/**
 * \file BiblioInfo.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
 * \author Richard Heck
 * \author Julien Rioux
 *
 * Full author contact details are available in file CREDITS.
 */

#include <config.h>

#include "BiblioInfo.h"
#include "Buffer.h"
#include "BufferParams.h"
#include "buffer_funcs.h"
#include "Encoding.h"
#include "InsetIterator.h"
#include "Language.h"
#include "output_xhtml.h"
#include "Paragraph.h"
#include "TextClass.h"
#include "TocBackend.h"

#include "support/convert.h"
#include "support/debug.h"
#include "support/docstream.h"
#include "support/gettext.h"
#include "support/lassert.h"
#include "support/lstrings.h"
#include "support/regex.h"
#include "support/textutils.h"

#include <set>

using namespace std;
using namespace lyx::support;


namespace lyx {

namespace {

// gets the "family name" from an author-type string
docstring familyName(docstring const & name)
{
	if (name.empty())
		return docstring();

	// first we look for a comma, and take the last name to be everything
	// preceding the right-most one, so that we also get the "jr" part.
	docstring::size_type idx = name.rfind(',');
	if (idx != docstring::npos)
		return ltrim(name.substr(0, idx));

	// OK, so now we want to look for the last name. We're going to
	// include the "von" part. This isn't perfect.
	// Split on spaces, to get various tokens.
	vector<docstring> pieces = getVectorFromString(name, from_ascii(" "));
	// If we only get two, assume the last one is the last name
	if (pieces.size() <= 2)
		return pieces.back();

	// Now we look for the first token that begins with a lower case letter.
	vector<docstring>::const_iterator it = pieces.begin();
	vector<docstring>::const_iterator en = pieces.end();
	for (; it != en; ++it) {
		if ((*it).empty())
			continue;
		char_type const c = (*it)[0];
		if (isLower(c))
			break;
	}

	if (it == en) // we never found a "von"
		return pieces.back();

	// reconstruct what we need to return
	docstring retval;
	bool first = true;
	for (; it != en; ++it) {
		if (!first)
			retval += " ";
		else
			first = false;
		retval += *it;
	}
	return retval;
}


// converts a string containing LaTeX commands into unicode
// for display.
docstring convertLaTeXCommands(docstring const & str)
{
	docstring val = str;
	docstring ret;

	bool scanning_cmd = false;
	bool scanning_math = false;
	bool escaped = false; // used to catch \$, etc.
	while (!val.empty()) {
		char_type const ch = val[0];

		// if we're scanning math, we output everything until we
		// find an unescaped $, at which point we break out.
		if (scanning_math) {
			if (escaped)
				escaped = false;
			else if (ch == '\\')
				escaped = true;
			else if (ch == '$')
				scanning_math = false;
			ret += ch;
			val = val.substr(1);
			continue;
		}

		// if we're scanning a command name, then we just
		// discard characters until we hit something that
		// isn't alpha.
		if (scanning_cmd) {
			if (isAlphaASCII(ch)) {
				val = val.substr(1);
				escaped = false;
				continue;
			}
			// so we're done with this command.
			// now we fall through and check this character.
			scanning_cmd = false;
		}

		// was the last character a \? If so, then this is something like:
		// \\ or \$, so we'll just output it. That's probably not always right...
		if (escaped) {
			// exception: output \, as THIN SPACE
			if (ch == ',')
				ret.push_back(0x2009);
			else
				ret += ch;
			val = val.substr(1);
			escaped = false;
			continue;
		}

		if (ch == '$') {
			ret += ch;
			val = val.substr(1);
			scanning_math = true;
			continue;
		}

		// we just ignore braces
		if (ch == '{' || ch == '}') {
			val = val.substr(1);
			continue;
		}

		// we're going to check things that look like commands, so if
		// this doesn't, just output it.
		if (ch != '\\') {
			ret += ch;
			val = val.substr(1);
			continue;
		}

		// ok, could be a command of some sort
		// let's see if it corresponds to some unicode
		// unicodesymbols has things in the form: \"{u},
		// whereas we may see things like: \"u. So we'll
		// look for that and change it, if necessary.
		// FIXME: This is a sort of mini-tex2lyx.
		//        Use the real tex2lyx instead!
		static lyx::regex const reg("^\\\\\\W\\w");
		if (lyx::regex_search(to_utf8(val), reg)) {
			val.insert(3, from_ascii("}"));
			val.insert(2, from_ascii("{"));
		}
		bool termination;
		docstring rem;
		docstring const cnvtd = Encodings::fromLaTeXCommand(val,
				Encodings::TEXT_CMD, termination, rem);
		if (!cnvtd.empty()) {
			// it did, so we'll take that bit and proceed with what's left
			ret += cnvtd;
			val = rem;
			continue;
		}
		// it's a command of some sort
		scanning_cmd = true;
		escaped = true;
		val = val.substr(1);
	}
	return ret;
}


// Escape '<' and '>' and remove richtext markers (e.g. {!this is richtext!}) from a string.
docstring processRichtext(docstring const & str, bool richtext)
{
	docstring val = str;
	docstring ret;

	bool scanning_rich = false;
	while (!val.empty()) {
		char_type const ch = val[0];
		if (ch == '{' && val.size() > 1 && val[1] == '!') {
			// beginning of rich text
			scanning_rich = true;
			val = val.substr(2);
			continue;
		}
		if (scanning_rich && ch == '!' && val.size() > 1 && val[1] == '}') {
			// end of rich text
			scanning_rich = false;
			val = val.substr(2);
			continue;
		}
		if (richtext) {
			if (scanning_rich)
				ret += ch;
			else {
				// we need to escape '<' and '>'
				if (ch == '<')
					ret += "&lt;";
				else if (ch == '>')
					ret += "&gt;";
				else
					ret += ch;
			}
		} else if (!scanning_rich /* && !richtext */)
			ret += ch;
		// else the character is discarded, which will happen only if
		// richtext == false and we are scanning rich text
		val = val.substr(1);
	}
	return ret;
}

} // anon namespace


//////////////////////////////////////////////////////////////////////
//
// BibTeXInfo
//
//////////////////////////////////////////////////////////////////////

BibTeXInfo::BibTeXInfo(docstring const & key, docstring const & type)
	: is_bibtex_(true), bib_key_(key), entry_type_(type), info_(),
	  modifier_(0)
{}


docstring const BibTeXInfo::getAbbreviatedAuthor(bool jurabib_style) const
{
	if (!is_bibtex_) {
		docstring const opt = label();
		if (opt.empty())
			return docstring();

		docstring authors;
		docstring const remainder = trim(split(opt, authors, '('));
		if (remainder.empty())
			// in this case, we didn't find a "(",
			// so we don't have author (year)
			return docstring();
		return authors;
	}

	docstring author = convertLaTeXCommands(operator[]("author"));
	if (author.empty()) {
		author = convertLaTeXCommands(operator[]("editor"));
		if (author.empty())
			return author;
	}

	// FIXME Move this to a separate routine that can
	// be called from elsewhere.
	//
	// OK, we've got some names. Let's format them.
	// Try to split the author list on " and "
	vector<docstring> const authors =
		getVectorFromString(author, from_ascii(" and "));

	if (jurabib_style && (authors.size() == 2 || authors.size() == 3)) {
		docstring shortauthor = familyName(authors[0])
			+ "/" + familyName(authors[1]);
		if (authors.size() == 3)
			shortauthor += "/" + familyName(authors[2]);
		return shortauthor;
	}

	if (authors.size() == 2 && authors[1] != "others")
		return bformat(from_ascii("%1$s and %2$s"),
			familyName(authors[0]), familyName(authors[1]));

	if (authors.size() >= 2)
		return bformat(from_ascii("%1$s et al."),
			familyName(authors[0]));

	return familyName(authors[0]);
}


docstring const BibTeXInfo::getAbbreviatedAuthor(Buffer const & buf, bool jurabib_style) const
{
	docstring const author = getAbbreviatedAuthor(jurabib_style);
	if (!is_bibtex_)
		return author;
	vector<docstring> const authors = getVectorFromString(author, from_ascii(" and "));
	if (authors.size() == 2)
		return bformat(buf.B_("%1$s and %2$s"), authors[0], authors[1]);
	docstring::size_type const idx = author.rfind(from_ascii(" et al."));
	if (idx != docstring::npos)
		return bformat(buf.B_("%1$s et al."), author.substr(0, idx));
	return author;
}


docstring const BibTeXInfo::getYear() const
{
	if (is_bibtex_)
		return operator[]("year");

	docstring const opt = label();
	if (opt.empty())
		return docstring();

	docstring authors;
	docstring tmp = split(opt, authors, '(');
	if (tmp.empty())
		// we don't have author (year)
		return docstring();
	docstring year;
	tmp = split(tmp, year, ')');
	return year;
}


docstring const BibTeXInfo::getXRef() const
{
	if (!is_bibtex_)
		return docstring();
	return operator[]("crossref");
}


namespace {

string parseOptions(string const & format, string & optkey,
		    string & ifpart, string & elsepart);

// Calls parseOptions to deal with an embedded option, such as:
//   {%number%[[, no.~%number%]]}
// which must appear at the start of format. ifelsepart gets the
// whole of the option, and we return what's left after the option.
// we return format if there is an error.
string parseEmbeddedOption(string const & format, string & ifelsepart)
{
	LASSERT(format[0] == '{' && format[1] == '%', return format);
	string optkey;
	string ifpart;
	string elsepart;
	string const rest = parseOptions(format, optkey, ifpart, elsepart);
	if (format == rest) { // parse error
		LYXERR0("ERROR! Couldn't parse `" << format <<"'.");
		return format;
	}
	LASSERT(rest.size() <= format.size(),
		{ ifelsepart = ""; return format; });
	ifelsepart = format.substr(0, format.size() - rest.size());
	return rest;
}


// Gets a "clause" from a format string, where the clause is
// delimited by '[[' and ']]'. Returns what is left after the
// clause is removed, and returns format if there is an error.
string getClause(string const & format, string & clause)
{
	string fmt = format;
	// remove '[['
	fmt = fmt.substr(2);
	// we'll remove characters from the front of fmt as we
	// deal with them
	while (!fmt.empty()) {
		if (fmt[0] == ']' && fmt.size() > 1 && fmt[1] == ']') {
			// that's the end
			fmt = fmt.substr(2);
			break;
		}
		// check for an embedded option
		if (fmt[0] == '{' && fmt.size() > 1 && fmt[1] == '%') {
			string part;
			string const rest = parseEmbeddedOption(fmt, part);
			if (fmt == rest) {
				LYXERR0("ERROR! Couldn't parse embedded option in `" << format <<"'.");
				return format;
			}
			clause += part;
			fmt = rest;
		} else { // it's just a normal character
				clause += fmt[0];
				fmt = fmt.substr(1);
		}
	}
	return fmt;
}


// parse an options string, which must appear at the start of the
// format parameter. puts the parsed bits in optkey, ifpart, and
// elsepart and returns what's left after the option is removed.
// if there's an error, it returns format itself.
string parseOptions(string const & format, string & optkey,
		    string & ifpart, string & elsepart)
{
	LASSERT(format[0] == '{' && format[1] == '%', return format);
	// strip '{%'
	string fmt = format.substr(2);
	size_t pos = fmt.find('%'); // end of key
	if (pos == string::npos) {
		LYXERR0("Error parsing  `" << format <<"'. Can't find end of key.");
		return format;
	}
	optkey = fmt.substr(0,pos);
	fmt = fmt.substr(pos + 1);
	// [[format]] should be next
	if (fmt[0] != '[' || fmt[1] != '[') {
		LYXERR0("Error parsing  `" << format <<"'. Can't find '[[' after key.");
		return format;
	}

	string curfmt = fmt;
	fmt = getClause(curfmt, ifpart);
	if (fmt == curfmt) {
		LYXERR0("Error parsing  `" << format <<"'. Couldn't get if clause.");
		return format;
	}

	if (fmt[0] == '}') // we're done, no else clause
		return fmt.substr(1);

	// else part should follow
	if (fmt[0] != '[' || fmt[1] != '[') {
		LYXERR0("Error parsing  `" << format <<"'. Can't find else clause.");
		return format;
	}

	curfmt = fmt;
	fmt = getClause(curfmt, elsepart);
	// we should be done
	if (fmt == curfmt || fmt[0] != '}') {
		LYXERR0("Error parsing  `" << format <<"'. Can't find end of option.");
		return format;
	}
	return fmt.substr(1);
}


} // anon namespace


docstring BibTeXInfo::expandFormat(string const & format,
		BibTeXInfo const * const xref, int & counter, Buffer const & buf,
		docstring before, docstring after, docstring dialog, bool next) const
{
	// incorrect use of macros could put us in an infinite loop
	static int max_passes = 5000;
	docstring ret; // return value
	string key;
	bool scanning_key = false;
	bool scanning_rich = false;

	CiteEngineType const engine_type = buf.params().citeEngineType();
	string fmt = format;
	// we'll remove characters from the front of fmt as we
	// deal with them
	while (!fmt.empty()) {
		if (counter++ > max_passes) {
			LYXERR0("Recursion limit reached while parsing `"
			        << format << "'.");
			return _("ERROR!");
		}

		char_type thischar = fmt[0];
		if (thischar == '%') {
			// beginning or end of key
			if (scanning_key) {
				// end of key
				scanning_key = false;
				// so we replace the key with its value, which may be empty
				if (key[0] == '!') {
					// macro
					string const val =
						buf.params().documentClass().getCiteMacro(engine_type, key);
					fmt = val + fmt.substr(1);
					continue;
				} else if (key[0] == '_') {
					// a translatable bit
					string const val =
						buf.params().documentClass().getCiteMacro(engine_type, key);
					docstring const trans =
						translateIfPossible(from_utf8(val), buf.params().language->code());
					ret += trans;
				} else {
					docstring const val =
						getValueForKey(key, buf, before, after, dialog, xref);
					if (!scanning_rich)
						ret += from_ascii("{!<span class=\"bib-" + key + "\">!}");
					ret += val;
					if (!scanning_rich)
						ret += from_ascii("{!</span>!}");
				}
			} else {
				// beginning of key
				key.clear();
				scanning_key = true;
			}
		}
		else if (thischar == '{') {
			// beginning of option?
			if (scanning_key) {
				LYXERR0("ERROR: Found `{' when scanning key in `" << format << "'.");
				return _("ERROR!");
			}
			if (fmt.size() > 1) {
				if (fmt[1] == '%') {
					// it is the beginning of an optional format
					string optkey;
					string ifpart;
					string elsepart;
					string const newfmt =
						parseOptions(fmt, optkey, ifpart, elsepart);
					if (newfmt == fmt) // parse error
						return _("ERROR!");
					fmt = newfmt;
					docstring const val =
						getValueForKey(optkey, buf, before, after, dialog, xref);
					if (optkey == "next" && next)
						ret += from_utf8(ifpart); // without expansion
					else if (!val.empty())
						ret += expandFormat(ifpart, xref, counter, buf,
							before, after, dialog, next);
					else if (!elsepart.empty())
						ret += expandFormat(elsepart, xref, counter, buf,
							before, after, dialog, next);
					// fmt will have been shortened for us already
					continue;
				}
				if (fmt[1] == '!') {
					// beginning of rich text
					scanning_rich = true;
					fmt = fmt.substr(2);
					ret += from_ascii("{!");
					continue;
				}
			}
			// we are here if '{' was not followed by % or !.
			// So it's just a character.
			ret += thischar;
		}
		else if (scanning_rich && thischar == '!'
		         && fmt.size() > 1 && fmt[1] == '}') {
			// end of rich text
			scanning_rich = false;
			fmt = fmt.substr(2);
			ret += from_ascii("!}");
			continue;
		}
		else if (scanning_key)
			key += char(thischar);
		else
			ret += thischar;
		fmt = fmt.substr(1);
	} // for loop
	if (scanning_key) {
		LYXERR0("Never found end of key in `" << format << "'!");
		return _("ERROR!");
	}
	if (scanning_rich) {
		LYXERR0("Never found end of rich text in `" << format << "'!");
		return _("ERROR!");
	}
	return ret;
}


docstring const & BibTeXInfo::getInfo(BibTeXInfo const * const xref,
	Buffer const & buf, bool richtext) const
{
	if (!richtext && !info_.empty())
		return info_;
	if (richtext && !info_richtext_.empty())
		return info_richtext_;

	if (!is_bibtex_) {
		BibTeXInfo::const_iterator it = find(from_ascii("ref"));
		info_ = it->second;
		return info_;
	}

	CiteEngineType const engine_type = buf.params().citeEngineType();
	DocumentClass const & dc = buf.params().documentClass();
	string const & format = dc.getCiteFormat(engine_type, to_utf8(entry_type_));
	int counter = 0;
	info_ = expandFormat(format, xref, counter, buf,
		docstring(), docstring(), docstring(), false);

	if (!info_.empty()) {
		info_richtext_ = convertLaTeXCommands(processRichtext(info_, true));
		info_ = convertLaTeXCommands(processRichtext(info_, false));
		if (richtext)
			return info_richtext_;
	}
	return info_;
}


docstring const BibTeXInfo::getLabel(BibTeXInfo const * const xref,
	Buffer const & buf, string const & format, bool richtext,
	docstring before, docstring after, docstring dialog, bool next) const
{
	docstring loclabel;

	int counter = 0;
	loclabel = expandFormat(format, xref, counter, buf,
		before, after, dialog, next);

	if (!loclabel.empty() && !next) {
		loclabel = processRichtext(loclabel, richtext);
		loclabel = convertLaTeXCommands(loclabel);
	}
	return loclabel;
}


docstring const & BibTeXInfo::operator[](docstring const & field) const
{
	BibTeXInfo::const_iterator it = find(field);
	if (it != end())
		return it->second;
	static docstring const empty_value = docstring();
	return empty_value;
}


docstring const & BibTeXInfo::operator[](string const & field) const
{
	return operator[](from_ascii(field));
}


docstring BibTeXInfo::getValueForKey(string const & oldkey, Buffer const & buf,
	docstring const & before, docstring const & after, docstring const & dialog,
	BibTeXInfo const * const xref) const
{
	string key = oldkey;
	bool cleanit = false;
	if (prefixIs(oldkey, "clean:")) {
		key = oldkey.substr(6);
		cleanit = true;
	}

	docstring ret = operator[](key);
	if (ret.empty() && xref)
		ret = (*xref)[key];
	if (ret.empty()) {
		// some special keys
		// FIXME: dialog, textbefore and textafter have nothing to do with this
		if (key == "dialog")
			ret = dialog;
		else if (key == "entrytype")
			ret = entry_type_;
		else if (key == "key")
			ret = bib_key_;
		else if (key == "label")
			ret = label_;
		else if (key == "modifier" && modifier_ != 0)
			ret = modifier_;
		else if (key == "abbrvauthor")
			// Special key to provide abbreviated author names.
			ret = getAbbreviatedAuthor(buf, false);
		else if (key == "shortauthor")
			// When shortauthor is not defined, jurabib automatically
			// provides jurabib-style abbreviated author names. We do
			// this as well.
			ret = getAbbreviatedAuthor(buf, true);
		else if (key == "shorttitle") {
			// When shorttitle is not defined, jurabib uses for `article'
			// and `periodical' entries the form `journal volume [year]'
			// and for other types of entries it uses the `title' field.
			if (entry_type_ == "article" || entry_type_ == "periodical")
				ret = operator[]("journal") + " " + operator[]("volume")
					+ " [" + operator[]("year") + "]";
			else
				ret = operator[]("title");
		} else if (key == "bibentry") {
			// Special key to provide the full bibliography entry: see getInfo()
			CiteEngineType const engine_type = buf.params().citeEngineType();
			DocumentClass const & dc = buf.params().documentClass();
			string const & format = dc.getCiteFormat(engine_type, to_utf8(entry_type_));
			int counter = 0;
			ret = expandFormat(format, xref, counter, buf,
				docstring(), docstring(), docstring(), false);
		} else if (key == "textbefore")
			ret = before;
		else if (key == "textafter")
			ret = after;
		else if (key == "year")
			ret = getYear();
	}
	if (cleanit)
		return html::cleanAttr(ret);

	return ret;
}


//////////////////////////////////////////////////////////////////////
//
// BiblioInfo
//
//////////////////////////////////////////////////////////////////////

namespace {

// A functor for use with sort, leading to case insensitive sorting
class compareNoCase: public binary_function<docstring, docstring, bool>
{
public:
	bool operator()(docstring const & s1, docstring const & s2) const {
		return compare_no_case(s1, s2) < 0;
	}
};

} // namespace anon


vector<docstring> const BiblioInfo::getKeys() const
{
	vector<docstring> bibkeys;
	BiblioInfo::const_iterator it  = begin();
	for (; it != end(); ++it)
		bibkeys.push_back(it->first);
	sort(bibkeys.begin(), bibkeys.end(), compareNoCase());
	return bibkeys;
}


vector<docstring> const BiblioInfo::getFields() const
{
	vector<docstring> bibfields;
	set<docstring>::const_iterator it = field_names_.begin();
	set<docstring>::const_iterator end = field_names_.end();
	for (; it != end; ++it)
		bibfields.push_back(*it);
	sort(bibfields.begin(), bibfields.end());
	return bibfields;
}


vector<docstring> const BiblioInfo::getEntries() const
{
	vector<docstring> bibentries;
	set<docstring>::const_iterator it = entry_types_.begin();
	set<docstring>::const_iterator end = entry_types_.end();
	for (; it != end; ++it)
		bibentries.push_back(*it);
	sort(bibentries.begin(), bibentries.end());
	return bibentries;
}


docstring const BiblioInfo::getAbbreviatedAuthor(docstring const & key, Buffer const & buf) const
{
	BiblioInfo::const_iterator it = find(key);
	if (it == end())
		return docstring();
	BibTeXInfo const & data = it->second;
	return data.getAbbreviatedAuthor(buf, false);
}


docstring const BiblioInfo::getCiteNumber(docstring const & key) const
{
	BiblioInfo::const_iterator it = find(key);
	if (it == end())
		return docstring();
	BibTeXInfo const & data = it->second;
	return data.citeNumber();
}


docstring const BiblioInfo::getYear(docstring const & key, bool use_modifier) const
{
	BiblioInfo::const_iterator it = find(key);
	if (it == end())
		return docstring();
	BibTeXInfo const & data = it->second;
	docstring year = data.getYear();
	if (year.empty()) {
		// let's try the crossref
		docstring const xref = data.getXRef();
		if (xref.empty())
			// no luck
			return docstring();
		BiblioInfo::const_iterator const xrefit = find(xref);
		if (xrefit == end())
			// no luck again
			return docstring();
		BibTeXInfo const & xref_data = xrefit->second;
		year = xref_data.getYear();
	}
	if (use_modifier && data.modifier() != 0)
		year += data.modifier();
	return year;
}


docstring const BiblioInfo::getYear(docstring const & key, Buffer const & buf, bool use_modifier) const
{
	docstring const year = getYear(key, use_modifier);
	if (year.empty())
		return buf.B_("No year");
	return year;
}


docstring const BiblioInfo::getInfo(docstring const & key,
	Buffer const & buf, bool richtext) const
{
	BiblioInfo::const_iterator it = find(key);
	if (it == end())
		return docstring(_("Bibliography entry not found!"));
	BibTeXInfo const & data = it->second;
	BibTeXInfo const * xrefptr = 0;
	docstring const xref = data.getXRef();
	if (!xref.empty()) {
		BiblioInfo::const_iterator const xrefit = find(xref);
		if (xrefit != end())
			xrefptr = &(xrefit->second);
	}
	return data.getInfo(xrefptr, buf, richtext);
}


docstring const BiblioInfo::getLabel(vector<docstring> const & keys,
	Buffer const & buf, string const & style, bool richtext,
	docstring const & before, docstring const & after, docstring const & dialog) const
{
	CiteEngineType const engine_type = buf.params().citeEngineType();
	DocumentClass const & dc = buf.params().documentClass();
	string const & format = dc.getCiteFormat(engine_type, style, "cite");
	docstring ret = from_utf8(format);
	vector<docstring>::const_iterator key = keys.begin();
	vector<docstring>::const_iterator ken = keys.end();
	for (; key != ken; ++key) {
		BiblioInfo::const_iterator it = find(*key);
		BibTeXInfo empty_data;
		empty_data.key(*key);
		BibTeXInfo & data = empty_data;
		BibTeXInfo const * xrefptr = 0;
		if (it != end()) {
			data = it->second;
			docstring const xref = data.getXRef();
			if (!xref.empty()) {
				BiblioInfo::const_iterator const xrefit = find(xref);
				if (xrefit != end())
					xrefptr = &(xrefit->second);
			}
		}
		ret = data.getLabel(xrefptr, buf, to_utf8(ret), richtext,
			before, after, dialog, key+1 != ken);
	}
	return ret;
}


bool BiblioInfo::isBibtex(docstring const & key) const
{
	BiblioInfo::const_iterator it = find(key);
	if (it == end())
		return false;
	return it->second.isBibTeX();
}


vector<docstring> const BiblioInfo::getCiteStrings(
	vector<docstring> const & keys, vector<CitationStyle> const & styles,
	Buffer const & buf, bool richtext, docstring const & before,
	docstring const & after, docstring const & dialog) const
{
	if (empty())
		return vector<docstring>();

	string style;
	vector<docstring> vec(styles.size());
	for (size_t i = 0; i != vec.size(); ++i) {
		style = styles[i].cmd;
		vec[i] = getLabel(keys, buf, style, richtext, before, after, dialog);
	}

	return vec;
}


void BiblioInfo::mergeBiblioInfo(BiblioInfo const & info)
{
	bimap_.insert(info.begin(), info.end());
	field_names_.insert(info.field_names_.begin(), info.field_names_.end());
	entry_types_.insert(info.entry_types_.begin(), info.entry_types_.end());
}


namespace {

// used in xhtml to sort a list of BibTeXInfo objects
bool lSorter(BibTeXInfo const * lhs, BibTeXInfo const * rhs)
{
	docstring const lauth = lhs->getAbbreviatedAuthor();
	docstring const rauth = rhs->getAbbreviatedAuthor();
	docstring const lyear = lhs->getYear();
	docstring const ryear = rhs->getYear();
	docstring const ltitl = lhs->operator[]("title");
	docstring const rtitl = rhs->operator[]("title");
	return  (lauth < rauth)
		|| (lauth == rauth && lyear < ryear)
		|| (lauth == rauth && lyear == ryear && ltitl < rtitl);
}

}


void BiblioInfo::collectCitedEntries(Buffer const & buf)
{
	cited_entries_.clear();
	// We are going to collect all the citation keys used in the document,
	// getting them from the TOC.
	// FIXME We may want to collect these differently, in the first case,
	// so that we might have them in order of appearance.
	set<docstring> citekeys;
	Toc const & toc = buf.tocBackend().toc("citation");
	Toc::const_iterator it = toc.begin();
	Toc::const_iterator const en = toc.end();
	for (; it != en; ++it) {
		if (it->str().empty())
			continue;
		vector<docstring> const keys = getVectorFromString(it->str());
		citekeys.insert(keys.begin(), keys.end());
	}
	if (citekeys.empty())
		return;

	// We have a set of the keys used in this document.
	// We will now convert it to a list of the BibTeXInfo objects used in
	// this document...
	vector<BibTeXInfo const *> bi;
	set<docstring>::const_iterator cit = citekeys.begin();
	set<docstring>::const_iterator const cen = citekeys.end();
	for (; cit != cen; ++cit) {
		BiblioInfo::const_iterator const bt = find(*cit);
		if (bt == end() || !bt->second.isBibTeX())
			continue;
		bi.push_back(&(bt->second));
	}
	// ...and sort it.
	sort(bi.begin(), bi.end(), lSorter);

	// Now we can write the sorted keys
	vector<BibTeXInfo const *>::const_iterator bit = bi.begin();
	vector<BibTeXInfo const *>::const_iterator ben = bi.end();
	for (; bit != ben; ++bit)
		cited_entries_.push_back((*bit)->key());
}


void BiblioInfo::makeCitationLabels(Buffer const & buf)
{
	collectCitedEntries(buf);
	CiteEngineType const engine_type = buf.params().citeEngineType();
	bool const numbers = (engine_type == ENGINE_TYPE_NUMERICAL);

	int keynumber = 0;
	char modifier = 0;
	// used to remember the last one we saw
	// we'll be comparing entries to see if we need to add
	// modifiers, like "1984a"
	map<docstring, BibTeXInfo>::iterator last;

	vector<docstring>::const_iterator it = cited_entries_.begin();
	vector<docstring>::const_iterator const en = cited_entries_.end();
	for (; it != en; ++it) {
		map<docstring, BibTeXInfo>::iterator const biit = bimap_.find(*it);
		// this shouldn't happen, but...
		if (biit == bimap_.end())
			// ...fail gracefully, anyway.
			continue;
		BibTeXInfo & entry = biit->second;
		if (numbers) {
			docstring const num = convert<docstring>(++keynumber);
			entry.setCiteNumber(num);
		} else {
			if (it != cited_entries_.begin()
			    && entry.getAbbreviatedAuthor() == last->second.getAbbreviatedAuthor()
			    // we access the year via getYear() so as to get it from the xref,
			    // if we need to do so
			    && getYear(entry.key()) == getYear(last->second.key())) {
				if (modifier == 0) {
					// so the last one should have been 'a'
					last->second.setModifier('a');
					modifier = 'b';
				} else if (modifier == 'z')
					modifier = 'A';
				else
					modifier++;
			} else {
				modifier = 0;
			}
			entry.setModifier(modifier);
			// remember the last one
			last = biit;
		}
	}
	// Set the labels
	it = cited_entries_.begin();
	for (; it != en; ++it) {
		map<docstring, BibTeXInfo>::iterator const biit = bimap_.find(*it);
		// this shouldn't happen, but...
		if (biit == bimap_.end())
			// ...fail gracefully, anyway.
			continue;
		BibTeXInfo & entry = biit->second;
		if (numbers) {
			entry.label(entry.citeNumber());
		} else {
			docstring const auth = entry.getAbbreviatedAuthor(buf, false);
			// we do it this way so as to access the xref, if necessary
			// note that this also gives us the modifier
			docstring const year = getYear(*it, buf, true);
			if (!auth.empty() && !year.empty())
				entry.label(auth + ' ' + year);
			else
				entry.label(entry.key());
		}
	}
}


//////////////////////////////////////////////////////////////////////
//
// CitationStyle
//
//////////////////////////////////////////////////////////////////////


CitationStyle citationStyleFromString(string const & command)
{
	CitationStyle cs;
	if (command.empty())
		return cs;

	string cmd = command;
	if (cmd[0] == 'C') {
		cs.forceUpperCase = true;
		cmd[0] = 'c';
	}

	size_t const n = cmd.size() - 1;
	if (cmd[n] == '*') {
		cs.fullAuthorList = true;
		cmd = cmd.substr(0, n);
	}

	cs.cmd = cmd;
	return cs;
}


string citationStyleToString(const CitationStyle & cs)
{
	string cmd = cs.cmd;
	if (cs.forceUpperCase)
		cmd[0] = 'C';
	if (cs.fullAuthorList)
		cmd += '*';
	return cmd;
}

} // namespace lyx