/** * \file InsetCitation.cpp * This file is part of LyX, the document processor. * Licence details can be found in the file COPYING. * * \author Angus Leeming * \author Herbert Voß * * Full author contact details are available in file CREDITS. */ #include #include "InsetCitation.h" #include "BiblioInfo.h" #include "Buffer.h" #include "buffer_funcs.h" #include "BufferParams.h" #include "BufferView.h" #include "DispatchResult.h" #include "FuncCode.h" #include "FuncRequest.h" #include "FuncStatus.h" #include "LaTeXFeatures.h" #include "output_xhtml.h" #include "ParIterator.h" #include "texstream.h" #include "TocBackend.h" #include "support/debug.h" #include "support/docstream.h" #include "support/FileNameList.h" #include "support/gettext.h" #include "support/lstrings.h" #include #include using namespace std; using namespace lyx::support; namespace lyx { InsetCitation::InsetCitation(Buffer * buf, InsetCommandParams const & p) : InsetCommand(buf, p) { buffer().removeBiblioTempFiles(); } InsetCitation::~InsetCitation() { if (isBufferLoaded()) /* We do not use buffer() because Coverity believes that this * may throw an exception. Actually this code path is not * taken when buffer_ == 0 */ buffer_->removeBiblioTempFiles(); } // May well be over-ridden when session settings are loaded // in GuiCitation. Unfortunately, that will not happen until // such a dialog is created. bool InsetCitation::last_literal = true; ParamInfo const & InsetCitation::findInfo(string const & /* cmdName */) { static ParamInfo param_info_; // standard cite does only take one argument, but biblatex, jurabib // and natbib extend this to two arguments, so // we have to allow both here. InsetCitation takes care that // LaTeX output is nevertheless correct. if (param_info_.empty()) { param_info_.add("after", ParamInfo::LATEX_OPTIONAL, ParamInfo::HANDLING_LATEXIFY); param_info_.add("before", ParamInfo::LATEX_OPTIONAL, ParamInfo::HANDLING_LATEXIFY); param_info_.add("key", ParamInfo::LATEX_REQUIRED); param_info_.add("pretextlist", ParamInfo::LATEX_OPTIONAL, ParamInfo::HANDLING_LATEXIFY); param_info_.add("posttextlist", ParamInfo::LATEX_OPTIONAL, ParamInfo::HANDLING_LATEXIFY); param_info_.add("literal", ParamInfo::LYX_INTERNAL); } return param_info_; } // We allow any command here, since we fall back to cite // anyway if a command is not allowed by a style bool InsetCitation::isCompatibleCommand(string const &) { return true; } CitationStyle InsetCitation::getCitationStyle(BufferParams const & bp, string const & input, vector const & valid_styles) const { CitationStyle cs = valid_styles[0]; cs.forceUpperCase = false; cs.hasStarredVersion = false; string normalized_input = input; string::size_type const n = input.size() - 1; if (isUpperCase(input[0])) normalized_input[0] = lowercase(input[0]); if (input[n] == '*') normalized_input = normalized_input.substr(0, n); string const alias = bp.getCiteAlias(normalized_input); if (!alias.empty()) normalized_input = alias; vector::const_iterator it = valid_styles.begin(); vector::const_iterator end = valid_styles.end(); for (; it != end; ++it) { CitationStyle this_cs = *it; if (this_cs.name == normalized_input) { cs = *it; break; } } return cs; } void InsetCitation::doDispatch(Cursor & cur, FuncRequest & cmd) { switch (cmd.action()) { case LFUN_INSET_MODIFY: { buffer().removeBiblioTempFiles(); cache.recalculate = true; if (cmd.getArg(0) == "toggleparam") { string cmdname = getCmdName(); string const alias = buffer().masterParams().getCiteAlias(cmdname); if (!alias.empty()) cmdname = alias; string const par = cmd.getArg(1); string newcmdname = cmdname; if (par == "star") { if (suffixIs(cmdname, "*")) newcmdname = rtrim(cmdname, "*"); else newcmdname = cmdname + "*"; } else if (par == "casing") { if (isUpperCase(cmdname[0])) newcmdname[0] = lowercase(cmdname[0]); else newcmdname[0] = uppercase(newcmdname[0]); } cmd = FuncRequest(LFUN_INSET_MODIFY, "changetype " + newcmdname); } } // fall through default: InsetCommand::doDispatch(cur, cmd); } } bool InsetCitation::getStatus(Cursor & cur, FuncRequest const & cmd, FuncStatus & status) const { switch (cmd.action()) { // Handle the alias case case LFUN_INSET_MODIFY: if (cmd.getArg(0) == "changetype") { string cmdname = getCmdName(); string const alias = buffer().masterParams().getCiteAlias(cmdname); if (!alias.empty()) cmdname = alias; if (suffixIs(cmdname, "*")) cmdname = rtrim(cmdname, "*"); string const newtype = cmd.getArg(1); status.setEnabled(isCompatibleCommand(newtype)); status.setOnOff(newtype == cmdname); } if (cmd.getArg(0) == "toggleparam") { string cmdname = getCmdName(); string const alias = buffer().masterParams().getCiteAlias(cmdname); if (!alias.empty()) cmdname = alias; vector citation_styles = buffer().masterParams().citeStyles(); CitationStyle cs = getCitationStyle(buffer().masterParams(), cmdname, citation_styles); if (cmd.getArg(1) == "star") { status.setEnabled(cs.hasStarredVersion); status.setOnOff(suffixIs(cmdname, "*")); } else if (cmd.getArg(1) == "casing") { status.setEnabled(cs.forceUpperCase); status.setOnOff(isUpperCase(cmdname[0])); } } return true; default: return InsetCommand::getStatus(cur, cmd, status); } } bool InsetCitation::addKey(string const & key) { docstring const ukey = from_utf8(key); docstring const & curkeys = getParam("key"); if (curkeys.empty()) { setParam("key", ukey); cache.recalculate = true; return true; } vector keys = getVectorFromString(curkeys); vector::const_iterator it = keys.begin(); vector::const_iterator en = keys.end(); for (; it != en; ++it) { if (*it == ukey) { LYXERR0("Key " << key << " already present."); return false; } } keys.push_back(ukey); setParam("key", getStringFromVector(keys)); cache.recalculate = true; return true; } docstring InsetCitation::toolTip(BufferView const & bv, int, int) const { Buffer const & buf = bv.buffer(); // Only after the buffer is loaded from file... if (!buf.isFullyLoaded()) return docstring(); BiblioInfo const & bi = buf.masterBibInfo(); if (bi.empty()) return _("No bibliography defined!"); docstring const & key = getParam("key"); if (key.empty()) return _("No citations selected!"); CiteItem ci; ci.richtext = true; vector keys = getVectorFromString(key); if (keys.size() == 1) return bi.getInfo(keys[0], buffer(), ci); docstring tip; tip += "
    "; int count = 0; for (docstring const & key : keys) { docstring const key_info = bi.getInfo(key, buffer(), ci); // limit to reasonable size. if (count > 9 && keys.size() > 11) { tip.push_back(0x2026);// HORIZONTAL ELLIPSIS tip += "

    " + bformat(_("+ %1$d more entries."), int(keys.size() - count)) + "

    "; break; } if (key_info.empty()) continue; tip += "
  1. " + key_info + "
  2. "; ++count; } tip += "
"; return tip; } namespace { CitationStyle asValidLatexCommand(BufferParams const & bp, string const & input, vector const & valid_styles) { CitationStyle cs = valid_styles[0]; cs.forceUpperCase = false; cs.hasStarredVersion = false; string normalized_input = input; string::size_type const n = input.size() - 1; if (isUpperCase(input[0])) normalized_input[0] = lowercase(input[0]); if (input[n] == '*') normalized_input = normalized_input.substr(0, n); string const alias = bp.getCiteAlias(normalized_input); if (!alias.empty()) normalized_input = alias; vector::const_iterator it = valid_styles.begin(); vector::const_iterator end = valid_styles.end(); for (; it != end; ++it) { CitationStyle this_cs = *it; if (this_cs.name == normalized_input) { cs = *it; break; } } cs.forceUpperCase &= input[0] == uppercase(input[0]); cs.hasStarredVersion &= input[n] == '*'; return cs; } inline docstring wrapCitation(docstring const & key, docstring const & content, bool for_xhtml) { if (!for_xhtml) return content; // we have to do the escaping here, because we will ultimately // write this as a raw string, so as not to escape the tags. return "" + html::htmlize(content, XHTMLStream::ESCAPE_ALL) + ""; } } // anonymous namespace map InsetCitation::getQualifiedLists(docstring const p) const { vector ps = getVectorFromString(p, from_ascii("\t")); std::map res; for (docstring const & s: ps) { docstring key; docstring val = split(s, key, ' '); res[key] = val; } return res; } docstring InsetCitation::generateLabel(bool for_xhtml) const { docstring label; label = complexLabel(for_xhtml); // Fallback to fail-safe if (label.empty()) label = basicLabel(for_xhtml); return label; } docstring InsetCitation::complexLabel(bool for_xhtml) const { Buffer const & buf = buffer(); // Only start the process off after the buffer is loaded from file. if (!buf.isFullyLoaded()) return docstring(); BiblioInfo const & biblist = buf.masterBibInfo(); if (biblist.empty()) return docstring(); docstring const & key = getParam("key"); if (key.empty()) return _("No citations selected!"); string cite_type = getCmdName(); bool const uppercase = isUpperCase(cite_type[0]); if (uppercase) cite_type[0] = lowercase(cite_type[0]); bool const starred = (cite_type[cite_type.size() - 1] == '*'); if (starred) cite_type = cite_type.substr(0, cite_type.size() - 1); // handle alias string const alias = buf.masterParams().getCiteAlias(cite_type); if (!alias.empty()) cite_type = alias; // FIXME: allow to add cite macros /* buffer().params().documentClass().addCiteMacro("!textbefore", to_utf8(before)); buffer().params().documentClass().addCiteMacro("!textafter", to_utf8(after)); */ docstring label; vector keys = getVectorFromString(key); CitationStyle cs = getCitationStyle(buffer().masterParams(), cite_type, buffer().masterParams().citeStyles()); bool const qualified = cs.hasQualifiedList && (keys.size() > 1 || !getParam("pretextlist").empty() || !getParam("posttextlist").empty()); map pres = getQualifiedLists(getParam("pretextlist")); map posts = getQualifiedLists(getParam("posttextlist")); CiteItem ci; ci.textBefore = getParam("before"); ci.textAfter = getParam("after"); ci.forceUpperCase = uppercase; ci.Starred = starred; ci.max_size = UINT_MAX; ci.isQualified = qualified; ci.pretexts = pres; ci.posttexts = posts; if (for_xhtml) { ci.max_key_size = UINT_MAX; ci.context = CiteItem::Export; } ci.richtext = for_xhtml; label = biblist.getLabel(keys, buffer(), cite_type, ci); return label; } docstring InsetCitation::basicLabel(bool for_xhtml) const { docstring keys = getParam("key"); docstring label; docstring key; do { // if there is no comma, then everything goes into key // and keys will be empty. keys = trim(split(keys, key, ',')); key = trim(key); if (!label.empty()) label += ", "; label += wrapCitation(key, key, for_xhtml); } while (!keys.empty()); docstring const & after = getParam("after"); if (!after.empty()) label += ", " + after; return '[' + label + ']'; } docstring InsetCitation::screenLabel() const { return cache.screen_label; } void InsetCitation::updateBuffer(ParIterator const &, UpdateType) { if (!cache.recalculate && buffer().citeLabelsValid()) return; // The label may have changed, so we have to re-create it. docstring const glabel = generateLabel(); cache.recalculate = false; cache.generated_label = glabel; unsigned int const maxLabelChars = 45; cache.screen_label = glabel.substr(0, maxLabelChars + 1); support::truncateWithEllipsis(cache.screen_label, maxLabelChars); } void InsetCitation::addToToc(DocIterator const & cpit, bool output_active, UpdateType, TocBackend & backend) const { // NOTE // BiblioInfo::collectCitedEntries() uses the TOC to collect the citations // from the document. It is used indirectly, via BiblioInfo::makeCitationLables, // by both XHTML and plaintext output. So, if we change what goes into the TOC, // then we will also need to change that routine. docstring const tocitem = getParam("key"); TocBuilder & b = backend.builder("citation"); b.pushItem(cpit, tocitem, output_active); b.pop(); } int InsetCitation::plaintext(odocstringstream & os, OutputParams const &, size_t) const { string const & cmd = getCmdName(); if (cmd == "nocite") return 0; docstring const label = generateLabel(false); os << label; return label.size(); } static docstring const cleanupWhitespace(docstring const & citelist) { docstring::const_iterator it = citelist.begin(); docstring::const_iterator end = citelist.end(); // Paranoia check: make sure that there is no whitespace in here // -- at least not behind commas or at the beginning docstring result; char_type last = ','; for (; it != end; ++it) { if (*it != ' ') last = *it; if (*it != ' ' || last != ',') result += *it; } return result; } int InsetCitation::docbook(odocstream & os, OutputParams const &) const { os << from_ascii("") << cleanupWhitespace(getParam("key")) << from_ascii(""); return 0; } docstring InsetCitation::xhtml(XHTMLStream & xs, OutputParams const &) const { string const & cmd = getCmdName(); if (cmd == "nocite") return docstring(); // have to output this raw, because generateLabel() will include tags xs << XHTMLStream::ESCAPE_NONE << generateLabel(true); return docstring(); } void InsetCitation::toString(odocstream & os) const { odocstringstream ods; plaintext(ods, OutputParams(0)); os << ods.str(); } void InsetCitation::forOutliner(docstring & os, size_t const, bool const) const { os += screenLabel(); } // Have to overwrite the default InsetCommand method in order to check that // the \cite command is valid. Eg, the user has natbib enabled, inputs some // citations and then changes his mind, turning natbib support off. The output // should revert to the default citation command as provided by the citation // engine, e.g. \cite[]{} for the basic engine. void InsetCitation::latex(otexstream & os, OutputParams const & runparams) const { // When this is a child compiled on its own, we use the childs // own bibinfo, else the master's BiblioInfo const & bi = runparams.is_child ? buffer().masterBibInfo() : buffer().bibInfo(); docstring const key = getParam("key"); // "keyonly" command: output the plain key and stop. if (getCmdName() == "keyonly") { // Special command to only return the key if (!bi.isBibtex(getParam("key"))) // escape chars with bibitems os << escape(cleanupWhitespace(key)); else os << cleanupWhitespace(key); return; } vector citation_styles = buffer().masterParams().citeStyles(); CitationStyle cs = asValidLatexCommand(buffer().masterParams(), getCmdName(), citation_styles); // FIXME UNICODE docstring const cite_str = from_utf8(citationStyleToString(cs, true)); // check if we have to do a qualified list vector keys = getVectorFromString(cleanupWhitespace(key)); bool const qualified = cs.hasQualifiedList && (!getParam("pretextlist").empty() || !getParam("posttextlist").empty()); if (runparams.inulemcmd > 0) os << "\\mbox{"; os << "\\" << cite_str; if (qualified) os << "s"; ParamInfo const & pinfo = findInfo(string()); docstring before = params().prepareCommand(runparams, getParam("before"), pinfo["before"].handling()); docstring after = params().prepareCommand(runparams, getParam("after"), pinfo["after"].handling()); if (!before.empty() && cs.textBefore) { if (qualified) os << '(' << protectArgument(before, '(', ')') << ")(" << protectArgument(after, '(', ')') << ')'; else os << '[' << protectArgument(before) << "][" << protectArgument(after) << ']'; } else if (!after.empty() && cs.textAfter) { if (qualified) os << '(' << protectArgument(after, '(', ')') << ')'; else os << '[' << protectArgument(after) << ']'; } if (!bi.isBibtex(key)) // escape chars with bibitems os << '{' << escape(cleanupWhitespace(key)) << '}'; else { if (qualified) { map pres = getQualifiedLists(getParam("pretextlist")); map posts = getQualifiedLists(getParam("posttextlist")); for (docstring const & k: keys) { docstring bef = params().prepareCommand(runparams, pres[k], pinfo["pretextlist"].handling()); docstring aft = params().prepareCommand(runparams, posts[k], pinfo["posttextlist"].handling()); if (!bef.empty()) os << '[' << protectArgument(bef) << "][" << protectArgument(aft) << ']'; else if (!aft.empty()) os << '[' << protectArgument(aft) << ']'; os << '{' << k << '}'; } } else os << '{' << cleanupWhitespace(key) << '}'; } if (runparams.inulemcmd) os << "}"; } string InsetCitation::contextMenuName() const { return "context-citation"; } } // namespace lyx