName(), true) : savefile.moveTo(fileName())) { // saveCheckSum() was already called by writeFile(), but the // time stamp is invalidated by copying/moving saveCheckSum(); markClean(); if (d->file_format != LYX_FORMAT) // the file associated with this buffer is now in the current format d->file_format = LYX_FORMAT; return true; } // else we saved the file, but failed to move it to the right location. if (needBackup && made_backup && !symlink) { // the original file was moved to some new location, so it will look // to the user as if it was deleted. (see bug #9234.) we could try // to restore it, but that would basically mean trying to do again // what we just failed to do. better to leave things as they are. Alert::error(_("Write failure"), bformat(_("The file has successfully been saved as:\n %1$s.\n" "But LyX could not move it to:\n %2$s.\n" "Your original file has been backed up to:\n %3$s"), from_utf8(savefile.absFileName()), from_utf8(fileName().absFileName()), from_utf8(backupName.absFileName()))); } else { // either we did not try to make a backup, or else we tried and failed, // or else the original file was a symlink, in which case it was copied, // not moved. so the original file is intact. Alert::error(_("Write failure"), bformat(_("Cannot move saved file to:\n %1$s.\n" "But the file has successfully been saved as:\n %2$s."), from_utf8(fileName().absFileName()), from_utf8(savefile.absFileName()))); } return false; } bool Buffer::writeFile(FileName const & fname) const { if (d->read_only && fname == d->filename) return false; bool retval = false; docstring const str = bformat(_("Saving document %1$s..."), makeDisplayPath(fname.absFileName())); message(str); string const encoded_fname = fname.toSafeFilesystemEncoding(os::CREATE); if (params().compressed) { gz::ogzstream ofs(encoded_fname.c_str(), ios::out|ios::trunc); retval = ofs && write(ofs); } else { ofstream ofs(encoded_fname.c_str(), ios::out|ios::trunc); retval = ofs && write(ofs); } if (!retval) { message(str + _(" could not write file!")); return false; } // see bug 6587 // removeAutosaveFile(); saveCheckSum(); message(str + _(" done.")); return true; } docstring Buffer::emergencyWrite() { // No need to save if the buffer has not changed. if (isClean()) return docstring(); string const doc = isUnnamed() ? onlyFileName(absFileName()) : absFileName(); docstring user_message = bformat( _("LyX: Attempting to save document %1$s\n"), from_utf8(doc)); // We try to save three places: // 1) Same place as document. Unless it is an unnamed doc. if (!isUnnamed()) { string s = absFileName(); s += ".emergency"; LYXERR0(" " << s); if (writeFile(FileName(s))) { markClean(); user_message += " " + bformat(_("Saved to %1$s. Phew.\n"), from_utf8(s)); return user_message; } else { user_message += " " + _("Save failed! Trying again...\n"); } } // 2) In HOME directory. string s = addName(Package::get_home_dir().absFileName(), absFileName()); s += ".emergency"; lyxerr << ' ' << s << endl; if (writeFile(FileName(s))) { markClean(); user_message += " " + bformat(_("Saved to %1$s. Phew.\n"), from_utf8(s)); return user_message; } user_message += " " + _("Save failed! Trying yet again...\n"); // 3) In "/tmp" directory. // MakeAbsPath to prepend the current // drive letter on OS/2 s = addName(package().temp_dir().absFileName(), absFileName()); s += ".emergency"; lyxerr << ' ' << s << endl; if (writeFile(FileName(s))) { markClean(); user_message += " " + bformat(_("Saved to %1$s. Phew.\n"), from_utf8(s)); return user_message; } user_message += " " + _("Save failed! Bummer. Document is lost."); // Don't try again. markClean(); return user_message; } bool Buffer::write(ostream & ofs) const { #ifdef HAVE_LOCALE // Use the standard "C" locale for file output. ofs.imbue(locale::classic()); #endif // The top of the file should not be written by params(). // write out a comment in the top of the file // Important: Keep the version formatting in sync with lyx2lyx and // tex2lyx (bug 7951) ofs << "#LyX " << lyx_version_major << "." << lyx_version_minor << " created this file. For more info see http://www.lyx.org/\n" << "\\lyxformat " << LYX_FORMAT << "\n" << "\\begin_document\n"; /// For each author, set 'used' to true if there is a change /// by this author in the document; otherwise set it to 'false'. AuthorList::Authors::const_iterator a_it = params().authors().begin(); AuthorList::Authors::const_iterator a_end = params().authors().end(); for (; a_it != a_end; ++a_it) a_it->setUsed(false); ParIterator const end = const_cast(this)->par_iterator_end(); ParIterator it = const_cast(this)->par_iterator_begin(); for ( ; it != end; ++it) it->checkAuthors(params().authors()); // now write out the buffer parameters. ofs << "\\begin_header\n"; params().writeFile(ofs, this); ofs << "\\end_header\n"; // write the text ofs << "\n\\begin_body\n"; text().write(ofs); ofs << "\n\\end_body\n"; // Write marker that shows file is complete ofs << "\\end_document" << endl; // Shouldn't really be needed.... //ofs.close(); // how to check if close went ok? // Following is an attempt... (BE 20001011) // good() returns false if any error occurred, including some // formatting error. // bad() returns true if something bad happened in the buffer, // which should include file system full errors. bool status = true; if (!ofs) { status = false; lyxerr << "File was not closed properly." << endl; } return status; } bool Buffer::makeLaTeXFile(FileName const & fname, string const & original_path, OutputParams const & runparams_in, OutputWhat output) const { OutputParams runparams = runparams_in; // XeTeX with TeX fonts is only safe with ASCII encoding (see also #9740), // Check here, because the "flavor" is not known in BufferParams::encoding() // (power users can override this safety measure selecting "utf8-plain"). if (!params().useNonTeXFonts && (runparams.flavor == OutputParams::XETEX) && (runparams.encoding->name() != "utf8-plain")) runparams.encoding = encodings.fromLyXName("ascii"); string const encoding = runparams.encoding->iconvName(); LYXERR(Debug::LATEX, "makeLaTeXFile encoding: " << encoding << ", fname=" << fname.realPath()); ofdocstream ofs; try { ofs.reset(encoding); } catch (iconv_codecvt_facet_exception const & e) { lyxerr << "Caught iconv exception: " << e.what() << endl; Alert::error(_("Iconv software exception Detected"), bformat(_("Please " "verify that the support software for your encoding (%1$s) is " "properly installed"), from_ascii(encoding))); return false; } if (!openFileWrite(ofs, fname)) return false; ErrorList & errorList = d->errorLists["Export"]; errorList.clear(); bool failed_export = false; otexstream os(ofs); // make sure we are ready to export // this needs to be done before we validate // FIXME Do we need to do this all the time? I.e., in children // of a master we are exporting? updateBuffer(); updateMacroInstances(OutputUpdate); try { writeLaTeXSource(os, original_path, runparams, output); } catch (EncodingException const & e) { docstring const failed(1, e.failed_char); ostringstream oss; oss << "0x" << hex << e.failed_char << dec; docstring msg = bformat(_("Could not find LaTeX command for character '%1$s'" " (code point %2$s)"), failed, from_utf8(oss.str())); errorList.push_back(ErrorItem(msg, _("Some characters of your document are probably not " "representable in the chosen encoding.\n" "Changing the document encoding to utf8 could help."), e.par_id, e.pos, e.pos + 1)); failed_export = true; } catch (iconv_codecvt_facet_exception const & e) { errorList.push_back(ErrorItem(_("iconv conversion failed"), _(e.what()), -1, 0, 0)); failed_export = true; } catch (exception const & e) { errorList.push_back(ErrorItem(_("conversion failed"), _(e.what()), -1, 0, 0)); failed_export = true; } catch (...) { lyxerr << "Caught some really weird exception..." << endl; lyx_exit(1); } d->texrow = move(os.texrow()); ofs.close(); if (ofs.fail()) { failed_export = true; lyxerr << "File '" << fname << "' was not closed properly." << endl; } if (runparams_in.silent) errorList.clear(); else errors("Export"); return !failed_export; } void Buffer::writeLaTeXSource(otexstream & os, string const & original_path, OutputParams const & runparams_in, OutputWhat output) const { // The child documents, if any, shall be already loaded at this point. OutputParams runparams = runparams_in; // XeTeX with TeX fonts is only safe with ASCII encoding, // Check here, because the "flavor" is not known in BufferParams::encoding() // (power users can override this safety measure selecting "utf8-plain"). if (!params().useNonTeXFonts && (runparams.flavor == OutputParams::XETEX) && (runparams.encoding->name() != "utf8-plain")) runparams.encoding = encodings.fromLyXName("ascii"); // FIXME: when only the current paragraph is shown, this is ignored // (or not reached) and characters encodable in the current // encoding are not converted to ASCII-representation. // If we are compiling a file standalone, even if this is the // child of some other buffer, let's cut the link here, so the // file is really independent and no concurring settings from // the master (e.g. branch state) interfere (see #8100). if (!runparams.is_child) d->ignore_parent = true; // Classify the unicode characters appearing in math insets BufferEncodings::initUnicodeMath(*this); // validate the buffer. LYXERR(Debug::LATEX, " Validating buffer..."); LaTeXFeatures features(*this, params(), runparams); validate(features); // This is only set once per document (in master) if (!runparams.is_child) runparams.use_polyglossia = features.usePolyglossia(); LYXERR(Debug::LATEX, " Buffer validation done."); bool const output_preamble = output == FullSource || output == OnlyPreamble; bool const output_body = output == FullSource || output == OnlyBody; // The starting paragraph of the coming rows is the // first paragraph of the document. (Asger) if (output_preamble && runparams.nice) { os << "%% LyX " << lyx_version << " created this file. " "For more info, see http://www.lyx.org/.\n" "%% Do not edit unless you really know what " "you are doing.\n"; } LYXERR(Debug::INFO, "lyx document header finished"); // There are a few differences between nice LaTeX and usual files: // usual files have \batchmode and special input@path to allow // inclusion of figures specified by an explicitly relative path // (i.e., a path starting with './' or '../') with either \input or // \includegraphics, as the TEXINPUTS method doesn't work in this case. // input@path is set when the actual parameter original_path is set. // This is done for usual tex-file, but not for nice-latex-file. // (Matthias 250696) // Note that input@path is only needed for something the user does // in the preamble, included .tex files or ERT, files included by // LyX work without it. if (output_preamble) { if (!runparams.nice) { // code for usual, NOT nice-latex-file os << "\\batchmode\n"; // changed from \nonstopmode } if (!original_path.empty()) { // FIXME UNICODE // We don't know the encoding of inputpath docstring const inputpath = from_utf8(original_path); docstring uncodable_glyphs; Encoding const * const enc = runparams.encoding; if (enc) { for (size_t n = 0; n < inputpath.size(); ++n) { if (!enc->encodable(inputpath[n])) { docstring const glyph(1, inputpath[n]); LYXERR0("Uncodable character '" << glyph << "' in input path!"); uncodable_glyphs += glyph; } } } // warn user if we found uncodable glyphs. if (!uncodable_glyphs.empty()) { frontend::Alert::warning( _("Uncodable character in file path"), support::bformat( _("The path of your document\n" "(%1$s)\n" "contains glyphs that are unknown " "in the current document encoding " "(namely %2$s). This may result in " "incomplete output, unless " "TEXINPUTS contains the document " "directory and you don't use " "explicitly relative paths (i.e., " "paths starting with './' or " "'../') in the preamble or in ERT." "\n\nIn case of problems, choose " "an appropriate document encoding\n" "(such as utf8) or change the " "file path name."), inputpath, uncodable_glyphs)); } else { string docdir = support::latex_path(original_path); if (contains(docdir, '#')) { docdir = subst(docdir, "#", "\\#"); os << "\\catcode`\\#=11" "\\def\\#{#}\\catcode`\\#=6\n"; } if (contains(docdir, '%')) { docdir = subst(docdir, "%", "\\%"); os << "\\catcode`\\%=11" "\\def\\%{%}\\catcode`\\%=14\n"; } os << "\\makeatletter\n" << "\\def\\input@path{{" << docdir << "}}\n" << "\\makeatother\n"; } } // get parent macros (if this buffer has a parent) which will be // written at the document begin further down. MacroSet parentMacros; listParentMacros(parentMacros, features); // Write the preamble runparams.use_babel = params().writeLaTeX(os, features, d->filename.onlyPath()); // Japanese might be required only in some children of a document, // but once required, we must keep use_japanese true. runparams.use_japanese |= features.isRequired("japanese"); if (!output_body) { // Restore the parenthood if needed if (!runparams.is_child) d->ignore_parent = false; return; } // make the body. os << "\\begin{document}\n"; // output the parent macros MacroSet::iterator it = parentMacros.begin(); MacroSet::iterator end = parentMacros.end(); for (; it != end; ++it) { int num_lines = (*it)->write(os.os(), true); os.texrow().newlines(num_lines); } } // output_preamble LYXERR(Debug::INFO, "preamble finished, now the body."); // the real stuff latexParagraphs(*this, text(), os, runparams); // Restore the parenthood if needed if (!runparams.is_child) d->ignore_parent = false; // add this just in case after all the paragraphs os << endl; if (output_preamble) { os << "\\end{document}\n"; LYXERR(Debug::LATEX, "makeLaTeXFile...done"); } else { LYXERR(Debug::LATEX, "LaTeXFile for inclusion made."); } runparams_in.encoding = runparams.encoding; LYXERR(Debug::INFO, "Finished making LaTeX file."); LYXERR(Debug::INFO, "Row count was " << os.texrow().rows() - 1 << '.'); } void Buffer::makeDocBookFile(FileName const & fname, OutputParams const & runparams, OutputWhat output) const { LYXERR(Debug::LATEX, "makeDocBookFile..."); ofdocstream ofs; if (!openFileWrite(ofs, fname)) return; // make sure we are ready to export // this needs to be done before we validate updateBuffer(); updateMacroInstances(OutputUpdate); writeDocBookSource(ofs, fname.absFileName(), runparams, output); ofs.close(); if (ofs.fail()) lyxerr << "File '" << fname << "' was not closed properly." << endl; } void Buffer::writeDocBookSource(odocstream & os, string const & fname, OutputParams const & runparams, OutputWhat output) const { LaTeXFeatures features(*this, params(), runparams); validate(features); d->texrow.reset(); DocumentClass const & tclass = params().documentClass(); string const & top_element = tclass.latexname(); bool const output_preamble = output == FullSource || output == OnlyPreamble; bool const output_body = output == FullSource || output == OnlyBody; if (output_preamble) { if (runparams.flavor == OutputParams::XML) os << "\n"; // FIXME UNICODE os << "\n"; preamble += "\n"; preamble += "\n"; preamble += "\n"; } string const name = runparams.nice ? changeExtension(absFileName(), ".sgml") : fname; preamble += features.getIncludedFiles(name); preamble += features.getLyXSGMLEntities(); if (!preamble.empty()) { os << "\n [ " << preamble << " ]"; } os << ">\n\n"; } if (output_body) { string top = top_element; top += " lang=\""; if (runparams.flavor == OutputParams::XML) top += params().language->code(); else top += params().language->code().substr(0, 2); top += '"'; if (!params().options.empty()) { top += ' '; top += params().options; } os << "\n"; params().documentClass().counters().reset(); sgml::openTag(os, top); os << '\n'; docbookParagraphs(text(), *this, os, runparams); sgml::closeTag(os, top_element); } } void Buffer::makeLyXHTMLFile(FileName const & fname, OutputParams const & runparams) const { LYXERR(Debug::LATEX, "makeLyXHTMLFile..."); ofdocstream ofs; if (!openFileWrite(ofs, fname)) return; // make sure we are ready to export // this has to be done before we validate updateBuffer(UpdateMaster, OutputUpdate); updateMacroInstances(OutputUpdate); writeLyXHTMLSource(ofs, runparams, FullSource); ofs.close(); if (ofs.fail()) lyxerr << "File '" << fname << "' was not closed properly." << endl; } void Buffer::writeLyXHTMLSource(odocstream & os, OutputParams const & runparams, OutputWhat output) const { LaTeXFeatures features(*this, params(), runparams); validate(features); d->bibinfo_.makeCitationLabels(*this); bool const output_preamble = output == FullSource || output == OnlyPreamble; bool const output_body = output == FullSource || output == OnlyBody || output == IncludedFile; if (output_preamble) { os << "\n" << "\n" // FIXME Language should be set properly. << "\n" << "\n" << "\n" // FIXME Presumably need to set this right << "\n"; docstring const & doctitle = features.htmlTitle(); os << "" << (doctitle.empty() ? from_ascii("LyX Document") : html::htmlize(doctitle, XHTMLStream::ESCAPE_ALL)) << "\n"; docstring styles = features.getTClassHTMLPreamble(); if (!styles.empty()) os << "\n\n" << styles << '\n'; styles = features.getPreambleSnippets().str; if (!styles.empty()) os << "\n\n" << styles << '\n'; // we will collect CSS information in a stream, and then output it // either here, as part of the header, or else in a separate file. odocstringstream css; styles = features.getCSSSnippets(); if (!styles.empty()) css << "/* LyX Provided Styles */\n" << styles << '\n'; styles = features.getTClassHTMLStyles(); if (!styles.empty()) css << "/* Layout-provided Styles */\n" << styles << '\n'; bool const needfg = params().fontcolor != RGBColor(0, 0, 0); bool const needbg = params().backgroundcolor != RGBColor(0xFF, 0xFF, 0xFF); if (needfg || needbg) { css << "\nbody {\n"; if (needfg) css << " color: " << from_ascii(X11hexname(params().fontcolor)) << ";\n"; if (needbg) css << " background-color: " << from_ascii(X11hexname(params().backgroundcolor)) << ";\n"; css << "}\n"; } docstring const dstyles = css.str(); if (!dstyles.empty()) { bool written = false; if (params().html_css_as_file) { // open a file for CSS info ofdocstream ocss; string const fcssname = addName(temppath(), "docstyle.css"); FileName const fcssfile = FileName(fcssname); if (openFileWrite(ocss, fcssfile)) { ocss << dstyles; ocss.close(); written = true; // write link to header os << "\n"; // register file runparams.exportdata->addExternalFile("xhtml", fcssfile); } } // we are here if the CSS is supposed to be written to the header // or if we failed to write it to an external file. if (!written) { os << "\n"; } } os << "\n"; } if (output_body) { bool const output_body_tag = (output != IncludedFile); if (output_body_tag) os << "\n"; XHTMLStream xs(os); if (output != IncludedFile) // if we're an included file, the counters are in the master. params().documentClass().counters().reset(); xhtmlParagraphs(text(), *this, xs, runparams); if (output_body_tag) os << "\n"; } if (output_preamble) os << "\n"; } // chktex should be run with these flags disabled: 3, 22, 25, 30, 38(?) // Other flags: -wall -v0 -x int Buffer::runChktex() { setBusy(true); // get LaTeX-Filename FileName const path(temppath()); string const name = addName(path.absFileName(), latexName()); string const org_path = filePath(); PathChanger p(path); // path to LaTeX file message(_("Running chktex...")); // Generate the LaTeX file if neccessary OutputParams runparams(¶ms().encoding()); runparams.flavor = OutputParams::LATEX; runparams.nice = false; runparams.linelen = lyxrc.plaintext_linelen; makeLaTeXFile(FileName(name), org_path, runparams); TeXErrors terr; Chktex chktex(lyxrc.chktex_command, onlyFileName(name), filePath()); int const res = chktex.run(terr); // run chktex if (res == -1) { Alert::error(_("chktex failure"), _("Could not run chktex successfully.")); } else { ErrorList & errlist = d->errorLists["ChkTeX"]; errlist.clear(); bufferErrors(terr, errlist); } setBusy(false); if (runparams.silent) d->errorLists["ChkTeX"].clear(); else errors("ChkTeX"); return res; } void Buffer::validate(LaTeXFeatures & features) const { // Validate the buffer params, but not for included // files, since they also use the parent buffer's // params (# 5941) if (!features.runparams().is_child) params().validate(features); for (Paragraph const & p : paragraphs()) p.validate(features); if (lyxerr.debugging(Debug::LATEX)) { features.showStruct(); } } void Buffer::getLabelList(vector & list) const { // If this is a child document, use the master's list instead. if (parent()) { masterBuffer()->getLabelList(list); return; } list.clear(); shared_ptr toc = d->toc_backend.toc("label"); Toc::const_iterator toc_it = toc->begin(); Toc::const_iterator end = toc->end(); for (; toc_it != end; ++toc_it) { if (toc_it->depth() == 0) list.push_back(toc_it->str()); } } void Buffer::updateBibfilesCache(UpdateScope scope) const { // FIXME This is probably unnecssary, given where we call this. // If this is a child document, use the parent's cache instead. if (parent() && scope != UpdateChildOnly) { masterBuffer()->updateBibfilesCache(); return; } d->bibfiles_cache_.clear(); for (InsetIterator it = inset_iterator_begin(inset()); it; ++it) { if (it->lyxCode() == BIBTEX_CODE) { InsetBibtex const & inset = static_cast(*it); support::FileNameList const bibfiles = inset.getBibFiles(); d->bibfiles_cache_.insert(d->bibfiles_cache_.end(), bibfiles.begin(), bibfiles.end()); } else if (it->lyxCode() == INCLUDE_CODE) { InsetInclude & inset = static_cast(*it); Buffer const * const incbuf = inset.getChildBuffer(); if (!incbuf) continue; support::FileNameList const & bibfiles = incbuf->getBibfilesCache(UpdateChildOnly); if (!bibfiles.empty()) { d->bibfiles_cache_.insert(d->bibfiles_cache_.end(), bibfiles.begin(), bibfiles.end()); } } } d->bibfile_cache_valid_ = true; d->bibinfo_cache_valid_ = false; d->cite_labels_valid_ = false; } void Buffer::invalidateBibinfoCache() const { d->bibinfo_cache_valid_ = false; d->cite_labels_valid_ = false; // also invalidate the cache for the parent buffer Buffer const * const pbuf = d->parent(); if (pbuf) pbuf->invalidateBibinfoCache(); } void Buffer::invalidateBibfileCache() const { d->bibfile_cache_valid_ = false; d->bibinfo_cache_valid_ = false; d->cite_labels_valid_ = false; // also invalidate the cache for the parent buffer Buffer const * const pbuf = d->parent(); if (pbuf) pbuf->invalidateBibfileCache(); } support::FileNameList const & Buffer::getBibfilesCache(UpdateScope scope) const { // FIXME This is probably unnecessary, given where we call this. // If this is a child document, use the master's cache instead. Buffer const * const pbuf = masterBuffer(); if (pbuf != this && scope != UpdateChildOnly) return pbuf->getBibfilesCache(); if (!d->bibfile_cache_valid_) this->updateBibfilesCache(scope); return d->bibfiles_cache_; } BiblioInfo const & Buffer::masterBibInfo() const { Buffer const * const tmp = masterBuffer(); if (tmp != this) return tmp->masterBibInfo(); return d->bibinfo_; } void Buffer::checkIfBibInfoCacheIsValid() const { // use the master's cache Buffer const * const tmp = masterBuffer(); if (tmp != this) { tmp->checkIfBibInfoCacheIsValid(); return; } // compare the cached timestamps with the actual ones. FileNameList const & bibfiles_cache = getBibfilesCache(); FileNameList::const_iterator ei = bibfiles_cache.begin(); FileNameList::const_iterator en = bibfiles_cache.end(); for (; ei != en; ++ ei) { time_t lastw = ei->lastModified(); time_t prevw = d->bibfile_status_[*ei]; if (lastw != prevw) { d->bibinfo_cache_valid_ = false; d->cite_labels_valid_ = false; d->bibfile_status_[*ei] = lastw; } } } void Buffer::reloadBibInfoCache() const { // use the master's cache Buffer const * const tmp = masterBuffer(); if (tmp != this) { tmp->reloadBibInfoCache(); return; } checkIfBibInfoCacheIsValid(); if (d->bibinfo_cache_valid_) return; d->bibinfo_.clear(); collectBibKeys(); d->bibinfo_cache_valid_ = true; } void Buffer::collectBibKeys() const { for (InsetIterator it = inset_iterator_begin(inset()); it; ++it) it->collectBibKeys(it); } void Buffer::addBiblioInfo(BiblioInfo const & bi) const { Buffer const * tmp = masterBuffer(); BiblioInfo & masterbi = (tmp == this) ? d->bibinfo_ : tmp->d->bibinfo_; masterbi.mergeBiblioInfo(bi); } void Buffer::addBibTeXInfo(docstring const & key, BibTeXInfo const & bi) const { Buffer const * tmp = masterBuffer(); BiblioInfo & masterbi = (tmp == this) ? d->bibinfo_ : tmp->d->bibinfo_; masterbi[key] = bi; } void Buffer::makeCitationLabels() const { Buffer const * const master = masterBuffer(); return d->bibinfo_.makeCitationLabels(*master); } bool Buffer::citeLabelsValid() const { return masterBuffer()->d->cite_labels_valid_; } void Buffer::removeBiblioTempFiles() const { // We remove files that contain LaTeX commands specific to the // particular bibliographic style being used, in order to avoid // LaTeX errors when we switch style. FileName const aux_file(addName(temppath(), changeExtension(latexName(),".aux"))); FileName const bbl_file(addName(temppath(), changeExtension(latexName(),".bbl"))); LYXERR(Debug::FILES, "Removing the .aux file " << aux_file); aux_file.removeFile(); LYXERR(Debug::FILES, "Removing the .bbl file " << bbl_file); bbl_file.removeFile(); // Also for the parent buffer Buffer const * const pbuf = parent(); if (pbuf) pbuf->removeBiblioTempFiles(); } bool Buffer::isDepClean(string const & name) const { DepClean::const_iterator const it = d->dep_clean.find(name); if (it == d->dep_clean.end()) return true; return it->second; } void Buffer::markDepClean(string const & name) { d->dep_clean[name] = true; } bool Buffer::getStatus(FuncRequest const & cmd, FuncStatus & flag) { if (isInternal()) { // FIXME? if there is an Buffer LFUN that can be dispatched even // if internal, put a switch '(cmd.action)' here. return false; } bool enable = true; switch (cmd.action()) { case LFUN_BUFFER_TOGGLE_READ_ONLY: flag.setOnOff(isReadonly()); break; // FIXME: There is need for a command-line import. //case LFUN_BUFFER_IMPORT: case LFUN_BUFFER_AUTO_SAVE: break; case LFUN_BUFFER_EXPORT_CUSTOM: // FIXME: Nothing to check here? break; case LFUN_BUFFER_EXPORT: { docstring const arg = cmd.argument(); if (arg == "custom") { enable = true; break; } string format = to_utf8(arg); size_t pos = format.find(' '); if (pos != string::npos) format = format.substr(0, pos); enable = params().isExportable(format); if (!enable) flag.message(bformat( _("Don't know how to export to format: %1$s"), arg)); break; } case LFUN_BUFFER_CHKTEX: enable = params().isLatex() && !lyxrc.chktex_command.empty(); break; case LFUN_BUILD_PROGRAM: enable = params().isExportable("program"); break; case LFUN_BRANCH_ACTIVATE: case LFUN_BRANCH_DEACTIVATE: case LFUN_BRANCH_MASTER_ACTIVATE: case LFUN_BRANCH_MASTER_DEACTIVATE: { bool const master = (cmd.action() == LFUN_BRANCH_MASTER_ACTIVATE || cmd.action() == LFUN_BRANCH_MASTER_DEACTIVATE); BranchList const & branchList = master ? masterBuffer()->params().branchlist() : params().branchlist(); docstring const branchName = cmd.argument(); flag.setEnabled(!branchName.empty() && branchList.find(branchName)); break; } case LFUN_BRANCH_ADD: case LFUN_BRANCHES_RENAME: // if no Buffer is present, then of course we won't be called! break; case LFUN_BUFFER_LANGUAGE: enable = !isReadonly(); break; case LFUN_BUFFER_VIEW_CACHE: (d->preview_file_).refresh(); enable = (d->preview_file_).exists() && !(d->preview_file_).isFileEmpty(); break; case LFUN_CHANGES_TRACK: flag.setEnabled(true); flag.setOnOff(params().track_changes); break; case LFUN_CHANGES_OUTPUT: flag.setEnabled(true); flag.setOnOff(params().output_changes); break; case LFUN_BUFFER_TOGGLE_COMPRESSION: { flag.setOnOff(params().compressed); break; } case LFUN_BUFFER_TOGGLE_OUTPUT_SYNC: { flag.setOnOff(params().output_sync); break; } default: return false; } flag.setEnabled(enable); return true; } void Buffer::dispatch(string const & command, DispatchResult & result) { return dispatch(lyxaction.lookupFunc(command), result); } // NOTE We can end up here even if we have no GUI, because we are called // by LyX::exec to handled command-line requests. So we may need to check // whether we have a GUI or not. The boolean use_gui holds this information. void Buffer::dispatch(FuncRequest const & func, DispatchResult & dr) { if (isInternal()) { // FIXME? if there is an Buffer LFUN that can be dispatched even // if internal, put a switch '(cmd.action())' here. dr.dispatched(false); return; } string const argument = to_utf8(func.argument()); // We'll set this back to false if need be. bool dispatched = true; undo().beginUndoGroup(); switch (func.action()) { case LFUN_BUFFER_TOGGLE_READ_ONLY: if (lyxvc().inUse()) { string log = lyxvc().toggleReadOnly(); if (!log.empty()) dr.setMessage(log); } else setReadonly(!isReadonly()); break; case LFUN_BUFFER_EXPORT: { ExportStatus const status = doExport(argument, false); dr.setError(status != ExportSuccess); if (status != ExportSuccess) dr.setMessage(bformat(_("Error exporting to format: %1$s."), func.argument())); break; } case LFUN_BUILD_PROGRAM: { ExportStatus const status = doExport("program", true); dr.setError(status != ExportSuccess); if (status != ExportSuccess) dr.setMessage(_("Error generating literate programming code.")); break; } case LFUN_BUFFER_CHKTEX: runChktex(); break; case LFUN_BUFFER_EXPORT_CUSTOM: { string format_name; string command = split(argument, format_name, ' '); Format const * format = formats.getFormat(format_name); if (!format) { lyxerr << "Format \"" << format_name << "\" not recognized!" << endl; break; } // The name of the file created by the conversion process string filename; // Output to filename if (format->name() == "lyx") { string const latexname = latexName(false); filename = changeExtension(latexname, format->extension()); filename = addName(temppath(), filename); if (!writeFile(FileName(filename))) break; } else { doExport(format_name, true, filename); } // Substitute $$FName for filename if (!contains(command, "$$FName")) command = "( " + command + " ) < $$FName"; command = subst(command, "$$FName", filename); // Execute the command in the background Systemcall call; call.startscript(Systemcall::DontWait, command, filePath(), layoutPos()); break; } // FIXME: There is need for a command-line import. /* case LFUN_BUFFER_IMPORT: doImport(argument); break; */ case LFUN_BUFFER_AUTO_SAVE: autoSave(); resetAutosaveTimers(); break; case LFUN_BRANCH_ACTIVATE: case LFUN_BRANCH_DEACTIVATE: case LFUN_BRANCH_MASTER_ACTIVATE: case LFUN_BRANCH_MASTER_DEACTIVATE: { bool const master = (func.action() == LFUN_BRANCH_MASTER_ACTIVATE || func.action() == LFUN_BRANCH_MASTER_DEACTIVATE); Buffer * buf = master ? const_cast(masterBuffer()) : this; docstring const branch_name = func.argument(); // the case without a branch name is handled elsewhere if (branch_name.empty()) { dispatched = false; break; } Branch * branch = buf->params().branchlist().find(branch_name); if (!branch) { LYXERR0("Branch " << branch_name << " does not exist."); dr.setError(true); docstring const msg = bformat(_("Branch \"%1$s\" does not exist."), branch_name); dr.setMessage(msg); break; } bool const activate = (func.action() == LFUN_BRANCH_ACTIVATE || func.action() == LFUN_BRANCH_MASTER_ACTIVATE); if (branch->isSelected() != activate) { buf->undo().recordUndoBufferParams(CursorData()); branch->setSelected(activate); dr.setError(false); dr.screenUpdate(Update::Force); dr.forceBufferUpdate(); } break; } case LFUN_BRANCH_ADD: { docstring branch_name = func.argument(); if (branch_name.empty()) { dispatched = false; break; } BranchList & branch_list = params().branchlist(); vector const branches = getVectorFromString(branch_name, branch_list.separator()); docstring msg; for (vector::const_iterator it = branches.begin(); it != branches.end(); ++it) { branch_name = *it; Branch * branch = branch_list.find(branch_name); if (branch) { LYXERR0("Branch " << branch_name << " already exists."); dr.setError(true); if (!msg.empty()) msg += ("\n"); msg += bformat(_("Branch \"%1$s\" already exists."), branch_name); } else { undo().recordUndoBufferParams(CursorData()); branch_list.add(branch_name); branch = branch_list.find(branch_name); string const x11hexname = X11hexname(branch->color()); docstring const str = branch_name + ' ' + from_ascii(x11hexname); lyx::dispatch(FuncRequest(LFUN_SET_COLOR, str)); dr.setError(false); dr.screenUpdate(Update::Force); } } if (!msg.empty()) dr.setMessage(msg); break; } case LFUN_BRANCHES_RENAME: { if (func.argument().empty()) break; docstring const oldname = from_utf8(func.getArg(0)); docstring const newname = from_utf8(func.getArg(1)); InsetIterator it = inset_iterator_begin(inset()); InsetIterator const end = inset_iterator_end(inset()); bool success = false; for (; it != end; ++it) { if (it->lyxCode() == BRANCH_CODE) { InsetBranch & ins = static_cast(*it); if (ins.branch() == oldname) { undo().recordUndo(CursorData(it)); ins.rename(newname); success = true; continue; } } if (it->lyxCode() == INCLUDE_CODE) { // get buffer of external file InsetInclude const & ins = static_cast(*it); Buffer * child = ins.getChildBuffer(); if (!child) continue; child->dispatch(func, dr); } } if (success) { dr.screenUpdate(Update::Force); dr.forceBufferUpdate(); } break; } case LFUN_BUFFER_VIEW_CACHE: if (!formats.view(*this, d->preview_file_, d->preview_format_)) dr.setMessage(_("Error viewing the output file.")); break; case LFUN_CHANGES_TRACK: if (params().save_transient_properties) undo().recordUndoBufferParams(CursorData()); params().track_changes = !params().track_changes; if (!params().track_changes) dr.forceChangesUpdate(); break; case LFUN_CHANGES_OUTPUT: if (params().save_transient_properties) undo().recordUndoBufferParams(CursorData()); params().output_changes = !params().output_changes; if (params().output_changes) { bool dvipost = LaTeXFeatures::isAvailable("dvipost"); bool xcolorulem = LaTeXFeatures::isAvailable("ulem") && LaTeXFeatures::isAvailable("xcolor"); if (!dvipost && !xcolorulem) { Alert::warning(_("Changes not shown in LaTeX output"), _("Changes will not be highlighted in LaTeX output, " "because neither dvipost nor xcolor/ulem are installed.\n" "Please install these packages or redefine " "\\lyxadded and \\lyxdeleted in the LaTeX preamble.")); } else if (!xcolorulem) { Alert::warning(_("Changes not shown in LaTeX output"), _("Changes will not be highlighted in LaTeX output " "when using pdflatex, because xcolor and ulem are not installed.\n" "Please install both packages or redefine " "\\lyxadded and \\lyxdeleted in the LaTeX preamble.")); } } break; case LFUN_BUFFER_TOGGLE_COMPRESSION: // turn compression on/off undo().recordUndoBufferParams(CursorData()); params().compressed = !params().compressed; break; case LFUN_BUFFER_TOGGLE_OUTPUT_SYNC: undo().recordUndoBufferParams(CursorData()); params().output_sync = !params().output_sync; break; default: dispatched = false; break; } dr.dispatched(dispatched); undo().endUndoGroup(); } void Buffer::changeLanguage(Language const * from, Language const * to) { LASSERT(from, return); LASSERT(to, return); for_each(par_iterator_begin(), par_iterator_end(), bind(&Paragraph::changeLanguage, _1, params(), from, to)); } bool Buffer::isMultiLingual() const { ParConstIterator end = par_iterator_end(); for (ParConstIterator it = par_iterator_begin(); it != end; ++it) if (it->isMultiLingual(params())) return true; return false; } std::set Buffer::getLanguages() const { std::set languages; getLanguages(languages); return languages; } void Buffer::getLanguages(std::set & languages) const { ParConstIterator end = par_iterator_end(); // add the buffer language, even if it's not actively used languages.insert(language()); // iterate over the paragraphs for (ParConstIterator it = par_iterator_begin(); it != end; ++it) it->getLanguages(languages); // also children ListOfBuffers clist = getDescendents(); ListOfBuffers::const_iterator cit = clist.begin(); ListOfBuffers::const_iterator const cen = clist.end(); for (; cit != cen; ++cit) (*cit)->getLanguages(languages); } DocIterator Buffer::getParFromID(int const id) const { Buffer * buf = const_cast(this); if (id < 0) // This means non-existent return doc_iterator_end(buf); for (DocIterator it = doc_iterator_begin(buf); !it.atEnd(); it.forwardPar()) if (it.paragraph().id() == id) return it; return doc_iterator_end(buf); } bool Buffer::hasParWithID(int const id) const { return !getParFromID(id).atEnd(); } ParIterator Buffer::par_iterator_begin() { return ParIterator(doc_iterator_begin(this)); } ParIterator Buffer::par_iterator_end() { return ParIterator(doc_iterator_end(this)); } ParConstIterator Buffer::par_iterator_begin() const { return ParConstIterator(doc_iterator_begin(this)); } ParConstIterator Buffer::par_iterator_end() const { return ParConstIterator(doc_iterator_end(this)); } Language const * Buffer::language() const { return params().language; } docstring const Buffer::B_(string const & l10n) const { return params().B_(l10n); } bool Buffer::isClean() const { return d->lyx_clean; } bool Buffer::isExternallyModified(CheckMethod method) const { LASSERT(d->filename.exists(), return false); // if method == timestamp, check timestamp before checksum return (method == checksum_method || d->timestamp_ != d->filename.lastModified()) && d->checksum_ != d->filename.checksum(); } void Buffer::saveCheckSum() const { FileName const & file = d->filename; file.refresh(); if (file.exists()) { d->timestamp_ = file.lastModified(); d->checksum_ = file.checksum(); } else { // in the case of save to a new file. d->timestamp_ = 0; d->checksum_ = 0; } } void Buffer::markClean() const { if (!d->lyx_clean) { d->lyx_clean = true; updateTitles(); } // if the .lyx file has been saved, we don't need an // autosave d->bak_clean = true; d->undo_.markDirty(); } void Buffer::setUnnamed(bool flag) { d->unnamed = flag; } bool Buffer::isUnnamed() const { return d->unnamed; } /// \note /// Don't check unnamed, here: isInternal() is used in /// newBuffer(), where the unnamed flag has not been set by anyone /// yet. Also, for an internal buffer, there should be no need for /// retrieving fileName() nor for checking if it is unnamed or not. bool Buffer::isInternal() const { return d->internal_buffer; } void Buffer::setInternal(bool flag) { d->internal_buffer = flag; } void Buffer::markDirty() { if (d->lyx_clean) { d->lyx_clean = false; updateTitles(); } d->bak_clean = false; DepClean::iterator it = d->dep_clean.begin(); DepClean::const_iterator const end = d->dep_clean.end(); for (; it != end; ++it) it->second = false; } FileName Buffer::fileName() const { return d->filename; } string Buffer::absFileName() const { return d->filename.absFileName(); } string Buffer::filePath() const { string const abs = d->filename.onlyPath().absFileName(); if (abs.empty()) return abs; int last = abs.length() - 1; return abs[last] == '/' ? abs : abs + '/'; } DocFileName Buffer::getReferencedFileName(string const & fn) const { DocFileName result; if (FileName::isAbsolute(fn) || !FileName::isAbsolute(params().origin)) result.set(fn, filePath()); else { // filePath() ends with a path separator FileName const test(filePath() + fn); if (test.exists()) result.set(fn, filePath()); else result.set(fn, params().origin); } return result; } string Buffer::layoutPos() const { return d->layout_position; } void Buffer::setLayoutPos(string const & path) { if (path.empty()) { d->layout_position.clear(); return; } LATTEST(FileName::isAbsolute(path)); d->layout_position = to_utf8(makeRelPath(from_utf8(path), from_utf8(filePath()))); if (d->layout_position.empty()) d->layout_position = "."; } bool Buffer::isReadonly() const { return d->read_only; } void Buffer::setParent(Buffer const * buffer) { // Avoids recursive include. d->setParent(buffer == this ? 0 : buffer); updateMacros(); } Buffer const * Buffer::parent() const { return d->parent(); } ListOfBuffers Buffer::allRelatives() const { ListOfBuffers lb = masterBuffer()->getDescendents(); lb.push_front(const_cast(masterBuffer())); return lb; } Buffer const * Buffer::masterBuffer() const { // FIXME Should be make sure we are not in some kind // of recursive include? A -> B -> A will crash this. Buffer const * const pbuf = d->parent(); if (!pbuf) return this; return pbuf->masterBuffer(); } bool Buffer::isChild(Buffer * child) const { return d->children_positions.find(child) != d->children_positions.end(); } DocIterator Buffer::firstChildPosition(Buffer const * child) { Impl::BufferPositionMap::iterator it; it = d->children_positions.find(child); if (it == d->children_positions.end()) return DocIterator(this); return it->second; } bool Buffer::hasChildren() const { return !d->children_positions.empty(); } void Buffer::collectChildren(ListOfBuffers & clist, bool grand_children) const { // loop over children Impl::BufferPositionMap::iterator it = d->children_positions.begin(); Impl::BufferPositionMap::iterator end = d->children_positions.end(); for (; it != end; ++it) { Buffer * child = const_cast(it->first); // No duplicates ListOfBuffers::const_iterator bit = find(clist.begin(), clist.end(), child); if (bit != clist.end()) continue; clist.push_back(child); if (grand_children) // there might be grandchildren child->collectChildren(clist, true); } } ListOfBuffers Buffer::getChildren() const { ListOfBuffers v; collectChildren(v, false); // Make sure we have not included ourselves. ListOfBuffers::iterator bit = find(v.begin(), v.end(), this); if (bit != v.end()) { LYXERR0("Recursive include detected in `" << fileName() << "'."); v.erase(bit); } return v; } ListOfBuffers Buffer::getDescendents() const { ListOfBuffers v; collectChildren(v, true); // Make sure we have not included ourselves. ListOfBuffers::iterator bit = find(v.begin(), v.end(), this); if (bit != v.end()) { LYXERR0("Recursive include detected in `" << fileName() << "'."); v.erase(bit); } return v; } template typename M::const_iterator greatest_below(M & m, typename M::key_type const & x) { if (m.empty()) return m.end(); typename M::const_iterator it = m.lower_bound(x); if (it == m.begin()) return m.end(); it--; return it; } MacroData const * Buffer::Impl::getBufferMacro(docstring const & name, DocIterator const & pos) const { LYXERR(Debug::MACROS, "Searching for " << to_ascii(name) << " at " << pos); // if paragraphs have no macro context set, pos will be empty if (pos.empty()) return 0; // we haven't found anything yet DocIterator bestPos = owner_->par_iterator_begin(); MacroData const * bestData = 0; // find macro definitions for name NamePositionScopeMacroMap::const_iterator nameIt = macros.find(name); if (nameIt != macros.end()) { // find last definition in front of pos or at pos itself PositionScopeMacroMap::const_iterator it = greatest_below(nameIt->second, pos); if (it != nameIt->second.end()) { while (true) { // scope ends behind pos? if (pos < it->second.scope) { // Looks good, remember this. If there // is no external macro behind this, // we found the right one already. bestPos = it->first; bestData = &it->second.macro; break; } // try previous macro if there is one if (it == nameIt->second.begin()) break; --it; } } } // find macros in included files PositionScopeBufferMap::const_iterator it = greatest_below(position_to_children, pos); if (it == position_to_children.end()) // no children before return bestData; while (true) { // do we know something better (i.e. later) already? if (it->first < bestPos ) break; // scope ends behind pos? if (pos < it->second.scope && (cloned_buffer_ || theBufferList().isLoaded(it->second.buffer))) { // look for macro in external file macro_lock = true; MacroData const * data = it->second.buffer->getMacro(name, false); macro_lock = false; if (data) { bestPos = it->first; bestData = data; break; } } // try previous file if there is one if (it == position_to_children.begin()) break; --it; } // return the best macro we have found return bestData; } MacroData const * Buffer::getMacro(docstring const & name, DocIterator const & pos, bool global) const { if (d->macro_lock) return 0; // query buffer macros MacroData const * data = d->getBufferMacro(name, pos); if (data != 0) return data; // If there is a master buffer, query that Buffer const * const pbuf = d->parent(); if (pbuf) { d->macro_lock = true; MacroData const * macro = pbuf->getMacro( name, *this, false); d->macro_lock = false; if (macro) return macro; } if (global) { data = MacroTable::globalMacros().get(name); if (data != 0) return data; } return 0; } MacroData const * Buffer::getMacro(docstring const & name, bool global) const { // set scope end behind the last paragraph DocIterator scope = par_iterator_begin(); scope.pit() = scope.lastpit() + 1; return getMacro(name, scope, global); } MacroData const * Buffer::getMacro(docstring const & name, Buffer const & child, bool global) const { // look where the child buffer is included first Impl::BufferPositionMap::iterator it = d->children_positions.find(&child); if (it == d->children_positions.end()) return 0; // check for macros at the inclusion position return getMacro(name, it->second, global); } void Buffer::Impl::updateMacros(DocIterator & it, DocIterator & scope) { pit_type const lastpit = it.lastpit(); // look for macros in each paragraph while (it.pit() <= lastpit) { Paragraph & par = it.paragraph(); // iterate over the insets of the current paragraph InsetList const & insets = par.insetList(); InsetList::const_iterator iit = insets.begin(); InsetList::const_iterator end = insets.end(); for (; iit != end; ++iit) { it.pos() = iit->pos; // is it a nested text inset? if (iit->inset->asInsetText()) { // Inset needs its own scope? InsetText const * itext = iit->inset->asInsetText(); bool newScope = itext->isMacroScope(); // scope which ends just behind the inset DocIterator insetScope = it; ++insetScope.pos(); // collect macros in inset it.push_back(CursorSlice(*iit->inset)); updateMacros(it, newScope ? insetScope : scope); it.pop_back(); continue; } if (iit->inset->asInsetTabular()) { CursorSlice slice(*iit->inset); size_t const numcells = slice.nargs(); for (; slice.idx() < numcells; slice.forwardIdx()) { it.push_back(slice); updateMacros(it, scope); it.pop_back(); } continue; } // is it an external file? if (iit->inset->lyxCode() == INCLUDE_CODE) { // get buffer of external file InsetInclude const & inset = static_cast(*iit->inset); macro_lock = true; Buffer * child = inset.getChildBuffer(); macro_lock = false; if (!child) continue; // register its position, but only when it is // included first in the buffer if (children_positions.find(child) == children_positions.end()) children_positions[child] = it; // register child with its scope position_to_children[it] = Impl::ScopeBuffer(scope, child); continue; } InsetMath * im = iit->inset->asInsetMath(); if (doing_export && im) { InsetMathHull * hull = im->asHullInset(); if (hull) hull->recordLocation(it); } if (iit->inset->lyxCode() != MATHMACRO_CODE) continue; // get macro data MathMacroTemplate & macroTemplate = *iit->inset->asInsetMath()->asMacroTemplate(); MacroContext mc(owner_, it); macroTemplate.updateToContext(mc); // valid? bool valid = macroTemplate.validMacro(); // FIXME: Should be fixNameAndCheckIfValid() in fact, // then the BufferView's cursor will be invalid in // some cases which leads to crashes. if (!valid) continue; // register macro // FIXME (Abdel), I don't understand why we pass 'it' here // instead of 'macroTemplate' defined above... is this correct? macros[macroTemplate.name()][it] = Impl::ScopeMacro(scope, MacroData(const_cast(owner_), it)); } // next paragraph it.pit()++; it.pos() = 0; } } void Buffer::updateMacros() const { if (d->macro_lock) return; LYXERR(Debug::MACROS, "updateMacro of " << d->filename.onlyFileName()); // start with empty table d->macros.clear(); d->children_positions.clear(); d->position_to_children.clear(); // Iterate over buffer, starting with first paragraph // The scope must be bigger than any lookup DocIterator // later. For the global lookup, lastpit+1 is used, hence // we use lastpit+2 here. DocIterator it = par_iterator_begin(); DocIterator outerScope = it; outerScope.pit() = outerScope.lastpit() + 2; d->updateMacros(it, outerScope); } void Buffer::getUsedBranches(std::list & result, bool const from_master) const { InsetIterator it = inset_iterator_begin(inset()); InsetIterator const end = inset_iterator_end(inset()); for (; it != end; ++it) { if (it->lyxCode() == BRANCH_CODE) { InsetBranch & br = static_cast(*it); docstring const name = br.branch(); if (!from_master && !params().branchlist().find(name)) result.push_back(name); else if (from_master && !masterBuffer()->params().branchlist().find(name)) result.push_back(name); continue; } if (it->lyxCode() == INCLUDE_CODE) { // get buffer of external file InsetInclude const & ins = static_cast(*it); Buffer * child = ins.getChildBuffer(); if (!child) continue; child->getUsedBranches(result, true); } } // remove duplicates result.unique(); } void Buffer::updateMacroInstances(UpdateType utype) const { LYXERR(Debug::MACROS, "updateMacroInstances for " << d->filename.onlyFileName()); DocIterator it = doc_iterator_begin(this); it.forwardInset(); DocIterator const end = doc_iterator_end(this); for (; it != end; it.forwardInset()) { // look for MathData cells in InsetMathNest insets InsetMath * minset = it.nextInset()->asInsetMath(); if (!minset) continue; // update macro in all cells of the InsetMathNest DocIterator::idx_type n = minset->nargs(); MacroContext mc = MacroContext(this, it); for (DocIterator::idx_type i = 0; i < n; ++i) { MathData & data = minset->cell(i); data.updateMacros(0, mc, utype); } } } void Buffer::listMacroNames(MacroNameSet & macros) const { if (d->macro_lock) return; d->macro_lock = true; // loop over macro names Impl::NamePositionScopeMacroMap::iterator nameIt = d->macros.begin(); Impl::NamePositionScopeMacroMap::iterator nameEnd = d->macros.end(); for (; nameIt != nameEnd; ++nameIt) macros.insert(nameIt->first); // loop over children Impl::BufferPositionMap::iterator it = d->children_positions.begin(); Impl::BufferPositionMap::iterator end = d->children_positions.end(); for (; it != end; ++it) it->first->listMacroNames(macros); // call parent Buffer const * const pbuf = d->parent(); if (pbuf) pbuf->listMacroNames(macros); d->macro_lock = false; } void Buffer::listParentMacros(MacroSet & macros, LaTeXFeatures & features) const { Buffer const * const pbuf = d->parent(); if (!pbuf) return; MacroNameSet names; pbuf->listMacroNames(names); // resolve macros MacroNameSet::iterator it = names.begin(); MacroNameSet::iterator end = names.end(); for (; it != end; ++it) { // defined? MacroData const * data = pbuf->getMacro(*it, *this, false); if (data) { macros.insert(data); // we cannot access the original MathMacroTemplate anymore // here to calls validate method. So we do its work here manually. // FIXME: somehow make the template accessible here. if (data->optionals() > 0) features.require("xargs"); } } } Buffer::References & Buffer::getReferenceCache(docstring const & label) { if (d->parent()) return const_cast(masterBuffer())->getReferenceCache(label); RefCache::iterator it = d->ref_cache_.find(label); if (it != d->ref_cache_.end()) return it->second.second; static InsetLabel const * dummy_il = 0; static References const dummy_refs = References(); it = d->ref_cache_.insert( make_pair(label, make_pair(dummy_il, dummy_refs))).first; return it->second.second; } Buffer::References const & Buffer::references(docstring const & label) const { return const_cast(this)->getReferenceCache(label); } void Buffer::addReference(docstring const & label, Inset * inset, ParIterator it) { References & refs = getReferenceCache(label); refs.push_back(make_pair(inset, it)); } void Buffer::setInsetLabel(docstring const & label, InsetLabel const * il) { masterBuffer()->d->ref_cache_[label].first = il; } InsetLabel const * Buffer::insetLabel(docstring const & label) const { return masterBuffer()->d->ref_cache_[label].first; } void Buffer::clearReferenceCache() const { if (!d->parent()) d->ref_cache_.clear(); } void Buffer::changeRefsIfUnique(docstring const & from, docstring const & to) { //FIXME: This does not work for child documents yet. reloadBibInfoCache(); // Check if the label 'from' appears more than once BiblioInfo const & keys = masterBibInfo(); BiblioInfo::const_iterator bit = keys.begin(); BiblioInfo::const_iterator bend = keys.end(); vector labels; for (; bit != bend; ++bit) // FIXME UNICODE labels.push_back(bit->first); if (count(labels.begin(), labels.end(), from) > 1) return; string const paramName = "key"; for (InsetIterator it = inset_iterator_begin(inset()); it; ++it) { if (it->lyxCode() != CITE_CODE) continue; InsetCommand * inset = it->asInsetCommand(); docstring const oldValue = inset->getParam(paramName); if (oldValue == from) inset->setParam(paramName, to); } } // returns NULL if id-to-row conversion is unsupported unique_ptr Buffer::getSourceCode(odocstream & os, string const & format, pit_type par_begin, pit_type par_end, OutputWhat output, bool master) const { unique_ptr texrow; OutputParams runparams(¶ms().encoding()); runparams.nice = true; runparams.flavor = params().getOutputFlavor(format); runparams.linelen = lyxrc.plaintext_linelen; // No side effect of file copying and image conversion runparams.dryrun = true; if (output == CurrentParagraph) { runparams.par_begin = par_begin; runparams.par_end = par_end; if (par_begin + 1 == par_end) { os << "% " << bformat(_("Preview source code for paragraph %1$d"), par_begin) << "\n\n"; } else { os << "% " << bformat(_("Preview source code from paragraph %1$s to %2$s"), convert(par_begin), convert(par_end - 1)) << "\n\n"; } // output paragraphs if (runparams.flavor == OutputParams::LYX) { Paragraph const & par = text().paragraphs()[par_begin]; ostringstream ods; depth_type dt = par.getDepth(); par.write(ods, params(), dt); os << from_utf8(ods.str()); } else if (runparams.flavor == OutputParams::HTML) { XHTMLStream xs(os); setMathFlavor(runparams); xhtmlParagraphs(text(), *this, xs, runparams); } else if (runparams.flavor == OutputParams::TEXT) { bool dummy = false; // FIXME Handles only one paragraph, unlike the others. // Probably should have some routine with a signature like them. writePlaintextParagraph(*this, text().paragraphs()[par_begin], os, runparams, dummy); } else if (params().isDocBook()) { docbookParagraphs(text(), *this, os, runparams); } else { // If we are previewing a paragraph, even if this is the // child of some other buffer, let's cut the link here, // so that no concurring settings from the master // (e.g. branch state) interfere (see #8101). if (!master) d->ignore_parent = true; // We need to validate the Buffer params' features here // in order to know if we should output polyglossia // macros (instead of babel macros) LaTeXFeatures features(*this, params(), runparams); params().validate(features); runparams.use_polyglossia = features.usePolyglossia(); // latex or literate otexstream ots(os); // output above ots.texrow().newlines(2); // the real stuff latexParagraphs(*this, text(), ots, runparams); texrow = ots.releaseTexRow(); // Restore the parenthood if (!master) d->ignore_parent = false; } } else { os << "% "; if (output == FullSource) os << _("Preview source code"); else if (output == OnlyPreamble) os << _("Preview preamble"); else if (output == OnlyBody) os << _("Preview body"); os << "\n\n"; if (runparams.flavor == OutputParams::LYX) { ostringstream ods; if (output == FullSource) write(ods); else if (output == OnlyPreamble) params().writeFile(ods, this); else if (output == OnlyBody) text().write(ods); os << from_utf8(ods.str()); } else if (runparams.flavor == OutputParams::HTML) { writeLyXHTMLSource(os, runparams, output); } else if (runparams.flavor == OutputParams::TEXT) { if (output == OnlyPreamble) { os << "% "<< _("Plain text does not have a preamble."); } else writePlaintextFile(*this, os, runparams); } else if (params().isDocBook()) { writeDocBookSource(os, absFileName(), runparams, output); } else { // latex or literate otexstream ots(os); // output above ots.texrow().newlines(2); if (master) runparams.is_child = true; writeLaTeXSource(ots, string(), runparams, output); texrow = ots.releaseTexRow(); } } return texrow; } ErrorList & Buffer::errorList(string const & type) const { return d->errorLists[type]; } void Buffer::updateTocItem(std::string const & type, DocIterator const & dit) const { if (d->gui_) d->gui_->updateTocItem(type, dit); } void Buffer::structureChanged() const { if (d->gui_) d->gui_->structureChanged(); } void Buffer::errors(string const & err, bool from_master) const { if (d->gui_) d->gui_->errors(err, from_master); } void Buffer::message(docstring const & msg) const { if (d->gui_) d->gui_->message(msg); } void Buffer::setBusy(bool on) const { if (d->gui_) d->gui_->setBusy(on); } void Buffer::updateTitles() const { if (d->wa_) d->wa_->updateTitles(); } void Buffer::resetAutosaveTimers() const { if (d->gui_) d->gui_->resetAutosaveTimers(); } bool Buffer::hasGuiDelegate() const { return d->gui_; } void Buffer::setGuiDelegate(frontend::GuiBufferDelegate * gui) { d->gui_ = gui; } namespace { class AutoSaveBuffer : public ForkedProcess { public: /// AutoSaveBuffer(Buffer const & buffer, FileName const & fname) : buffer_(buffer), fname_(fname) {} /// virtual shared_ptr clone() const { return make_shared(*this); } /// int start() { command_ = to_utf8(bformat(_("Auto-saving %1$s"), from_utf8(fname_.absFileName()))); return run(DontWait); } private: /// virtual int generateChild(); /// Buffer const & buffer_; FileName fname_; }; int AutoSaveBuffer::generateChild() { #if defined(__APPLE__) /* FIXME fork() is not usable for autosave on Mac OS X 10.6 (snow leopard) * We should use something else like threads. * * Since I do not know how to determine at run time what is the OS X * version, I just disable forking altogether for now (JMarc) */ pid_t const pid = -1; #else // tmp_ret will be located (usually) in /tmp // will that be a problem? // Note that this calls ForkedCalls::fork(), so it's // ok cross-platform. pid_t const pid = fork(); // If you want to debug the autosave // you should set pid to -1, and comment out the fork. if (pid != 0 && pid != -1) return pid; #endif // pid = -1 signifies that lyx was unable // to fork. But we will do the save // anyway. bool failed = false; TempFile tempfile("lyxautoXXXXXX.lyx"); tempfile.setAutoRemove(false); FileName const tmp_ret = tempfile.name(); if (!tmp_ret.empty()) { if (!buffer_.writeFile(tmp_ret)) failed = true; else if (!tmp_ret.moveTo(fname_)) failed = true; } else failed = true; if (failed) { // failed to write/rename tmp_ret so try writing direct if (!buffer_.writeFile(fname_)) { // It is dangerous to do this in the child, // but safe in the parent, so... if (pid == -1) // emit message signal. buffer_.message(_("Autosave failed!")); } } if (pid == 0) // we are the child so... _exit(0); return pid; } } // namespace anon FileName Buffer::getEmergencyFileName() const { return FileName(d->filename.absFileName() + ".emergency"); } FileName Buffer::getAutosaveFileName() const { // if the document is unnamed try to save in the backup dir, else // in the default document path, and as a last try in the filePath, // which will most often be the temporary directory string fpath; if (isUnnamed()) fpath = lyxrc.backupdir_path.empty() ? lyxrc.document_path : lyxrc.backupdir_path; if (!isUnnamed() || fpath.empty() || !FileName(fpath).exists()) fpath = filePath(); string const fname = "#" + d->filename.onlyFileName() + "#"; return makeAbsPath(fname, fpath); } void Buffer::removeAutosaveFile() const { FileName const f = getAutosaveFileName(); if (f.exists()) f.removeFile(); } void Buffer::moveAutosaveFile(support::FileName const & oldauto) const { FileName const newauto = getAutosaveFileName(); oldauto.refresh(); if (newauto != oldauto && oldauto.exists()) if (!oldauto.moveTo(newauto)) LYXERR0("Unable to move autosave file `" << oldauto << "'!"); } bool Buffer::autoSave() const { Buffer const * buf = d->cloned_buffer_ ? d->cloned_buffer_ : this; if (buf->d->bak_clean || isReadonly()) return true; message(_("Autosaving current document...")); buf->d->bak_clean = true; FileName const fname = getAutosaveFileName(); LASSERT(d->cloned_buffer_, return false); // If this buffer is cloned, we assume that // we are running in a separate thread already. TempFile tempfile("lyxautoXXXXXX.lyx"); tempfile.setAutoRemove(false); FileName const tmp_ret = tempfile.name(); if (!tmp_ret.empty()) { writeFile(tmp_ret); // assume successful write of tmp_ret if (tmp_ret.moveTo(fname)) return true; } // failed to write/rename tmp_ret so try writing direct return writeFile(fname); } void Buffer::setExportStatus(bool e) const { d->doing_export = e; ListOfBuffers clist = getDescendents(); ListOfBuffers::const_iterator cit = clist.begin(); ListOfBuffers::const_iterator const cen = clist.end(); for (; cit != cen; ++cit) (*cit)->d->doing_export = e; } bool Buffer::isExporting() const { return d->doing_export; } Buffer::ExportStatus Buffer::doExport(string const & target, bool put_in_tempdir) const { string result_file; return doExport(target, put_in_tempdir, result_file); } Buffer::ExportStatus Buffer::doExport(string const & target, bool put_in_tempdir, string & result_file) const { bool const update_unincluded = params().maintain_unincluded_children && !params().getIncludedChildren().empty(); // (1) export with all included children (omit \includeonly) if (update_unincluded) { ExportStatus const status = doExport(target, put_in_tempdir, true, result_file); if (status != ExportSuccess) return status; } // (2) export with included children only return doExport(target, put_in_tempdir, false, result_file); } void Buffer::setMathFlavor(OutputParams & op) const { switch (params().html_math_output) { case BufferParams::MathML: op.math_flavor = OutputParams::MathAsMathML; break; case BufferParams::HTML: op.math_flavor = OutputParams::MathAsHTML; break; case BufferParams::Images: op.math_flavor = OutputParams::MathAsImages; break; case BufferParams::LaTeX: op.math_flavor = OutputParams::MathAsLaTeX; break; } } Buffer::ExportStatus Buffer::doExport(string const & target, bool put_in_tempdir, bool includeall, string & result_file) const { LYXERR(Debug::FILES, "target=" << target); OutputParams runparams(¶ms().encoding()); string format = target; string dest_filename; size_t pos = target.find(' '); if (pos != string::npos) { dest_filename = target.substr(pos + 1, target.length() - pos - 1); format = target.substr(0, pos); runparams.export_folder = FileName(dest_filename).onlyPath().realPath(); FileName(dest_filename).onlyPath().createPath(); LYXERR(Debug::FILES, "format=" << format << ", dest_filename=" << dest_filename << ", export_folder=" << runparams.export_folder); } MarkAsExporting exporting(this); string backend_format; runparams.flavor = OutputParams::LATEX; runparams.linelen = lyxrc.plaintext_linelen; runparams.includeall = includeall; vector backs = params().backends(); Converters converters = theConverters(); bool need_nice_file = false; if (find(backs.begin(), backs.end(), format) == backs.end()) { // Get shortest path to format converters.buildGraph(); Graph::EdgePath path; for (vector::const_iterator it = backs.begin(); it != backs.end(); ++it) { Graph::EdgePath p = converters.getPath(*it, format); if (!p.empty() && (path.empty() || p.size() < path.size())) { backend_format = *it; path = p; } } if (path.empty()) { if (!put_in_tempdir) { // Only show this alert if this is an export to a non-temporary // file (not for previewing). Alert::error(_("Couldn't export file"), bformat( _("No information for exporting the format %1$s."), formats.prettyName(format))); } return ExportNoPathToFormat; } runparams.flavor = converters.getFlavor(path, this); Graph::EdgePath::const_iterator it = path.begin(); Graph::EdgePath::const_iterator en = path.end(); for (; it != en; ++it) if (theConverters().get(*it).nice()) { need_nice_file = true; break; } } else { backend_format = format; LYXERR(Debug::FILES, "backend_format=" << backend_format); // FIXME: Don't hardcode format names here, but use a flag if (backend_format == "pdflatex") runparams.flavor = OutputParams::PDFLATEX; else if (backend_format == "luatex") runparams.flavor = OutputParams::LUATEX; else if (backend_format == "dviluatex") runparams.flavor = OutputParams::DVILUATEX; else if (backend_format == "xetex") runparams.flavor = OutputParams::XETEX; } string filename = latexName(false); filename = addName(temppath(), filename); filename = changeExtension(filename, formats.extension(backend_format)); LYXERR(Debug::FILES, "filename=" << filename); // Plain text backend if (backend_format == "text") { runparams.flavor = OutputParams::TEXT; writePlaintextFile(*this, FileName(filename), runparams); } // HTML backend else if (backend_format == "xhtml") { runparams.flavor = OutputParams::HTML; setMathFlavor(runparams); makeLyXHTMLFile(FileName(filename), runparams); } else if (backend_format == "lyx") writeFile(FileName(filename)); // Docbook backend else if (params().isDocBook()) { runparams.nice = !put_in_tempdir; makeDocBookFile(FileName(filename), runparams); } // LaTeX backend else if (backend_format == format || need_nice_file) { runparams.nice = true; bool const success = makeLaTeXFile(FileName(filename), string(), runparams); if (d->cloned_buffer_) d->cloned_buffer_->d->errorLists["Export"] = d->errorLists["Export"]; if (!success) return ExportError; } else if (!lyxrc.tex_allows_spaces && contains(filePath(), ' ')) { Alert::error(_("File name error"), _("The directory path to the document cannot contain spaces.")); return ExportTexPathHasSpaces; } else { runparams.nice = false; bool const success = makeLaTeXFile( FileName(filename), filePath(), runparams); if (d->cloned_buffer_) d->cloned_buffer_->d->errorLists["Export"] = d->errorLists["Export"]; if (!success) return ExportError; } string const error_type = (format == "program") ? "Build" : params().bufferFormat(); ErrorList & error_list = d->errorLists[error_type]; string const ext = formats.extension(format); FileName const tmp_result_file(changeExtension(filename, ext)); bool const success = converters.convert(this, FileName(filename), tmp_result_file, FileName(absFileName()), backend_format, format, error_list); // Emit the signal to show the error list or copy it back to the // cloned Buffer so that it can be emitted afterwards. if (format != backend_format) { if (runparams.silent) error_list.clear(); else if (d->cloned_buffer_) d->cloned_buffer_->d->errorLists[error_type] = d->errorLists[error_type]; else errors(error_type); // also to the children, in case of master-buffer-view ListOfBuffers clist = getDescendents(); ListOfBuffers::const_iterator cit = clist.begin(); ListOfBuffers::const_iterator const cen = clist.end(); for (; cit != cen; ++cit) { if (runparams.silent) (*cit)->d->errorLists[error_type].clear(); else if (d->cloned_buffer_) { // Enable reverse search by copying back the // texrow object to the cloned buffer. // FIXME: this is not thread safe. (*cit)->d->cloned_buffer_->d->texrow = (*cit)->d->texrow; (*cit)->d->cloned_buffer_->d->errorLists[error_type] = (*cit)->d->errorLists[error_type]; } else (*cit)->errors(error_type, true); } } if (d->cloned_buffer_) { // Enable reverse dvi or pdf to work by copying back the texrow // object to the cloned buffer. // FIXME: There is a possibility of concurrent access to texrow // here from the main GUI thread that should be securized. d->cloned_buffer_->d->texrow = d->texrow; string const error_type = params().bufferFormat(); d->cloned_buffer_->d->errorLists[error_type] = d->errorLists[error_type]; } if (put_in_tempdir) { result_file = tmp_result_file.absFileName(); return success ? ExportSuccess : ExportConverterError; } if (dest_filename.empty()) result_file = changeExtension(d->exportFileName().absFileName(), ext); else result_file = dest_filename; // We need to copy referenced files (e. g. included graphics // if format == "dvi") to the result dir. vector const files = runparams.exportdata->externalFiles(format); string const dest = runparams.export_folder.empty() ? onlyPath(result_file) : runparams.export_folder; bool use_force = use_gui ? lyxrc.export_overwrite == ALL_FILES : force_overwrite == ALL_FILES; CopyStatus status = use_force ? FORCE : SUCCESS; vector::const_iterator it = files.begin(); vector::const_iterator const en = files.end(); for (; it != en && status != CANCEL; ++it) { string const fmt = formats.getFormatFromFile(it->sourceName); string fixedName = it->exportName; if (!runparams.export_folder.empty()) { // Relative pathnames starting with ../ will be sanitized // if exporting to a different folder while (fixedName.substr(0, 3) == "../") fixedName = fixedName.substr(3, fixedName.length() - 3); } FileName fixedFileName = makeAbsPath(fixedName, dest); fixedFileName.onlyPath().createPath(); status = copyFile(fmt, it->sourceName, fixedFileName, it->exportName, status == FORCE, runparams.export_folder.empty()); } if (status == CANCEL) { message(_("Document export cancelled.")); return ExportCancel; } if (tmp_result_file.exists()) { // Finally copy the main file use_force = use_gui ? lyxrc.export_overwrite != NO_FILES : force_overwrite != NO_FILES; if (status == SUCCESS && use_force) status = FORCE; status = copyFile(format, tmp_result_file, FileName(result_file), result_file, status == FORCE); if (status == CANCEL) { message(_("Document export cancelled.")); return ExportCancel; } else { message(bformat(_("Document exported as %1$s " "to file `%2$s'"), formats.prettyName(format), makeDisplayPath(result_file))); } } else { // This must be a dummy converter like fax (bug 1888) message(bformat(_("Document exported as %1$s"), formats.prettyName(format))); } return success ? ExportSuccess : ExportConverterError; } Buffer::ExportStatus Buffer::preview(string const & format) const { bool const update_unincluded = params().maintain_unincluded_children && !params().getIncludedChildren().empty(); return preview(format, update_unincluded); } Buffer::ExportStatus Buffer::preview(string const & format, bool includeall) const { MarkAsExporting exporting(this); string result_file; // (1) export with all included children (omit \includeonly) if (includeall) { ExportStatus const status = doExport(format, true, true, result_file); if (status != ExportSuccess) return status; } // (2) export with included children only ExportStatus const status = doExport(format, true, false, result_file); FileName const previewFile(result_file); Impl * theimpl = isClone() ? d->cloned_buffer_->d : d; theimpl->preview_file_ = previewFile; theimpl->preview_format_ = format; theimpl->preview_error_ = (status != ExportSuccess); if (status != ExportSuccess) return status; if (previewFile.exists()) return formats.view(*this, previewFile, format) ? PreviewSuccess : PreviewError; // Successful export but no output file? // Probably a bug in error detection. LATTEST(status != ExportSuccess); return status; } Buffer::ReadStatus Buffer::extractFromVC() { bool const found = LyXVC::file_not_found_hook(d->filename); if (!found) return ReadFileNotFound; if (!d->filename.isReadableFile()) return ReadVCError; return ReadSuccess; } Buffer::ReadStatus Buffer::loadEmergency() { FileName const emergencyFile = getEmergencyFileName(); if (!emergencyFile.exists() || emergencyFile.lastModified() <= d->filename.lastModified()) return ReadFileNotFound; docstring const file = makeDisplayPath(d->filename.absFileName(), 20); docstring const text = bformat(_("An emergency save of the document " "%1$s exists.\n\nRecover emergency save?"), file); int const load_emerg = Alert::prompt(_("Load emergency save?"), text, 0, 2, _("&Recover"), _("&Load Original"), _("&Cancel")); switch (load_emerg) { case 0: { docstring str; ReadStatus const ret_llf = loadThisLyXFile(emergencyFile); bool const success = (ret_llf == ReadSuccess); if (success) { if (isReadonly()) { Alert::warning(_("File is read-only"), bformat(_("An emergency file is successfully loaded, " "but the original file %1$s is marked read-only. " "Please make sure to save the document as a different " "file."), from_utf8(d->filename.absFileName()))); } markDirty(); lyxvc().file_found_hook(d->filename); str = _("Document was successfully recovered."); } else str = _("Document was NOT successfully recovered."); str += "\n\n" + bformat(_("Remove emergency file now?\n(%1$s)"), makeDisplayPath(emergencyFile.absFileName())); int const del_emerg = Alert::prompt(_("Delete emergency file?"), str, 1, 1, _("&Remove"), _("&Keep")); if (del_emerg == 0) { emergencyFile.removeFile(); if (success) Alert::warning(_("Emergency file deleted"), _("Do not forget to save your file now!"), true); } return success ? ReadSuccess : ReadEmergencyFailure; } case 1: { int const del_emerg = Alert::prompt(_("Delete emergency file?"), _("Remove emergency file now?"), 1, 1, _("&Remove"), _("&Keep")); if (del_emerg == 0) emergencyFile.removeFile(); return ReadOriginal; } default: break; } return ReadCancel; } Buffer::ReadStatus Buffer::loadAutosave() { // Now check if autosave file is newer. FileName const autosaveFile = getAutosaveFileName(); if (!autosaveFile.exists() || autosaveFile.lastModified() <= d->filename.lastModified()) return ReadFileNotFound; docstring const file = makeDisplayPath(d->filename.absFileName(), 20); docstring const text = bformat(_("The backup of the document %1$s " "is newer.\n\nLoad the backup instead?"), file); int const ret = Alert::prompt(_("Load backup?"), text, 0, 2, _("&Load backup"), _("Load &original"), _("&Cancel")); switch (ret) { case 0: { ReadStatus const ret_llf = loadThisLyXFile(autosaveFile); // the file is not saved if we load the autosave file. if (ret_llf == ReadSuccess) { if (isReadonly()) { Alert::warning(_("File is read-only"), bformat(_("A backup file is successfully loaded, " "but the original file %1$s is marked read-only. " "Please make sure to save the document as a " "different file."), from_utf8(d->filename.absFileName()))); } markDirty(); lyxvc().file_found_hook(d->filename); return ReadSuccess; } return ReadAutosaveFailure; } case 1: // Here we delete the autosave autosaveFile.removeFile(); return ReadOriginal; default: break; } return ReadCancel; } Buffer::ReadStatus Buffer::loadLyXFile() { if (!d->filename.isReadableFile()) { ReadStatus const ret_rvc = extractFromVC(); if (ret_rvc != ReadSuccess) return ret_rvc; } ReadStatus const ret_re = loadEmergency(); if (ret_re == ReadSuccess || ret_re == ReadCancel) return ret_re; ReadStatus const ret_ra = loadAutosave(); if (ret_ra == ReadSuccess || ret_ra == ReadCancel) return ret_ra; return loadThisLyXFile(d->filename); } Buffer::ReadStatus Buffer::loadThisLyXFile(FileName const & fn) { return readFile(fn); } void Buffer::bufferErrors(TeXErrors const & terr, ErrorList & errorList) const { TeXErrors::Errors::const_iterator it = terr.begin(); TeXErrors::Errors::const_iterator end = terr.end(); ListOfBuffers clist = getDescendents(); ListOfBuffers::const_iterator cen = clist.end(); for (; it != end; ++it) { int id_start = -1; int pos_start = -1; int errorRow = it->error_in_line; Buffer const * buf = 0; Impl const * p = d; if (it->child_name.empty()) p->texrow.getIdFromRow(errorRow, id_start, pos_start); else { // The error occurred in a child ListOfBuffers::const_iterator cit = clist.begin(); for (; cit != cen; ++cit) { string const child_name = DocFileName(changeExtension( (*cit)->absFileName(), "tex")). mangledFileName(); if (it->child_name != child_name) continue; (*cit)->d->texrow.getIdFromRow(errorRow, id_start, pos_start); if (id_start != -1) { buf = d->cloned_buffer_ ? (*cit)->d->cloned_buffer_->d->owner_ : (*cit)->d->owner_; p = (*cit)->d; break; } } } int id_end = -1; int pos_end = -1; bool found; do { ++errorRow; found = p->texrow.getIdFromRow(errorRow, id_end, pos_end); } while (found && id_start == id_end && pos_start == pos_end); if (id_start != id_end) { // Next registered position is outside the inset where // the error occurred, so signal end-of-paragraph pos_end = 0; } errorList.push_back(ErrorItem(it->error_desc, it->error_text, id_start, pos_start, pos_end, buf)); } } void Buffer::setBuffersForInsets() const { inset().setBuffer(const_cast(*this)); } void Buffer::updateBuffer(UpdateScope scope, UpdateType utype) const { LBUFERR(!text().paragraphs().empty()); // Use the master text class also for child documents Buffer const * const master = masterBuffer(); DocumentClass const & textclass = master->params().documentClass(); // do this only if we are the top-level Buffer if (master == this) { textclass.counters().reset(from_ascii("bibitem")); reloadBibInfoCache(); } // keep the buffers to be children in this set. If the call from the // master comes back we can see which of them were actually seen (i.e. // via an InsetInclude). The remaining ones in the set need still be updated. static std::set bufToUpdate; if (scope == UpdateMaster) { // If this is a child document start with the master if (master != this) { bufToUpdate.insert(this); master->updateBuffer(UpdateMaster, utype); // If the master buffer has no gui associated with it, then the TocModel is // not updated during the updateBuffer call and TocModel::toc_ is invalid // (bug 5699). The same happens if the master buffer is open in a different // window. This test catches both possibilities. // See: http://marc.info/?l=lyx-devel&m=138590578911716&w=2 // There remains a problem here: If there is another child open in yet a third // window, that TOC is not updated. So some more general solution is needed at // some point. if (master->d->gui_ != d->gui_) structureChanged(); // was buf referenced from the master (i.e. not in bufToUpdate anymore)? if (bufToUpdate.find(this) == bufToUpdate.end()) return; } // start over the counters in the master textclass.counters().reset(); } // update will be done below for this buffer bufToUpdate.erase(this); // update all caches clearReferenceCache(); updateMacros(); setChangesPresent(false); Buffer & cbuf = const_cast(*this); // do the real work ParIterator parit = cbuf.par_iterator_begin(); updateBuffer(parit, utype); if (master != this) // TocBackend update will be done later. return; d->bibinfo_cache_valid_ = true; d->cite_labels_valid_ = true; /// FIXME: Perf cbuf.tocBackend().update(true, utype); if (scope == UpdateMaster) cbuf.structureChanged(); } static 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 // we should have at least one non-math inset, so // depth should nevery be 0. but maybe it is worth // marking this, just in case. LATTEST(depth > 0); // coverity[INTEGER_OVERFLOW] return depth - 1; } static 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; } } static bool needEnumCounterReset(ParIterator const & it) { Paragraph const & par = *it; LASSERT(par.layout().labeltype == LABEL_ENUMERATE, return false); 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().name() != par.layout().name(); } // start of nested inset: reset return true; } // set the label of a paragraph. This includes the counters. void Buffer::Impl::setLabel(ParIterator & it, UpdateType utype) const { BufferParams const & bp = owner_->masterBuffer()->params(); DocumentClass const & textclass = bp.documentClass(); Paragraph & par = it.paragraph(); Layout const & layout = par.layout(); Counters & counters = textclass.counters(); if (par.params().startOfAppendix()) { // We want to reset the counter corresponding to toplevel sectioning Layout const & lay = textclass.getTOCLayout(); docstring const cnt = lay.counter; if (!cnt.empty()) counters.reset(cnt); 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.expandLabel(layout, bp)); } else if (layout.latextype == LATEX_BIB_ENVIRONMENT) { // we do not need to do anything here, since the empty case is // handled during export. } else { par.params().labelWidthString(docstring()); } switch(layout.labeltype) { 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: { docstring enumcounter = layout.counter.empty() ? from_ascii("enum") : layout.counter; 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; } // Increase the master counter? if (layout.stepmastercounter && needEnumCounterReset(it)) counters.stepMaster(enumcounter, utype); // Maybe we have to reset the enumeration counter. if (!layout.resumecounter && needEnumCounterReset(it)) counters.reset(enumcounter); counters.step(enumcounter, utype); string const & lang = par.getParLanguage(bp)->code(); par.params().labelString(counters.theCounter(enumcounter, lang)); break; } case LABEL_SENSITIVE: { string const & type = counters.current_float(); docstring full_label; if (type.empty()) full_label = owner_->B_("Senseless!!! "); else { docstring name = owner_->B_(textclass.floats().getType(type).name()); if (counters.hasCounter(from_utf8(type))) { string const & lang = par.getParLanguage(bp)->code(); counters.step(from_utf8(type), utype); full_label = bformat(from_ascii("%1$s %2$s:"), name, counters.theCounter(from_utf8(type), lang)); } else full_label = bformat(from_ascii("%1$s #:"), name); } par.params().labelString(full_label); break; } case LABEL_NO_LABEL: par.params().labelString(docstring()); break; case LABEL_ABOVE: case LABEL_CENTERED: case LABEL_STATIC: { docstring const & lcounter = layout.counter; if (!lcounter.empty()) { if (layout.toclevel <= bp.secnumdepth && (layout.latextype != LATEX_ENVIRONMENT || it.text()->isFirstInSequence(it.pit()))) { if (counters.hasCounter(lcounter)) counters.step(lcounter, utype); par.params().labelString(par.expandLabel(layout, bp)); } else par.params().labelString(docstring()); } else par.params().labelString(par.expandLabel(layout, bp)); break; } case LABEL_MANUAL: case LABEL_BIBLIO: par.params().labelString(par.expandLabel(layout, bp)); } } void Buffer::updateBuffer(ParIterator & parit, UpdateType utype) const { // LASSERT: Is it safe to continue here, or should we just return? LASSERT(parit.pit() == 0, /**/); // Set the position of the text in the buffer to be able // to resolve macros in it. parit.text()->setMacrocontextPosition(parit); depth_type maxdepth = 0; pit_type const lastpit = parit.lastpit(); for ( ; parit.pit() <= lastpit ; ++parit.pit()) { // reduce depth if necessary if (parit->params().depth() > maxdepth) { /** FIXME: this function is const, but * nevertheless it modifies the buffer. To be * cleaner, one should modify the buffer in * another function, which is actually * non-const. This would however be costly in * terms of code duplication. */ const_cast(this)->undo().recordUndo(CursorData(parit)); parit->params().depth(maxdepth); } maxdepth = parit->getMaxDepthAfter(); if (utype == OutputUpdate) { // track the active counters // we have to do this for the master buffer, since the local // buffer isn't tracking anything. masterBuffer()->params().documentClass().counters(). setActiveLayout(parit->layout()); } // set the counter for this paragraph d->setLabel(parit, utype); // update change-tracking flag parit->addChangesToBuffer(*this); // 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->updateBuffer(parit, utype); } } } int Buffer::spellCheck(DocIterator & from, DocIterator & to, WordLangTuple & word_lang, docstring_list & suggestions) const { int progress = 0; WordLangTuple wl; suggestions.clear(); word_lang = WordLangTuple(); bool const to_end = to.empty(); DocIterator const end = to_end ? doc_iterator_end(this) : to; // OK, we start from here. for (; from != end; from.forwardPos()) { // This skips all insets with spell check disabled. while (!from.allowSpellCheck()) { from.pop_back(); from.pos()++; } // If from is at the end of the document (which is possible // when "from" was changed above) LyX will crash later otherwise. if (from.atEnd() || (!to_end && from >= end)) break; to = from; from.paragraph().spellCheck(); SpellChecker::Result res = from.paragraph().spellCheck(from.pos(), to.pos(), wl, suggestions); if (SpellChecker::misspelled(res)) { word_lang = wl; break; } // Do not increase progress when from == to, otherwise the word // count will be wrong. if (from != to) { from = to; ++progress; } } return progress; } void Buffer::Impl::updateStatistics(DocIterator & from, DocIterator & to, bool skipNoOutput) { bool inword = false; word_count_ = 0; char_count_ = 0; blank_count_ = 0; for (DocIterator dit = from ; dit != to && !dit.atEnd(); ) { if (!dit.inTexted()) { dit.forwardPos(); continue; } Paragraph const & par = dit.paragraph(); pos_type const pos = dit.pos(); // Copied and adapted from isWordSeparator() in Paragraph if (pos == dit.lastpos()) { inword = false; } else { Inset const * ins = par.getInset(pos); if (ins && skipNoOutput && !ins->producesOutput()) { // skip this inset ++dit.top().pos(); // stop if end of range was skipped if (!to.atEnd() && dit >= to) break; continue; } else if (!par.isDeleted(pos)) { if (par.isWordSeparator(pos)) inword = false; else if (!inword) { ++word_count_; inword = true; } if (ins && ins->isLetter()) ++char_count_; else if (ins && ins->isSpace()) ++blank_count_; else { char_type const c = par.getChar(pos); if (isPrintableNonspace(c)) ++char_count_; else if (isSpace(c)) ++blank_count_; } } } dit.forwardPos(); } } void Buffer::updateStatistics(DocIterator & from, DocIterator & to, bool skipNoOutput) const { d->updateStatistics(from, to, skipNoOutput); } int Buffer::wordCount() const { return d->wordCount(); } int Buffer::charCount(bool with_blanks) const { return d->charCount(with_blanks); } Buffer::ReadStatus Buffer::reload() { setBusy(true); // c.f. bug http://www.lyx.org/trac/ticket/6587 removeAutosaveFile(); // e.g., read-only status could have changed due to version control d->filename.refresh(); docstring const disp_fn = makeDisplayPath(d->filename.absFileName()); // clear parent. this will get reset if need be. d->setParent(0); ReadStatus const status = loadLyXFile(); if (status == ReadSuccess) { updateBuffer(); changed(true); updateTitles(); markClean(); message(bformat(_("Document %1$s reloaded."), disp_fn)); d->undo_.clear(); } else { message(bformat(_("Could not reload document %1$s."), disp_fn)); } setBusy(false); removePreviews(); updatePreviews(); errors("Parse"); return status; } bool Buffer::saveAs(FileName const & fn) { FileName const old_name = fileName(); FileName const old_auto = getAutosaveFileName(); bool const old_unnamed = isUnnamed(); bool success = true; d->old_position = filePath(); setFileName(fn); markDirty(); setUnnamed(false); if (save()) { // bring the autosave file with us, just in case. moveAutosaveFile(old_auto); // validate version control data and // correct buffer title lyxvc().file_found_hook(fileName()); updateTitles(); // the file has now been saved to the new location. // we need to check that the locations of child buffers // are still valid. checkChildBuffers(); checkMasterBuffer(); } else { // save failed // reset the old filename and unnamed state setFileName(old_name); setUnnamed(old_unnamed); success = false; } d->old_position.clear(); return success; } void Buffer::checkChildBuffers() { Impl::BufferPositionMap::iterator it = d->children_positions.begin(); Impl::BufferPositionMap::iterator const en = d->children_positions.end(); for (; it != en; ++it) { DocIterator dit = it->second; Buffer * cbuf = const_cast(it->first); if (!cbuf || !theBufferList().isLoaded(cbuf)) continue; Inset * inset = dit.nextInset(); LASSERT(inset && inset->lyxCode() == INCLUDE_CODE, continue); InsetInclude * inset_inc = static_cast(inset); docstring const & incfile = inset_inc->getParam("filename"); string oldloc = cbuf->absFileName(); string newloc = makeAbsPath(to_utf8(incfile), onlyPath(absFileName())).absFileName(); if (oldloc == newloc) continue; // the location of the child file is incorrect. cbuf->setParent(0); inset_inc->setChildBuffer(0); } // invalidate cache of children d->children_positions.clear(); d->position_to_children.clear(); } // If a child has been saved under a different name/path, it might have been // orphaned. Therefore the master needs to be reset (bug 8161). void Buffer::checkMasterBuffer() { Buffer const * const master = masterBuffer(); if (master == this) return; // necessary to re-register the child (bug 5873) // FIXME: clean up updateMacros (here, only // child registering is needed). master->updateMacros(); // (re)set master as master buffer, but only // if we are a real child if (master->isChild(this)) setParent(master); else setParent(0); } string Buffer::includedFilePath(string const & name, string const & ext) const { if (d->old_position.empty() || equivalent(FileName(d->old_position), FileName(filePath()))) return name; bool isabsolute = FileName::isAbsolute(name); // both old_position and filePath() end with a path separator string absname = isabsolute ? name : d->old_position + name; // if old_position is set to origin, we need to do the equivalent of // getReferencedFileName() (see readDocument()) if (!isabsolute && d->old_position == params().origin) { FileName const test(addExtension(filePath() + name, ext)); if (test.exists()) absname = filePath() + name; } if (!FileName(addExtension(absname, ext)).exists()) return name; if (isabsolute) return to_utf8(makeRelPath(from_utf8(name), from_utf8(filePath()))); return to_utf8(makeRelPath(from_utf8(FileName(absname).realPath()), from_utf8(filePath()))); } void Buffer::setChangesPresent(bool b) const { d->tracked_changes_present_ = b; } bool Buffer::areChangesPresent() const { return d->tracked_changes_present_; } void Buffer::updateChangesPresent() const { LYXERR(Debug::CHANGES, "Buffer::updateChangesPresent"); setChangesPresent(false); ParConstIterator it = par_iterator_begin(); ParConstIterator const end = par_iterator_end(); for (; !areChangesPresent() && it != end; ++it) it->addChangesToBuffer(*this); } } // namespace lyx