lyx_mirror/src/frontends/qt4/GuiBibtex.cpp
Juergen Spitzmueller f75b081551 Add support for mixed-encoded biblatex files
Biblatex 3.12 allows to specifiy individual encodings per bib file
via \addbibresource[bibencoding=<encoding>].

This is now supported via GuiBibtex.
2019-03-29 15:45:55 +01:00

635 lines
16 KiB
C++

/**
* \file GuiBibtex.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author John Levon
* \author Herbert Voß
* \author Angus Leeming
* \author Jürgen Spitzmüller
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "GuiBibtex.h"
#include "Buffer.h"
#include "BufferParams.h"
#include "CiteEnginesList.h"
#include "Encoding.h"
#include "FuncRequest.h"
#include "GuiApplication.h"
#include "LyXRC.h"
#include "qt_helpers.h"
#include "Validator.h"
#include "ButtonPolicy.h"
#include "frontends/alert.h"
#include "insets/InsetBibtex.h"
#include "support/debug.h"
#include "support/ExceptionMessage.h"
#include "support/FileName.h"
#include "support/filetools.h" // changeExtension
#include "support/gettext.h"
#include "support/lstrings.h"
#include <QDialogButtonBox>
#include <QPushButton>
#include <QListWidget>
#include <QCheckBox>
#include <QLineEdit>
using namespace std;
using namespace lyx::support;
namespace lyx {
namespace frontend {
GuiBibtex::GuiBibtex(GuiView & lv)
: GuiDialog(lv, "bibtex", qt_("BibTeX Bibliography")),
params_(insetCode("bibtex"))
{
setupUi(this);
QDialog::setModal(true);
setWindowModality(Qt::WindowModal);
// The filter bar
filter_ = new FancyLineEdit(this);
filter_->setButtonPixmap(FancyLineEdit::Right, getPixmap("images/", "editclear", "svgz,png"));
filter_->setButtonVisible(FancyLineEdit::Right, true);
filter_->setButtonToolTip(FancyLineEdit::Right, qt_("Clear text"));
filter_->setAutoHideButton(FancyLineEdit::Right, true);
filter_->setPlaceholderText(qt_("All avail. databases"));
filterBarL->addWidget(filter_, 0);
findKeysLA->setBuddy(filter_);
connect(buttonBox, SIGNAL(clicked(QAbstractButton *)),
this, SLOT(slotButtonBox(QAbstractButton *)));
connect(stylePB, SIGNAL(clicked()),
this, SLOT(browseBstPressed()));
connect(styleCB, SIGNAL(editTextChanged(QString)),
this, SLOT(change_adaptor()));
connect(bibtocCB, SIGNAL(clicked()),
this, SLOT(change_adaptor()));
connect(btPrintCO, SIGNAL(activated(int)),
this, SLOT(change_adaptor()));
connect(rescanPB, SIGNAL(clicked()),
this, SLOT(rescanClicked()));
connect(biblatexOptsLE, SIGNAL(textChanged(QString)),
this, SLOT(change_adaptor()));
connect(bibEncodingCO, SIGNAL(activated(int)),
this, SLOT(change_adaptor()));
connect(browseBibPB, SIGNAL(clicked()),
this, SLOT(browseBibPressed()));
selected_model_.insertColumns(0, 1);
selectionManager = new GuiSelectionManager(this, availableLV, selectedLV,
addBibPB, deletePB, upPB, downPB, &available_model_, &selected_model_);
connect(selectionManager, SIGNAL(selectionChanged()),
this, SLOT(databaseChanged()));
connect(selectionManager, SIGNAL(updateHook()),
this, SLOT(selUpdated()));
connect(selectionManager, SIGNAL(okHook()),
this, SLOT(on_buttonBox_accepted()));
connect(filter_, SIGNAL(rightButtonClicked()),
this, SLOT(resetFilter()));
connect(filter_, SIGNAL(textEdited(QString)),
this, SLOT(filterChanged(QString)));
connect(filter_, SIGNAL(returnPressed()),
this, SLOT(filterPressed()));
#if (QT_VERSION < 0x050000)
connect(filter_, SIGNAL(downPressed()),
availableLV, SLOT(setFocus()));
#else
connect(filter_, &FancyLineEdit::downPressed,
availableLV, [=](){ focusAndHighlight(availableLV); });
#endif
availableLV->setToolTip(formatToolTip(qt_("This list consists of all databases that are indexed by LaTeX and thus are found without a file path. "
"This is usually everything in the bib/ subdirectory of LaTeX's texmf tree. "
"If you want to reuse your own database, this is the place you should store it.")));
bc().setPolicy(ButtonPolicy::NoRepeatedApplyReadOnlyPolicy);
bc().setOK(buttonBox->button(QDialogButtonBox::Ok));
bc().setApply(buttonBox->button(QDialogButtonBox::Apply));
bc().setCancel(buttonBox->button(QDialogButtonBox::Cancel));
bc().addReadOnly(stylePB);
bc().addReadOnly(styleCB);
bc().addReadOnly(bibtocCB);
bc().addReadOnly(bibEncodingCO);
#if (QT_VERSION < 0x050000)
selectedLV->horizontalHeader()->setResizeMode(QHeaderView::Stretch);
#else
selectedLV->horizontalHeader()->setSectionResizeMode(QHeaderView::Stretch);
#endif
// Always put the default encoding in the first position.
bibEncodingCO->addItem(qt_("Document Encoding"), "default");
for (auto const & encvar : encodings) {
if (!encvar.unsafe() && !encvar.guiName().empty())
encodings_.insert(qt_(encvar.guiName()), toqstr(encvar.name()));
}
QMap<QString, QString>::const_iterator it = encodings_.constBegin();
while (it != encodings_.constEnd()) {
bibEncodingCO->addItem(it.key(), it.value());
++it;
}
setFocusProxy(filter_);
}
void GuiBibtex::init()
{
all_bibs_ = bibFiles(false);
available_model_.setStringList(all_bibs_);
QString bibs = toqstr(params_["bibfiles"]);
if (bibs.isEmpty())
selected_bibs_.clear();
else
selected_bibs_ = bibs.split(",");
setSelectedBibs(selected_bibs_);
buttonBox->button(QDialogButtonBox::Apply)->setEnabled(false);
buttonBox->button(QDialogButtonBox::Ok)->setEnabled(false);
selectionManager->update();
}
void GuiBibtex::change_adaptor()
{
setButtons();
changed();
}
void GuiBibtex::setButtons()
{
int const srows = selectedLV->model()->rowCount();
buttonBox->button(QDialogButtonBox::Apply)->setEnabled(srows > 0);
buttonBox->button(QDialogButtonBox::Ok)->setEnabled(srows > 0);
}
void GuiBibtex::selUpdated()
{
selectionManager->update();
changed();
}
void GuiBibtex::on_buttonBox_accepted()
{
applyView();
clearSelection();
hide();
}
void GuiBibtex::browseBstPressed()
{
QString const file = browseBst(QString());
if (file.isEmpty())
return;
QString const filen = changeExtension(file, "");
bool present = false;
int pres = 0;
for (int i = 0; i != styleCB->count(); ++i) {
if (styleCB->itemText(i) == filen) {
present = true;
pres = i;
}
}
if (!present)
styleCB->insertItem(0, filen);
styleCB->setCurrentIndex(pres);
changed();
}
void GuiBibtex::browseBibPressed()
{
QString const file = browseBib(QString()).trimmed();
if (file.isEmpty())
return;
QString const f = changeExtension(file, "");
if (!selected_bibs_.contains(f)) {
selected_bibs_.append(f);
setSelectedBibs(selected_bibs_);
changed();
}
}
void GuiBibtex::rescanClicked()
{
rescanBibStyles();
updateContents();
}
void GuiBibtex::clearSelection()
{
selected_bibs_.clear();
setSelectedBibs(selected_bibs_);
}
void GuiBibtex::setSelectedBibs(QStringList const sl)
{
selected_model_.clear();
QStringList headers;
headers << qt_("Database")
<< qt_("File Encoding");
selected_model_.setHorizontalHeaderLabels(headers);
bool const moreencs = usingBiblatex() && sl.count() > 1;
selectedLV->setColumnHidden(1, !moreencs);
selectedLV->verticalHeader()->setVisible(false);
selectedLV->horizontalHeader()->setVisible(moreencs);
if (moreencs) {
bibEncodingLA->setText(qt_("General E&ncoding:"));
bibEncodingCO->setToolTip(qt_("If your bibliography databases use a different "
"encoding than the LyX document, specify it here. "
"If indivivual databases have different encodings, "
"you can set it in the list above."));
} else {
bibEncodingLA->setText(qt_("E&ncoding:"));
bibEncodingCO->setToolTip(qt_("If your bibliography databases use a different "
"encoding than the LyX document, specify it here"));
}
QStringList::const_iterator it = sl.begin();
QStringList::const_iterator end = sl.end();
for (int i = 0; it != end; ++it, ++i) {
QStandardItem * si = new QStandardItem();
si->setData(*it);
si->setText(*it);
si->setToolTip(*it);
si->setEditable(false);
selected_model_.insertRow(i, si);
QComboBox * cb = new QComboBox;
cb->addItem(qt_("General Encoding"), "general");
cb->addItem(qt_("Document Encoding"), "auto");
QMap<QString, QString>::const_iterator it = encodings_.constBegin();
while (it != encodings_.constEnd()) {
cb->addItem(it.key(), it.value());
++it;
}
cb->setToolTip(qt_("If this bibliography database uses a different "
"encoding than specified below, set it here"));
selectedLV->setIndexWidget(selected_model_.index(i, 1), cb);
}
}
QStringList GuiBibtex::selectedBibs()
{
QStringList res;
for (int i = 0; i != selected_model_.rowCount(); ++i) {
QStandardItem const * item = selected_model_.item(i);
if (item)
res.append(item->text());
}
return res;
}
void GuiBibtex::databaseChanged()
{
QString const item = selectionManager->getSelectedIndex().data().toString();
if (!selected_bibs_.contains(item)) {
selected_bibs_.append(item);
} else
selected_bibs_ = selectedBibs();
setSelectedBibs(selected_bibs_);
}
void GuiBibtex::updateContents()
{
bool bibtopic = usingBibtopic();
bool biblatex = usingBiblatex();
if (biblatex)
setTitle(qt_("Biblatex Bibliography"));
else
setTitle(qt_("BibTeX Bibliography"));
QString const bibstyle = styleFile();
bibtocCB->setChecked(bibtotoc() && !bibtopic);
bibtocCB->setEnabled(!bibtopic);
btPrintCO->clear();
btPrintCO->addItem(qt_("all cited references"), toqstr("btPrintCited"));
if (bibtopic)
btPrintCO->addItem(qt_("all uncited references"), toqstr("btPrintNotCited"));
btPrintCO->addItem(qt_("all references"), toqstr("btPrintAll"));
if (usingBiblatex() && !buffer().masterParams().multibib.empty())
btPrintCO->addItem(qt_("all reference units"), toqstr("bibbysection"));
docstring btprint = params_["btprint"];
if (btprint.empty())
// default
btprint = from_ascii("btPrintCited");
btPrintCO->setCurrentIndex(btPrintCO->findData(toqstr(btprint)));
docstring encoding = params_["encoding"];
if (encoding.empty())
// default
encoding = from_ascii("default");
bibEncodingCO->setCurrentIndex(bibEncodingCO->findData(toqstr(encoding)));
// Only useful for biblatex
biblatexOptsLA->setVisible(biblatex);
biblatexOptsLE->setVisible(biblatex);
// only useful for BibTeX
bstGB->setVisible(!biblatex);
if (!biblatex) {
styleCB->clear();
int item_nr = -1;
QStringList const str = bibStyles();
for (int i = 0; i != str.count(); ++i) {
QString item = changeExtension(str[i], "");
if (item == bibstyle)
item_nr = i;
styleCB->addItem(item);
}
if (item_nr == -1 && !bibstyle.isEmpty()) {
styleCB->addItem(bibstyle);
item_nr = styleCB->count() - 1;
}
if (item_nr != -1)
styleCB->setCurrentIndex(item_nr);
else
styleCB->clearEditText();
} else
biblatexOptsLE->setText(toqstr(params_["biblatexopts"]));
setFileEncodings(getVectorFromString(params_["file_encodings"], from_ascii("\t")));
}
void GuiBibtex::applyView()
{
docstring dbs;
unsigned int maxCount = selected_bibs_.count();
for (unsigned int i = 0; i < maxCount; i++) {
if (i != 0)
dbs += ',';
QString item = selected_bibs_.at(i);
docstring bibfile = qstring_to_ucs4(item);
dbs += bibfile;
}
params_["bibfiles"] = dbs;
docstring const bibstyle = qstring_to_ucs4(styleCB->currentText());
bool const bibtotoc = bibtocCB->isChecked();
if (bibtotoc && !bibstyle.empty()) {
// both bibtotoc and style
params_["options"] = "bibtotoc," + bibstyle;
} else if (bibtotoc) {
// bibtotoc and no style
params_["options"] = from_ascii("bibtotoc");
} else {
// only style. An empty one is valid, because some
// documentclasses have an own \bibliographystyle{}
// command!
params_["options"] = bibstyle;
}
params_["biblatexopts"] = qstring_to_ucs4(biblatexOptsLE->text());
params_["btprint"] = qstring_to_ucs4(btPrintCO->itemData(btPrintCO->currentIndex()).toString());
params_["encoding"] = qstring_to_ucs4(bibEncodingCO->itemData(bibEncodingCO->currentIndex()).toString());
if (usingBiblatex())
params_["file_encodings"] = getStringFromVector(getFileEncodings(), from_ascii("\t"));
}
QString GuiBibtex::browseBib(QString const & in_name) const
{
QString const label1 = qt_("D&ocuments");
QString const dir1 = toqstr(lyxrc.document_path);
QStringList const filter(qt_("BibTeX Databases (*.bib)"));
return browseRelToParent(in_name, bufferFilePath(),
qt_("Select a BibTeX database to add"), filter, false, label1, dir1);
}
QString GuiBibtex::browseBst(QString const & in_name) const
{
QString const label1 = qt_("D&ocuments");
QString const dir1 = toqstr(lyxrc.document_path);
QStringList const filter(qt_("BibTeX Styles (*.bst)"));
return browseRelToParent(in_name, bufferFilePath(),
qt_("Select a BibTeX style"), filter, false, label1, dir1);
}
QStringList GuiBibtex::bibStyles() const
{
QStringList sdata = texFileList("bstFiles.lst");
// test whether we have a valid list, otherwise run rescan
if (sdata.isEmpty()) {
rescanBibStyles();
sdata = texFileList("bstFiles.lst");
}
for (int i = 0; i != sdata.size(); ++i)
sdata[i] = onlyFileName(sdata[i]);
// sort on filename only (no path)
sdata.sort();
return sdata;
}
QStringList GuiBibtex::bibFiles(bool const extension) const
{
QStringList sdata = texFileList("bibFiles.lst");
// test whether we have a valid list, otherwise run rescan
if (sdata.isEmpty()) {
rescanBibStyles();
sdata = texFileList("bibFiles.lst");
}
for (int i = 0; i != sdata.size(); ++i)
sdata[i] = extension ? onlyFileName(sdata[i])
: changeExtension(onlyFileName(sdata[i]), "");
// sort on filename only (no path)
sdata.sort();
return sdata;
}
vector<docstring> GuiBibtex::getFileEncodings()
{
vector<docstring> res;
for (int i = 0; i != selected_model_.rowCount(); ++i) {
QStandardItem const * key = selected_model_.item(i, 0);
QComboBox * cb = qobject_cast<QComboBox*>(selectedLV->indexWidget(selected_model_.index(i, 1)));
QString fenc = cb ? cb->itemData(cb->currentIndex()).toString() : QString();
if (key && !key->text().isEmpty() && !fenc.isEmpty() && fenc != "general")
res.push_back(qstring_to_ucs4(key->text()) + " " + qstring_to_ucs4(fenc));
}
return res;
}
void GuiBibtex::setFileEncodings(vector<docstring> const m)
{
for (docstring const & s: m) {
docstring key;
QString enc = toqstr(split(s, key, ' '));
QModelIndexList qmil =
selected_model_.match(selected_model_.index(0, 0),
Qt::DisplayRole, toqstr(key), 1,
Qt::MatchFlags(Qt::MatchExactly | Qt::MatchWrap));
if (!qmil.empty()) {
QComboBox * cb = qobject_cast<QComboBox*>(selectedLV->indexWidget(selected_model_.index(qmil.front().row(), 1)));
cb->setCurrentIndex(cb->findData(enc));
}
}
}
void GuiBibtex::rescanBibStyles() const
{
if (usingBiblatex())
rescanTexStyles("bib");
else
rescanTexStyles("bst bib");
}
void GuiBibtex::findText(QString const & text)
{
QStringList const result = bibFiles(false).filter(text);
available_model_.setStringList(result);
}
void GuiBibtex::filterChanged(const QString & text)
{
if (!text.isEmpty()) {
findText(filter_->text());
return;
}
findText(filter_->text());
filter_->setFocus();
}
void GuiBibtex::filterPressed()
{
findText(filter_->text());
}
void GuiBibtex::resetFilter()
{
filter_->setText(QString());
findText(filter_->text());
}
bool GuiBibtex::usingBibtopic() const
{
return buffer().params().useBibtopic();
}
bool GuiBibtex::bibtotoc() const
{
return prefixIs(to_utf8(params_["options"]), "bibtotoc");
}
bool GuiBibtex::usingBiblatex() const
{
return buffer().masterBuffer()->params().useBiblatex();
}
QString GuiBibtex::styleFile() const
{
// the different bibtex packages have (and need) their
// own "plain" stylefiles
QString defaultstyle = toqstr(buffer().params().defaultBiblioStyle());
QString bst = toqstr(params_["options"]);
if (bibtotoc()){
// bibstyle exists?
int pos = bst.indexOf(',');
if (pos != -1) {
// FIXME: check
// docstring bibtotoc = from_ascii("bibtotoc");
// bst = split(bst, bibtotoc, ',');
bst = bst.mid(pos + 1);
} else {
bst.clear();
}
}
// propose default style file for new insets
// existing insets might have (legally) no bst files
// (if the class already provides a style)
if (bst.isEmpty() && params_["bibfiles"].empty())
bst = defaultstyle;
return bst;
}
bool GuiBibtex::initialiseParams(std::string const & sdata)
{
InsetCommand::string2params(sdata, params_);
init();
return true;
}
void GuiBibtex::dispatchParams()
{
std::string const lfun = InsetCommand::params2string(params_);
dispatch(FuncRequest(getLfun(), lfun));
}
Dialog * createGuiBibtex(GuiView & lv) { return new GuiBibtex(lv); }
} // namespace frontend
} // namespace lyx
#include "moc_GuiBibtex.cpp"