lyx_mirror/src/BiblioInfo.h
Richard Heck 22452958f9 The BibTeX bibliography only includes BibTeX entries.
git-svn-id: svn://svn.lyx.org/lyx/lyx-devel/trunk@32296 a592a061-630c-0410-9148-cb99ea01b6c8
2009-12-03 19:54:12 +00:00

203 lines
6.7 KiB
C++

// -*- C++ -*-
/**
* \file BiblioInfo.h
* 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
*
* Full author contact details are available in file CREDITS.
*/
#ifndef BIBLIOINFO_H
#define BIBLIOINFO_H
#include "support/docstring.h"
#include "Citation.h"
#include <vector>
#include <map>
#include <set>
namespace lyx {
class Buffer;
/// FIXME: To Citation.cpp?
/// Returns a vector of available Citation styles.
std::vector<CiteStyle> citeStyles(CiteEngine);
/// \param latex_str a LaTeX command, "cite", "Citep*", etc
CitationStyle citationStyleFromString(std::string const & latex_str);
/// the other way round
std::string citationStyleToString(CitationStyle const &);
/// Class to represent information about a BibTeX or
/// bibliography entry.
/// This class basically wraps a std::map, and many of its
/// methods simply delegate to the corresponding methods of
/// std::map.
class BibTeXInfo {
public:
/// The keys are BibTeX fields (e.g., author, title, etc),
/// and the values are the associated field values.
typedef std::map<docstring, docstring>::const_iterator const_iterator;
///
BibTeXInfo() : is_bibtex_(true) {}
/// argument sets isBibTeX_, so should be false only if it's coming
/// from a bibliography environment
BibTeXInfo(bool ib) : is_bibtex_(ib) {}
/// constructor that sets the entryType
BibTeXInfo(docstring const & key, docstring const & type);
///
bool hasField(docstring const & field) const;
/// \return the short form of an authorlist
docstring const getAbbreviatedAuthor() const;
///
docstring const getYear() const;
///
docstring const getXRef() const;
/// \return formatted BibTeX data suitable for framing.
/// \param pointer to crossref information
docstring const & getInfo(BibTeXInfo const * const xref = 0) const;
///
int count(docstring const & f) const { return bimap_.count(f); }
///
const_iterator find(docstring const & f) const { return bimap_.find(f); }
///
const_iterator end() const { return bimap_.end(); }
/// \return value for field f
/// note that this will create an empty field if it does not exist
docstring & operator[](docstring const & f)
{ return bimap_[f]; }
/// \return value for field f
/// this one, since it is const, will simply return docstring() if
/// we don't have the field and will NOT create an empty field
docstring const & operator[](docstring const & field) const;
///
docstring const & operator[](std::string const & field) const;
///
docstring const & allData() const { return all_data_; }
///
void setAllData(docstring const & d) { all_data_ = d; }
///
void label(docstring const & d) { label_= d; }
///
docstring const & label() const { return label_; }
///
docstring const & key() const { return bib_key_; }
///
docstring entryType() const { return entry_type_; }
///
bool isBibTeX() const { return is_bibtex_; }
private:
/// like operator[], except, if the field is empty, it will attempt
/// to get the data from xref BibTeXInfo object, which would normally
/// be the one referenced in the crossref field.
docstring getValueForKey(std::string const & key,
BibTeXInfo const * const xref = 0) const;
/// true if from BibTeX; false if from bibliography environment
bool is_bibtex_;
/// the BibTeX key for this entry
docstring bib_key_;
/// the label that will appear in citations
/// this is easily set from bibliography environments, but has
/// to be calculated for entries we get from BibTeX
docstring label_;
/// a single string containing all BibTeX data associated with this key
docstring all_data_;
/// the BibTeX entry type (article, book, incollection, ...)
docstring entry_type_;
/// a cache for getInfo()
mutable docstring info_;
/// our map: <field, value>
std::map <docstring, docstring> bimap_;
};
/// Class to represent a collection of bibliographical data, whether
/// from BibTeX or from bibliography environments.
class BiblioInfo {
public:
/// bibliography key --> data for that key
typedef std::map<docstring, BibTeXInfo>::const_iterator const_iterator;
/// \return a sorted vector of bibliography keys
std::vector<docstring> const getKeys() const;
/// \return a sorted vector of present BibTeX fields
std::vector<docstring> const getFields() const;
/// \return a sorted vector of BibTeX entry types in use
std::vector<docstring> const getEntries() const;
/// \return the short form of an authorlist
docstring const getAbbreviatedAuthor(docstring const & key) const;
/// \return the year from the bibtex data record
/// Note that this will get the year from the crossref if it's
/// not present in the record itself
docstring const getYear(docstring const & key) const;
/// \return formatted BibTeX data associated with a given key.
/// Empty if no info exists.
/// Note that this will retrieve data from the crossref as needed.
docstring const getInfo(docstring const & key) const;
/**
* "Translates" the available Citation Styles into strings for a given key,
* either numerical or author-year depending upon the active engine. (See
* below for those methods.)
*/
std::vector<docstring> const
getCiteStrings(docstring const & key, Buffer const & buf) const;
/**
* "Translates" the available Citation Styles into strings for a given key.
* The returned string is displayed by the GUI.
* [XX] is used in place of the actual reference
* Eg, the vector will contain: [XX], Jones et al. [XX], ...
* User supplies :
* the key,
* the buffer
*/
std::vector<docstring> const
getNumericalStrings(docstring const & key, Buffer const & buf) const;
/**
* "Translates" the available Citation Styles into strings for a given key.
* The returned string is displayed by the GUI.
* Eg, the vector will contain:
* Jones et al. (1990), (Jones et al. 1990), Jones et al. 1990, ...
* User supplies :
* the key,
* the buffer
*/
std::vector<docstring> const
getAuthorYearStrings(docstring const & key, Buffer const & buf) const;
///
const_iterator begin() const { return bimap_.begin(); }
///
void clear() { bimap_.clear(); }
///
bool empty() const { return bimap_.empty(); }
///
const_iterator end() const { return bimap_.end(); }
///
const_iterator find(docstring const & f) const { return bimap_.find(f); }
///
void mergeBiblioInfo(BiblioInfo const & info);
///
BibTeXInfo & operator[](docstring const & f) { return bimap_[f]; }
///
void addFieldName(docstring const & f) { field_names_.insert(f); }
///
void addEntryType(docstring const & f) { entry_types_.insert(f); }
private:
///
std::set<docstring> field_names_;
///
std::set<docstring> entry_types_;
/// our map: keys --> BibTeXInfo
std::map<docstring, BibTeXInfo> bimap_;
};
} // namespace lyx
#endif // BIBLIOINFO_H