namespace {
+void parseItem(docstring & s, bool for_output)
+{
+ // this does not yet check for escaped things
+ size_type loc = s.find(from_ascii("@"));
+ if (loc != string::npos) {
+ if (for_output)
+ s.erase(0, loc + 1);
+ else
+ s.erase(loc);
+ }
+ loc = s.find(from_ascii("|"));
+ if (loc != string::npos)
+ s.erase(loc);
+}
+
+
+void extractSubentries(docstring const & entry, docstring & main,
+ docstring & sub1, docstring & sub2)
+{
+ if (entry.empty())
+ return;
+ size_type const loc = entry.find(from_ascii(" ! "));
+ if (loc == string::npos)
+ main = entry;
+ else {
+ main = trim(entry.substr(0, loc));
+ size_t const locend = loc + 3;
+ size_type const loc2 = entry.find(from_ascii(" ! "), locend);
+ if (loc2 == string::npos) {
+ sub1 = trim(entry.substr(locend));
+ } else {
+ sub1 = trim(entry.substr(locend, loc2 - locend));
+ sub2 = trim(entry.substr(loc2 + 3));
+ }
+ }
+}
+
+
struct IndexEntry
{
- IndexEntry(docstring const & s, DocIterator const & d)
- : idx(s), dit(d)
+ IndexEntry()
{}
- docstring idx;
+ IndexEntry(docstring const & s, DocIterator const & d)
+ : dit(d)
+ {
+ extractSubentries(s, main, sub, subsub);
+ parseItem(main, false);
+ parseItem(sub, false);
+ parseItem(subsub, false);
+ }
+
+ bool equal(IndexEntry const & rhs) const
+ {
+ return main == rhs.main && sub == rhs.sub && subsub == rhs.subsub;
+ }
+
+ bool same_sub(IndexEntry const & rhs) const
+ {
+ return main == rhs.main && sub == rhs.sub;
+ }
+
+ bool same_main(IndexEntry const & rhs) const
+ {
+ return main == rhs.main;
+ }
+
+ docstring main;
+ docstring sub;
+ docstring subsub;
DocIterator dit;
};
bool operator<(IndexEntry const & lhs, IndexEntry const & rhs)
{
- return lhs.idx < rhs.idx;
+ return lhs.main < rhs.main
+ || (lhs.main == rhs.main && lhs.sub < rhs.sub)
+ || (lhs.main == rhs.main && lhs.sub == rhs.sub && lhs.subsub < rhs.subsub);
}
} // anon namespace
docstring InsetPrintIndex::xhtml(XHTMLStream &, OutputParams const & op) const
{
- Layout const & lay = buffer().params().documentClass().htmlTOCLayout();
+ BufferParams const & bp = buffer().masterBuffer()->params();
+
+ // we do not presently support multiple indices, so we refuse to print
+ // anything but the main index, so as not to generate multiple indices.
+ // NOTE Multiple index support would require some work. The reason
+ // is that the TOC does not know about multiple indices. Either it would
+ // need to be told about them (not a bad idea), or else the index entries
+ // would need to be collected differently, say, during validation.
+ if (bp.use_indices && getParam("type") != from_ascii("idx"))
+ return docstring();
+
+ Toc const & toc = buffer().tocBackend().toc("index");
+ if (toc.empty())
+ return docstring();
+
+ // Collection the index entries in a form we can use them.
+ Toc::const_iterator it = toc.begin();
+ Toc::const_iterator const en = toc.end();
+ vector<IndexEntry> entries;
+ for (; it != en; ++it)
+ entries.push_back(IndexEntry(it->str(), it->dit()));
+ stable_sort(entries.begin(), entries.end());
+
+ Layout const & lay = bp.documentClass().htmlTOCLayout();
string const & tocclass = lay.defaultCSSClass();
string const tocattr = "class='tochead " + tocclass + "'";
odocstringstream ods;
XHTMLStream xs(ods);
- Toc const & toc = buffer().tocBackend().toc("index");
- if (toc.empty())
- return docstring();
-
xs << StartTag("div", "class='index'");
- xs << StartTag("div", tocattr)
+ xs << StartTag(lay.htmltag(), lay.htmlattr())
<< _("Index")
- << EndTag("div");
- Toc::const_iterator it = toc.begin();
- Toc::const_iterator const en = toc.end();
+ << EndTag(lay.htmltag());
+ xs << StartTag("ul", "class='main'");
Font const dummy;
- vector<IndexEntry> entries;
- for (; it != en; ++it)
- entries.push_back(IndexEntry(it->str(), it->dit()));
- stable_sort(entries.begin(), entries.end());
vector<IndexEntry>::const_iterator eit = entries.begin();
vector<IndexEntry>::const_iterator const een = entries.end();
- vector<IndexEntry>::const_iterator last = een;
- int entry_number = 0;
+ // tracks whether we are already inside a main entry (1),
+ // a sub-entry (2), or a sub-sub-entry (3). see below for the
+ // details.
+ int level = 1;
+ // the last one we saw
+ IndexEntry last;
+ int entry_number = -1;
for (; eit != een; ++eit) {
Paragraph const & par = eit->dit.innerParagraph();
- if (last == een) {
- // first time through the loop
- xs << StartTag("div", "class='index_entry'");
- par.simpleLyXHTMLOnePar(buffer(), xs, op, dummy, true);
- }
- else if (last->idx != eit->idx) {
- // this is a new entry
- xs << EndTag("div");
- xs.cr();
- xs << StartTag("div", "class='index_entry'");
- par.simpleLyXHTMLOnePar(buffer(), xs, op, dummy, true);
+ if (entry_number == -1 || !eit->equal(last)) {
+ if (entry_number != -1) {
+ // not the first time through the loop, so
+ // close last entry or entries, depending.
+ if (level == 3) {
+ // close this sub-sub-entry
+ xs << EndTag("li");
+ xs.cr();
+ // is this another sub-sub-entry within the same sub-entry?
+ if (!eit->same_sub(last)) {
+ // close this level
+ xs << EndTag("ul");
+ xs.cr();
+ level = 2;
+ }
+ }
+ // the point of the second test here is that we might get
+ // here two ways: (i) by falling through from above; (ii) because,
+ // though the sub-entry hasn't changed, the sub-sub-entry has,
+ // which means that it is the first sub-sub-entry within this
+ // sub-entry. In that case, we do not want to close anything.
+ if (level == 2 && !eit->same_sub(last)) {
+ // close sub-entry
+ xs << EndTag("li");
+ xs.cr();
+ // is this another sub-entry with the same main entry?
+ if (!eit->same_main(last)) {
+ // close this level
+ xs << EndTag("ul");
+ xs.cr();
+ level = 1;
+ }
+ }
+ // again, we can get here two ways: from above, or because we have
+ // found the first sub-entry. in the latter case, we do not want to
+ // close the entry.
+ if (level == 1 && !eit->same_main(last)) {
+ // close entry
+ xs << EndTag("li");
+ xs.cr();
+ }
+ }
+
+ // we'll be starting new entries
entry_number = 0;
+
+ // We need to use our own stream, since we will have to
+ // modify what we get back.
+ odocstringstream ent;
+ XHTMLStream entstream(ent);
+ par.simpleLyXHTMLOnePar(buffer(), entstream, op, dummy, true);
+
+ // these will contain XHTML versions of the main entry, etc
+ // remember that everything will already have been escaped,
+ // so we'll need to use NextRaw() during output.
+ docstring main;
+ docstring sub;
+ docstring subsub;
+ extractSubentries(ent.str(), main, sub, subsub);
+ parseItem(main, true);
+ parseItem(sub, true);
+ parseItem(subsub, true);
+
+ if (level == 3) {
+ // another subsubentry
+ xs << StartTag("li", "class='subsubentry'")
+ << XHTMLStream::NextRaw() << subsub;
+ } else if (level == 2) {
+ // there are two ways we can be here:
+ // (i) we can actually be inside a sub-entry already and be about
+ // to output the first sub-sub-entry. in this case, our sub
+ // and the last sub will be the same.
+ // (ii) we can just have closed a sub-entry, possibly after also
+ // closing a list of sub-sub-entries. here our sub and the last
+ // sub are different.
+ // only in the latter case do we need to output the new sub-entry.
+ // note that in this case, too, though, the sub-entry might already
+ // have a sub-sub-entry.
+ if (eit->sub != last.sub)
+ xs << StartTag("li", "class='subentry'")
+ << XHTMLStream::NextRaw() << sub;
+ if (!subsub.empty()) {
+ // it's actually a subsubentry, so we need to start that list
+ xs.cr();
+ xs << StartTag("ul", "class='subsubentry'")
+ << StartTag("li", "class='subsubentry'")
+ << XHTMLStream::NextRaw() << subsub;
+ level = 3;
+ }
+ } else {
+ // there are also two ways we can be here:
+ // (i) we can actually be inside an entry already and be about
+ // to output the first sub-entry. in this case, our main
+ // and the last main will be the same.
+ // (ii) we can just have closed an entry, possibly after also
+ // closing a list of sub-entries. here our main and the last
+ // main are different.
+ // only in the latter case do we need to output the new main entry.
+ // note that in this case, too, though, the main entry might already
+ // have a sub-entry, or even a sub-sub-entry.
+ if (eit->main != last.main)
+ xs << StartTag("li", "class='main'") << main;
+ if (!sub.empty()) {
+ // there's a sub-entry, too
+ xs.cr();
+ xs << StartTag("ul", "class='subentry'")
+ << StartTag("li", "class='subentry'")
+ << XHTMLStream::NextRaw() << sub;
+ level = 2;
+ if (!subsub.empty()) {
+ // and a sub-sub-entry
+ xs.cr();
+ xs << StartTag("ul", "class='subsubentry'")
+ << StartTag("li", "class='subsubentry'")
+ << XHTMLStream::NextRaw() << subsub;
+ level = 3;
+ }
+ }
+ }
}
- if (!entry_number)
- xs << ",";
+ // finally, then, we can output the index link itself
string const parattr = "href='#" + par.magicLabel() + "'";
- xs << " " << StartTag("a", parattr);
- xs << ++entry_number;
- xs << EndTag("a");
- last = eit;
+ xs << (entry_number == 0 ? ":" : ",");
+ xs << " " << StartTag("a", parattr)
+ << ++entry_number << EndTag("a");
+ last = *eit;
+ }
+ // now we have to close all the open levels
+ while (level > 0) {
+ xs << EndTag("li") << EndTag("ul");
+ xs.cr();
+ --level;
}
- xs << EndTag("div"); // last entry
xs << EndTag("div");
+ xs.cr();
return ods.str();
}