lyx_mirror/src/frontends/qt/Menus.cpp
Jean-Marc Lasgouttes ac248e392d Get rid of Qt4 code in src/
Qt4 code has been identidifed by
  git grep -l 'QT_VERSION.*\(0x050000\|0x04\)' src

Uses of QT_VERSION_CHECK have been checked too.

been used to remember what places need further work.

Then remaining Qt4 references have been searched using
  git grep -i qt4
  git grep -i 'qt 4'
and relevant issues have been either fixed or noted in the new
TODO.killqt4 file.
2022-11-18 17:19:50 +01:00

2756 lines
76 KiB
C++

/**
* \file qt/Menus.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author John Levon
* \author Asger Alstrup
* \author Lars Gullik Bjønnes
* \author Jean-Marc Lasgouttes
* \author André Pönitz
* \author Dekel Tsur
* \author Martin Vermeer
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "Menus.h"
#include "Action.h"
#include "GuiApplication.h"
#include "GuiView.h"
#include "GuiWorkArea.h"
#include "qt_helpers.h"
#include "BiblioInfo.h"
#include "BranchList.h"
#include "Buffer.h"
#include "BufferList.h"
#include "BufferParams.h"
#include "BufferView.h"
#include "Converter.h"
#include "Cursor.h"
#include "CutAndPaste.h"
#include "Floating.h"
#include "FloatList.h"
#include "Format.h"
#include "FuncRequest.h"
#include "FuncStatus.h"
#include "IndicesList.h"
#include "KeyMap.h"
#include "Language.h"
#include "Layout.h"
#include "Lexer.h"
#include "LyXAction.h"
#include "LyX.h"
#include "LyXRC.h"
#include "lyxfind.h"
#include "Paragraph.h"
#include "ParagraphParameters.h"
#include "ParIterator.h"
#include "Session.h"
#include "SpellChecker.h"
#include "TextClass.h"
#include "Text.h"
#include "TocBackend.h"
#include "Toolbars.h"
#include "WordLangTuple.h"
#include "insets/Inset.h"
#include "insets/InsetCitation.h"
#include "insets/InsetGraphics.h"
#include "insets/InsetInfo.h"
#include "insets/InsetQuotes.h"
#include "support/lassert.h"
#include "support/convert.h"
#include "support/debug.h"
#include "support/docstring_list.h"
#include "support/filetools.h"
#include "support/gettext.h"
#include "support/lstrings.h"
#include <QCursor>
#include <QHash>
#include <QList>
#include <QMenuBar>
#include <QProxyStyle>
#include <QString>
#include <algorithm>
#include <memory>
#include <vector>
using namespace std;
using namespace lyx::support;
namespace lyx {
namespace frontend {
namespace {
// MacOSX specific stuff is at the end.
class MenuDefinition;
///
class MenuItem {
public:
/// The type of elements that can be in a menu
enum Kind {
///
Command,
///
Submenu,
///
Separator,
/** This type of item explains why something is unavailable. If this
menuitem is in a submenu, the submenu is enabled to make sure the
user sees the information. */
Help,
/** This type of item merely shows that there might be a list or
something alike at this position, but the list is still empty.
If this item is in a submenu, the submenu will not always be
enabled. */
Info,
/** This is the list of last opened file,
typically for the File menu. */
Lastfiles,
/** This is the list of opened Documents,
typically for the Documents menu. */
Documents,
/** This is the bookmarks */
Bookmarks,
///
Toc,
/** This is a list of viewable formats
typically for the File->View menu. */
ViewFormats,
/** This is a list of updatable formats
typically for the File->Update menu. */
UpdateFormats,
/** This is a list of exportable formats
typically for the File->Export menu. */
ExportFormats,
/** This exports the document default format
typically for the File->Export menu. */
ExportFormat,
/** This is a list of importable formats
typically for the File->Import menu. */
ImportFormats,
/** This is the list of elements available
* for insertion into document. */
CharStyles,
/** This is the list of user-configurable
insets to insert into document */
Custom,
/** This is the list of floats that we can
insert a list for. */
FloatListInsert,
/** This is the list of floats that we can
insert. */
FloatInsert,
/** This is the list of selections that can
be pasted. */
PasteRecent,
/** toolbars */
Toolbars,
/** Available branches in document */
Branches,
/** Available indices in document */
Indices,
/** Context menu for indices in document */
IndicesContext,
/** Available index lists in document */
IndicesLists,
/** Context menu for available indices lists in document */
IndicesListsContext,
/** Available citation styles for a given citation */
CiteStyles,
/** Available arguments for a given info inset */
InfoArguments,
/** Available graphics groups */
GraphicsGroups,
/// Words suggested by the spellchecker.
SpellingSuggestions,
/** Used Languages */
LanguageSelector,
/** This is the list of arguments available
for insertion into the current layout. */
Arguments,
/** This is the list of arguments available
in the InsetArgument context menu. */
SwitchArguments,
/** This is the list of captions available
in the current layout. */
Captions,
/** This is the list of captions available
in the InsetCaption context menu. */
SwitchCaptions,
/** Commands to separate environments. */
EnvironmentSeparators,
/** Commands to separate environments (context menu version). */
EnvironmentSeparatorsContext,
/** This is the list of quotation marks available */
SwitchQuotes,
/** Options in the Zoom menu **/
ZoomOptions
};
explicit MenuItem(Kind kind) : kind_(kind), optional_(false) {}
MenuItem(Kind kind,
QString const & label,
QString const & submenu = QString(),
QString const & tooltip = QString(),
bool optional = false)
: kind_(kind), label_(label), func_(make_shared<FuncRequest>()),
submenuname_(submenu), tooltip_(tooltip), optional_(optional)
{
LATTEST(kind == Submenu || kind == Help || kind == Info);
}
MenuItem(Kind kind,
QString const & label,
FuncRequest const & func,
QString const & tooltip = QString(),
bool optional = false,
FuncRequest::Origin origin = FuncRequest::MENU)
: kind_(kind), label_(label), func_(make_shared<FuncRequest>(func)),
tooltip_(tooltip), optional_(optional)
{
func_->setOrigin(origin);
}
/// The label of a given menuitem
QString label() const
{
int const index = label_.lastIndexOf('|');
return index == -1 ? label_ : label_.left(index);
}
/// The keyboard shortcut (usually underlined in the entry)
QString shortcut() const
{
int const index = label_.lastIndexOf('|');
return index == -1 ? QString() : label_.mid(index + 1);
}
/// The complete label, with label and shortcut separated by a '|'
QString fulllabel() const { return label_; }
/// The kind of entry
Kind kind() const { return kind_; }
/// the action (if relevant)
shared_ptr<FuncRequest const> func() const { return func_; }
/// the tooltip
QString const & tooltip() const { return tooltip_; }
/// returns true if the entry should be omitted when disabled
bool optional() const { return optional_; }
/// returns the status of the lfun associated with this entry
FuncStatus const & status() const { return status_; }
/// returns the status of the lfun associated with this entry
FuncStatus & status() { return status_; }
/// returns the status of the lfun associated with this entry
void status(FuncStatus const & status) { status_ = status; }
///returns the binding associated to this action.
QString binding() const
{
if (kind_ != Command)
return QString();
// Get the keys bound to this action, but keep only the
// first one later
KeyMap::Bindings bindings = theTopLevelKeymap().findBindings(*func_);
if (!bindings.empty())
return toqstr(bindings.begin()->print(KeySequence::ForGui));
LYXERR(Debug::KBMAP, "No binding for "
<< lyxaction.getActionName(func_->action())
<< '(' << func_->argument() << ')');
return QString();
}
/// the description of the submenu (if relevant)
QString const & submenuname() const { return submenuname_; }
/// set the description of the submenu
void submenuname(QString const & name) { submenuname_ = name; }
///
bool hasSubmenu() const { return !submenu_.isEmpty(); }
///
MenuDefinition const & submenu() const { return submenu_.at(0); }
MenuDefinition & submenu() { return submenu_[0]; }
///
void setSubmenu(MenuDefinition const & menu)
{
submenu_.clear();
submenu_.append(menu);
}
private:
///
Kind kind_;
///
QString label_;
///
shared_ptr<FuncRequest> func_;// non-null
///
QString submenuname_;
///
QString tooltip_;
///
bool optional_;
///
FuncStatus status_;
/// contains 0 or 1 item.
QList<MenuDefinition> submenu_;
};
///
class MenuDefinition {
public:
///
typedef std::vector<MenuItem> ItemList;
///
typedef ItemList::const_iterator const_iterator;
///
explicit MenuDefinition(QString const & name = QString()) : name_(name) {}
///
void read(Lexer &);
///
QString const & name() const { return name_; }
///
bool empty() const { return items_.empty(); }
/// Clear the menu content.
void clear() { items_.clear(); }
///
size_t size() const { return items_.size(); }
///
const_iterator begin() const { return items_.begin(); }
///
const_iterator end() const { return items_.end(); }
///
void cat(MenuDefinition const & other);
///
void catSub(docstring const & name);
// search for func in this menu iteratively, and put menu
// names in a stack.
bool searchMenu(FuncRequest const & func, docstring_list & names)
const;
///
bool hasFunc(FuncRequest const &) const;
/// Add the menu item unconditionally
void add(MenuItem const & item) { items_.push_back(item); }
/// Checks the associated FuncRequest status before adding the
/// menu item.
void addWithStatusCheck(MenuItem const &);
// Check whether the menu shortcuts are unique
void checkShortcuts() const;
///
void expandLastfiles();
void expandDocuments();
void expandBookmarks();
void expandFormats(MenuItem::Kind const kind, Buffer const * buf);
void expandFloatListInsert(Buffer const * buf);
void expandFloatInsert(Buffer const * buf);
void expandFlexInsert(Buffer const * buf, InsetLyXType type);
void expandTocSubmenu(std::string const & type, Toc const & toc_list);
void expandToc2(Toc const & toc_list, size_t from, size_t to, int depth, const string & toc_type);
void expandToc(Buffer const * buf);
void expandPasteRecent(Buffer const * buf);
void expandToolbars();
void expandBranches(Buffer const * buf);
void expandIndices(Buffer const * buf, bool listof = false);
void expandIndicesContext(Buffer const * buf, bool listof = false);
void expandCiteStyles(BufferView const *);
void expandInfoArguments(BufferView const *);
void expandGraphicsGroups(BufferView const *);
void expandSpellingSuggestions(BufferView const *);
void expandLanguageSelector(Buffer const * buf);
void expandArguments(BufferView const *, bool switcharg = false);
void expandCaptions(Buffer const * buf, bool switchcap = false);
void expandEnvironmentSeparators(BufferView const *, bool contextmenu = false);
void expandQuotes(BufferView const *);
void expandZoomOptions(BufferView const *);
///
ItemList items_;
///
QString name_;
};
/// Helper for std::find_if
class MenuNamesEqual
{
public:
MenuNamesEqual(QString const & name) : name_(name) {}
bool operator()(MenuDefinition const & menu) const { return menu.name() == name_; }
private:
QString name_;
};
///
typedef std::vector<MenuDefinition> MenuList;
///
typedef MenuList::const_iterator const_iterator;
///
typedef MenuList::iterator iterator;
/////////////////////////////////////////////////////////////////////
// MenuDefinition implementation
/////////////////////////////////////////////////////////////////////
void MenuDefinition::addWithStatusCheck(MenuItem const & i)
{
switch (i.kind()) {
case MenuItem::Command: {
FuncStatus status = lyx::getStatus(*i.func());
if (status.unknown() || (!status.enabled() && i.optional()))
break;
items_.push_back(i);
items_.back().status(status);
break;
}
case MenuItem::Submenu: {
bool enabled = false;
if (i.hasSubmenu()) {
for (const_iterator cit = i.submenu().begin();
cit != i.submenu().end(); ++cit) {
// Only these kind of items affect the status of the submenu
if ((cit->kind() == MenuItem::Command
|| cit->kind() == MenuItem::Submenu
|| cit->kind() == MenuItem::Help)
&& cit->status().enabled()) {
enabled = true;
break;
}
}
}
if (enabled || !i.optional()) {
items_.push_back(i);
items_.back().status().setEnabled(enabled);
}
break;
}
case MenuItem::Separator:
if (!items_.empty() && items_.back().kind() != MenuItem::Separator)
items_.push_back(i);
break;
default:
items_.push_back(i);
}
}
void MenuDefinition::read(Lexer & lex)
{
enum {
md_item = 1,
md_branches,
md_citestyles,
md_documents,
md_bookmarks,
md_charstyles,
md_custom,
md_endmenu,
md_exportformat,
md_exportformats,
md_importformats,
md_indices,
md_indicescontext,
md_indiceslists,
md_indiceslistscontext,
md_infoarguments,
md_lastfiles,
md_optitem,
md_optsubmenu,
md_separator,
md_submenu,
md_toc,
md_updateformats,
md_viewformats,
md_floatlistinsert,
md_floatinsert,
md_pasterecent,
md_toolbars,
md_graphicsgroups,
md_spellingsuggestions,
md_languageselector,
md_arguments,
md_switcharguments,
md_captions,
md_switchcaptions,
md_env_separators,
md_env_separatorscontext,
md_switchquotes,
md_zoomoptions
};
LexerKeyword menutags[] = {
{ "arguments", md_arguments },
{ "bookmarks", md_bookmarks },
{ "branches", md_branches },
{ "captions", md_captions },
{ "charstyles", md_charstyles },
{ "citestyles", md_citestyles },
{ "custom", md_custom },
{ "documents", md_documents },
{ "end", md_endmenu },
{ "environmentseparators", md_env_separators },
{ "environmentseparatorscontext", md_env_separatorscontext },
{ "exportformat", md_exportformat },
{ "exportformats", md_exportformats },
{ "floatinsert", md_floatinsert },
{ "floatlistinsert", md_floatlistinsert },
{ "graphicsgroups", md_graphicsgroups },
{ "importformats", md_importformats },
{ "indices", md_indices },
{ "indicescontext", md_indicescontext },
{ "indiceslists", md_indiceslists },
{ "indiceslistscontext", md_indiceslistscontext },
{ "infoarguments", md_infoarguments },
{ "item", md_item },
{ "languageselector", md_languageselector },
{ "lastfiles", md_lastfiles },
{ "optitem", md_optitem },
{ "optsubmenu", md_optsubmenu },
{ "pasterecent", md_pasterecent },
{ "separator", md_separator },
{ "spellingsuggestions", md_spellingsuggestions },
{ "submenu", md_submenu },
{ "switcharguments", md_switcharguments },
{ "switchcaptions", md_switchcaptions },
{ "switchquotes", md_switchquotes },
{ "toc", md_toc },
{ "toolbars", md_toolbars },
{ "updateformats", md_updateformats },
{ "viewformats", md_viewformats },
{ "zoomoptions", md_zoomoptions }
};
lex.pushTable(menutags);
lex.setContext("MenuDefinition::read: ");
int md_type = 0;
while (lex.isOK() && md_type != md_endmenu) {
switch (md_type = lex.lex()) {
case md_optitem:
case md_item: {
lex.next(true);
docstring const name = translateIfPossible(lex.getDocString());
lex.next(true);
string const command = lex.getString();
FuncRequest func = lyxaction.lookupFunc(command);
FuncRequest::Origin origin = FuncRequest::MENU;
if (name_.startsWith("context-toc-"))
origin = FuncRequest::TOC;
bool const optional = (md_type == md_optitem);
add(MenuItem(MenuItem::Command, toqstr(name), func, QString(), optional, origin));
break;
}
case md_separator:
add(MenuItem(MenuItem::Separator));
break;
case md_lastfiles:
add(MenuItem(MenuItem::Lastfiles));
break;
case md_charstyles:
add(MenuItem(MenuItem::CharStyles));
break;
case md_custom:
add(MenuItem(MenuItem::Custom));
break;
case md_documents:
add(MenuItem(MenuItem::Documents));
break;
case md_bookmarks:
add(MenuItem(MenuItem::Bookmarks));
break;
case md_toc:
add(MenuItem(MenuItem::Toc));
break;
case md_viewformats:
add(MenuItem(MenuItem::ViewFormats));
break;
case md_updateformats:
add(MenuItem(MenuItem::UpdateFormats));
break;
case md_exportformats:
add(MenuItem(MenuItem::ExportFormats));
break;
case md_exportformat:
add(MenuItem(MenuItem::ExportFormat));
break;
case md_importformats:
add(MenuItem(MenuItem::ImportFormats));
break;
case md_floatlistinsert:
add(MenuItem(MenuItem::FloatListInsert));
break;
case md_floatinsert:
add(MenuItem(MenuItem::FloatInsert));
break;
case md_pasterecent:
add(MenuItem(MenuItem::PasteRecent));
break;
case md_toolbars:
add(MenuItem(MenuItem::Toolbars));
break;
case md_branches:
add(MenuItem(MenuItem::Branches));
break;
case md_citestyles:
add(MenuItem(MenuItem::CiteStyles));
break;
case md_infoarguments:
add(MenuItem(MenuItem::InfoArguments));
break;
case md_graphicsgroups:
add(MenuItem(MenuItem::GraphicsGroups));
break;
case md_spellingsuggestions:
add(MenuItem(MenuItem::SpellingSuggestions));
break;
case md_languageselector:
add(MenuItem(MenuItem::LanguageSelector));
break;
case md_indices:
add(MenuItem(MenuItem::Indices));
break;
case md_indicescontext:
add(MenuItem(MenuItem::IndicesContext));
break;
case md_indiceslists:
add(MenuItem(MenuItem::IndicesLists));
break;
case md_indiceslistscontext:
add(MenuItem(MenuItem::IndicesListsContext));
break;
case md_arguments:
add(MenuItem(MenuItem::Arguments));
break;
case md_switcharguments:
add(MenuItem(MenuItem::SwitchArguments));
break;
case md_captions:
add(MenuItem(MenuItem::Captions));
break;
case md_switchcaptions:
add(MenuItem(MenuItem::SwitchCaptions));
break;
case md_env_separators:
add(MenuItem(MenuItem::EnvironmentSeparators));
break;
case md_env_separatorscontext:
add(MenuItem(MenuItem::EnvironmentSeparatorsContext));
break;
case md_switchquotes:
add(MenuItem(MenuItem::SwitchQuotes));
break;
case md_zoomoptions:
add(MenuItem(MenuItem::ZoomOptions));
break;
case md_optsubmenu:
case md_submenu: {
lex.next(true);
docstring const mlabel = translateIfPossible(lex.getDocString());
lex.next(true);
docstring const mname = lex.getDocString();
bool const optional = (md_type == md_optsubmenu);
add(MenuItem(MenuItem::Submenu,
toqstr(mlabel), toqstr(mname), QString(), optional));
break;
}
case md_endmenu:
break;
default:
lex.printError("Unknown menu tag");
break;
}
}
lex.popTable();
}
bool MenuDefinition::hasFunc(FuncRequest const & func) const
{
for (auto const & it : *this)
if (*it.func() == func)
return true;
return false;
}
void MenuDefinition::catSub(docstring const & name)
{
add(MenuItem(MenuItem::Submenu,
qt_("More...|M"), toqstr(name), QString(), false));
}
void MenuDefinition::cat(MenuDefinition const & other)
{
const_iterator et = other.end();
for (const_iterator it = other.begin(); it != et; ++it)
add(*it);
}
void MenuDefinition::checkShortcuts() const
{
// This is a quadratic algorithm, but we do not care because
// menus are short enough
for (const_iterator it1 = begin(); it1 != end(); ++it1) {
QString shortcut = it1->shortcut();
if (shortcut.isEmpty())
continue;
if (!it1->label().contains(shortcut))
LYXERR0("Menu warning: menu entry \""
<< it1->label()
<< "\" does not contain shortcut `"
<< shortcut << "'.");
for (const_iterator it2 = begin(); it2 != it1 ; ++it2) {
if (!it2->shortcut().compare(shortcut, Qt::CaseInsensitive)) {
LYXERR0("Menu warning: menu entries "
<< '"' << it1->fulllabel()
<< "\" and \"" << it2->fulllabel()
<< "\" share the same shortcut.");
}
}
}
}
bool MenuDefinition::searchMenu(FuncRequest const & func, docstring_list & names) const
{
const_iterator m = begin();
const_iterator m_end = end();
for (; m != m_end; ++m) {
if (m->kind() == MenuItem::Command && *m->func() == func) {
names.push_back(qstring_to_ucs4(m->label()));
return true;
}
if (m->kind() == MenuItem::Submenu) {
names.push_back(qstring_to_ucs4(m->label()));
if (!m->hasSubmenu()) {
LYXERR(Debug::GUI, "Warning: non existing sub menu label="
<< m->label() << " name=" << m->submenuname());
names.pop_back();
continue;
}
if (m->submenu().searchMenu(func, names))
return true;
names.pop_back();
}
}
return false;
}
QString limitStringLength(docstring const & str)
{
size_t const max_item_length = 45;
docstring ret = str.substr(0, max_item_length + 1);
support::truncateWithEllipsis(ret, max_item_length);
return toqstr(ret);
}
void MenuDefinition::expandGraphicsGroups(BufferView const * bv)
{
if (!bv)
return;
set<string> grp;
graphics::getGraphicsGroups(bv->buffer(), grp);
if (grp.empty())
return;
set<string>::const_iterator it = grp.begin();
set<string>::const_iterator end = grp.end();
add(MenuItem(MenuItem::Command, qt_("No Group"),
FuncRequest(LFUN_GRAPHICS_SET_GROUP)));
for (; it != end; ++it) {
addWithStatusCheck(MenuItem(MenuItem::Command, toqstr(*it) + '|',
FuncRequest(LFUN_GRAPHICS_SET_GROUP, *it)));
}
}
void MenuDefinition::expandSpellingSuggestions(BufferView const * bv)
{
if (!bv)
return;
Cursor const & cur = bv->cursor();
if (!cur.inTexted())
return;
WordLangTuple wl;
docstring_list suggestions;
Paragraph const & par = cur.paragraph();
pos_type from = cur.pos();
pos_type to = from;
SpellChecker::Result res = par.spellCheck(from, to, wl, suggestions, true, true);
switch (res) {
case SpellChecker::UNKNOWN_WORD:
if (lyxrc.spellcheck_continuously) {
LYXERR(Debug::GUI, "Misspelled Word! Suggested Words = ");
docstring const & selection = cur.selectionAsString(false);
if (!cur.selection() || selection == wl.word()) {
size_t i = 0;
size_t m = 10; // first submenu index
MenuItem item(MenuItem::Submenu, qt_("More Spelling Suggestions"));
item.setSubmenu(MenuDefinition(qt_("More Spelling Suggestions")));
for (; i != suggestions.size(); ++i) {
docstring const & suggestion = suggestions[i];
LYXERR(Debug::GUI, suggestion);
MenuItem w(MenuItem::Command, toqstr(suggestion),
FuncRequest(LFUN_WORD_REPLACE,
replace2string(suggestion, selection,
true, // case sensitive
true, // match word
false, // all words
true, // forward
false, // find next
false, // auto-wrap
false))); // only selection
if (i < m)
add(w);
else
item.submenu().add(w);
}
if (i > m)
add(item);
if (i > 0)
add(MenuItem(MenuItem::Separator));
docstring const arg = wl.word() + " " + from_ascii(wl.lang()->lang());
add(MenuItem(MenuItem::Command, qt_("Add to personal dictionary|n"),
FuncRequest(LFUN_SPELLING_ADD, arg)));
add(MenuItem(MenuItem::Command, qt_("Ignore this occurrence|g"),
FuncRequest(LFUN_FONT_NO_SPELLCHECK, arg)));
add(MenuItem(MenuItem::Command, qt_("Ignore all for this session|I"),
FuncRequest(LFUN_SPELLING_IGNORE, arg)));
add(MenuItem(MenuItem::Command, qt_("Ignore all in this document|d"),
FuncRequest(LFUN_SPELLING_ADD_LOCAL, arg)));
}
}
break;
case SpellChecker::LEARNED_WORD: {
LYXERR(Debug::GUI, "Learned Word.");
docstring const arg = wl.word() + " " + from_ascii(wl.lang()->lang());
add(MenuItem(MenuItem::Command, qt_("Remove from personal dictionary|r"),
FuncRequest(LFUN_SPELLING_REMOVE, arg)));
}
break;
case SpellChecker::DOCUMENT_LEARNED_WORD: {
LYXERR(Debug::GUI, "Document-Learned Word.");
docstring const arg = wl.word() + " " + from_ascii(wl.lang()->lang());
add(MenuItem(MenuItem::Command, qt_("Remove from document dictionary|r"),
FuncRequest(LFUN_SPELLING_REMOVE_LOCAL, arg)));
}
break;
case SpellChecker::NO_DICTIONARY:
LYXERR(Debug::GUI, "No dictionary for language " + from_ascii(wl.lang()->lang()));
// FALLTHROUGH
case SpellChecker::WORD_OK:
case SpellChecker::COMPOUND_WORD:
case SpellChecker::ROOT_FOUND:
case SpellChecker::IGNORED_WORD:
break;
}
}
struct sortLanguageByName {
bool operator()(const Language * a, const Language * b) const {
return qt_(a->display()).localeAwareCompare(qt_(b->display())) < 0;
}
};
void MenuDefinition::expandLanguageSelector(Buffer const * buf)
{
if (!buf)
return;
std::set<Language const *> languages_buffer =
buf->masterBuffer()->getLanguages();
if (languages_buffer.size() < 2) {
add(MenuItem(MenuItem::Command, qt_("Switch Language...|L"),
FuncRequest(LFUN_DIALOG_SHOW, "character")));
return;
}
std::set<Language const *, sortLanguageByName> langs;
std::set<Language const *>::const_iterator const beg =
languages_buffer.begin();
for (std::set<Language const *>::const_iterator cit = beg;
cit != languages_buffer.end(); ++cit) {
langs.insert(*cit);
}
MenuItem item(MenuItem::Submenu, qt_("Language|L"));
item.setSubmenu(MenuDefinition(qt_("Language")));
QString morelangs = qt_("More Languages ...|M");
QStringList accelerators;
if (morelangs.contains('|'))
accelerators.append(morelangs.section('|', -1));
std::set<Language const *, sortLanguageByName>::const_iterator const begin = langs.begin();
for (std::set<Language const *, sortLanguageByName>::const_iterator cit = begin;
cit != langs.end(); ++cit) {
QString label = qt_((*cit)->display());
// try to add an accelerator
bool success = false;
// try capitals first
for (int i = 0; i < label.size(); ++i) {
QChar const ch = label[i];
if (!ch.isUpper())
continue;
if (!accelerators.contains(ch, Qt::CaseInsensitive)) {
label = label + toqstr("|") + ch;
accelerators.append(ch);
success = true;
break;
}
}
// if all capitals are taken, try the rest
if (!success) {
for (int i = 0; i < label.size(); ++i) {
if (label[i].isSpace())
continue;
QString const ch = QString(label[i]);
if (!accelerators.contains(ch, Qt::CaseInsensitive)) {
label = label + toqstr("|") + ch;
accelerators.append(ch);
break;
}
}
}
MenuItem w(MenuItem::Command, label,
FuncRequest(LFUN_LANGUAGE, (*cit)->lang() + " set"));
item.submenu().addWithStatusCheck(w);
}
item.submenu().add(MenuItem(MenuItem::Separator));
item.submenu().add(MenuItem(MenuItem::Command, morelangs,
FuncRequest(LFUN_DIALOG_SHOW, "character")));
add(item);
}
void MenuDefinition::expandLastfiles()
{
LastFilesSection::LastFiles const & lf = theSession().lastFiles().lastFiles();
LastFilesSection::LastFiles::const_iterator lfit = lf.begin();
unsigned int ii = 1;
for (; lfit != lf.end() && ii <= lyxrc.num_lastfiles; ++lfit, ++ii) {
string const file = lfit->absFileName();
QString const short_path = toqstr(makeDisplayPath(file, 30));
QString const long_path = toqstr(makeDisplayPath(file));
QString label;
if (ii < 10)
label = QString("%1. %2|%3").arg(ii).arg(short_path).arg(ii);
else
label = QString("%1. %2").arg(ii).arg(short_path);
add(MenuItem(MenuItem::Command, label,
FuncRequest(LFUN_FILE_OPEN, file), long_path));
}
}
void MenuDefinition::expandDocuments()
{
MenuItem item(MenuItem::Submenu, qt_("Hidden|H"));
item.setSubmenu(MenuDefinition(qt_("Hidden|H")));
Buffer * const first = theBufferList().first();
if (!first) {
add(MenuItem(MenuItem::Info, qt_("(No Documents Open)")));
return;
}
int i = 0;
while (true) {
if (!guiApp->currentView())
break;
GuiWorkArea * wa = guiApp->currentView()->workArea(i);
if (!wa)
break;
Buffer const & b = wa->bufferView().buffer();
QString label = toqstr(b.fileName().displayName(20));
if (!b.isClean())
label += "*";
if (b.notifiesExternalModification())
label += QChar(0x26a0); // warning sign ⚠
if (i < 10)
label = QString::number(i) + ". " + label + '|' + QString::number(i);
add(MenuItem(MenuItem::Command, label,
FuncRequest(LFUN_BUFFER_SWITCH, b.absFileName())));
++i;
}
i = 0;
Buffer * b = first;
// We cannot use a for loop as the buffer list cycles.
do {
if (!(guiApp->currentView()
&& guiApp->currentView()->workArea(*b))) {
QString label = toqstr(b->fileName().displayName(20));
if (!b->isClean())
label += "*";
if (b->notifiesExternalModification())
label += QChar(0x26a0);
if (i < 10)
label = QString::number(i) + ". " + label + '|' + QString::number(i);
item.submenu().add(MenuItem(MenuItem::Command, label,
FuncRequest(LFUN_BUFFER_SWITCH, b->absFileName())));
++i;
}
b = theBufferList().next(b);
} while (b != first);
if (!item.submenu().empty())
add(item);
}
void MenuDefinition::expandBookmarks()
{
lyx::BookmarksSection const & bm = theSession().bookmarks();
bool empty = true;
for (size_t i = 1; i <= bm.size(); ++i) {
if (bm.isValid(i)) {
string const file = bm.bookmark(i).filename.absFileName();
QString const label = QString("%1. %2|%3").arg(i)
.arg(toqstr(makeDisplayPath(file, 20))).arg(i);
add(MenuItem(MenuItem::Command, label,
FuncRequest(LFUN_BOOKMARK_GOTO, convert<docstring>(i))));
empty = false;
}
}
if (empty)
add(MenuItem(MenuItem::Info, qt_("(No Bookmarks Saved Yet)")));
}
void MenuDefinition::expandFormats(MenuItem::Kind const kind, Buffer const * buf)
{
if (!buf && kind != MenuItem::ImportFormats)
return;
FormatList formats;
FuncCode action = LFUN_NOACTION;
switch (kind) {
case MenuItem::ImportFormats:
formats = theConverters().importableFormats();
action = LFUN_BUFFER_IMPORT;
break;
case MenuItem::ViewFormats:
formats = buf->params().exportableFormats(true);
action = LFUN_BUFFER_VIEW;
break;
case MenuItem::UpdateFormats:
formats = buf->params().exportableFormats(true);
action = LFUN_BUFFER_UPDATE;
break;
case MenuItem::ExportFormats:
formats = buf->params().exportableFormats(false);
action = LFUN_BUFFER_EXPORT;
break;
default:
LATTEST(false);
return;
}
bool const view_update = (kind == MenuItem::ViewFormats
|| kind == MenuItem::UpdateFormats);
QString smenue;
if (view_update)
smenue = (kind == MenuItem::ViewFormats
? qt_("View (Other Formats)|F")
: qt_("Update (Other Formats)|p"));
MenuItem item(MenuItem::Submenu, smenue);
item.setSubmenu(MenuDefinition(smenue));
for (Format const * f : formats) {
if (f->dummy())
continue;
docstring lab = f->prettyname();
docstring const scut = from_utf8(f->shortcut());
docstring const tmplab = lab;
if (!scut.empty())
lab += char_type('|') + scut;
docstring const lab_i18n = translateIfPossible(lab);
docstring const shortcut = split(lab_i18n, lab, '|');
bool const untranslated = (lab == lab_i18n);
docstring label = untranslated ? translateIfPossible(tmplab) : lab;
switch (kind) {
case MenuItem::ImportFormats:
if (f->noMenu())
continue;
label += from_ascii("...");
break;
case MenuItem::ViewFormats:
case MenuItem::UpdateFormats:
if (f->name() == buf->params().getDefaultOutputFormat()) {
docstring lbl = (kind == MenuItem::ViewFormats
? bformat(_("View [%1$s]|V"), label)
: bformat(_("Update [%1$s]|U"), label));
add(MenuItem(MenuItem::Command, toqstr(lbl), FuncRequest(action)));
continue;
}
break;
case MenuItem::ExportFormats:
if (!f->inExportMenu())
continue;
break;
default:
// we already asserted earlier in this case
// LATTEST(false);
continue;
}
if (!shortcut.empty())
label += '|' + shortcut;
if (view_update) {
// note that at this point, we know that buf is not null
LATTEST(buf);
item.submenu().addWithStatusCheck(MenuItem(MenuItem::Command,
toqstr(label), FuncRequest(action, f->name())));
} else {
if (buf)
addWithStatusCheck(MenuItem(MenuItem::Command, toqstr(label),
FuncRequest(action, f->name())));
else
add(MenuItem(MenuItem::Command, toqstr(label),
FuncRequest(action, f->name())));
}
}
if (view_update)
add(item);
}
void MenuDefinition::expandFloatListInsert(Buffer const * buf)
{
if (!buf)
return;
FloatList const & floats = buf->params().documentClass().floats();
FloatList::const_iterator cit = floats.begin();
FloatList::const_iterator end = floats.end();
set<string> seen;
for (; cit != end; ++cit) {
if (!cit->second.usesFloatPkg()) {
// Different floats could declare the same ListCommand. We only
// want it on the list once, though.
string const & list_cmd = cit->second.listCommand();
if (list_cmd.empty())
// we do not know how to generate such a list
continue;
// This form of insert returns an iterator pointing to the newly
// inserted element OR the existing element with that value, and
// a bool indicating whether we inserted a new element. So we can
// see if one is there and insert it if not all at once.
pair<set<string>::iterator, bool> ret = seen.insert(list_cmd);
if (!ret.second)
continue;
}
string const & list_name = cit->second.listName();
addWithStatusCheck(MenuItem(MenuItem::Command, qt_(list_name),
FuncRequest(LFUN_FLOAT_LIST_INSERT, cit->second.floattype())));
}
}
void MenuDefinition::expandFloatInsert(Buffer const * buf)
{
if (!buf)
return;
FloatList const & floats = buf->params().documentClass().floats();
FloatList::const_iterator cit = floats.begin();
FloatList::const_iterator end = floats.end();
for (; cit != end; ++cit) {
// normal float
if (cit->second.name().empty())
continue;
QString const label = qt_(cit->second.name());
addWithStatusCheck(MenuItem(MenuItem::Command, label,
FuncRequest(LFUN_FLOAT_INSERT,
cit->second.floattype())));
}
}
void MenuDefinition::expandFlexInsert(
Buffer const * buf, InsetLyXType type)
{
if (!buf)
return;
TextClass::InsetLayouts const & insetLayouts =
buf->params().documentClass().insetLayouts();
TextClass::InsetLayouts::const_iterator cit = insetLayouts.begin();
TextClass::InsetLayouts::const_iterator end = insetLayouts.end();
for (; cit != end; ++cit) {
if (cit->second.lyxtype() == type) {
if (!cit->second.obsoleted_by().empty())
continue;
docstring name = cit->first;
// we remove the "Flex:" prefix, if it is present
if (prefixIs(name, from_ascii("Flex:")))
name = name.substr(5);
docstring const label = (cit->second.menustring().empty()) ?
name
: cit->second.menustring();
addWithStatusCheck(MenuItem(MenuItem::Command,
toqstr(translateIfPossible(label)),
FuncRequest(LFUN_FLEX_INSERT, Lexer::quoteString(name))));
}
}
// FIXME This is a little clunky.
if (items_.empty() && type == InsetLyXType::CUSTOM && !buf->hasReadonlyFlag())
add(MenuItem(MenuItem::Help, qt_("(No Custom Insets Defined)")));
}
// Threshold before we stop displaying sub-items alongside items
// (for display purposes). Ideally this should fit on a screen.
size_t const max_number_of_items = 30;
// Size limit for the menu. This is for performance purposes,
// because qt already displays a scrollable menu when necessary.
// Ideally this should be the menu size from which scrollable
// menus become unpractical.
size_t const menu_size_limit = 80;
void MenuDefinition::expandToc2(Toc const & toc_list,
size_t from, size_t to, int depth,
string const & toc_type)
{
int shortcut_count = 0;
// check whether depth is smaller than the smallest depth in toc.
int min_depth = 1000;
for (size_t i = from; i < to; ++i)
min_depth = min(min_depth, toc_list[i].depth());
if (min_depth > depth)
depth = min_depth;
if (to - from <= max_number_of_items) {
for (size_t i = from; i < to; ++i) {
QString label(4 * max(0, toc_list[i].depth() - depth), ' ');
label += limitStringLength(toc_list[i].asString());
if (toc_list[i].depth() == depth) {
label += '|';
if (shortcut_count < 9) {
if (label.contains(QString::number(shortcut_count + 1)))
label += QString::number(++shortcut_count);
}
}
add(MenuItem(MenuItem::Command, label, toc_list[i].action()));
// separator after the menu heading
if (toc_list[i].depth() < depth)
add(MenuItem(MenuItem::Separator));
}
} else {
size_t pos = from;
size_t size = 1;
while (pos < to) {
size_t new_pos = pos + 1;
while (new_pos < to && toc_list[new_pos].depth() > depth)
++new_pos;
QString label(4 * max(0, toc_list[pos].depth() - depth), ' ');
label += limitStringLength(toc_list[pos].asString());
if (toc_list[pos].depth() == depth) {
label += '|';
if (shortcut_count < 9) {
if (label.contains(QString::number(shortcut_count + 1)))
label += QString::number(++shortcut_count);
}
}
if (size >= menu_size_limit) {
FuncRequest f(LFUN_DIALOG_SHOW, "toc " + toc_type);
add(MenuItem(MenuItem::Command, "...", f));
break;
}
if (new_pos == pos + 1) {
add(MenuItem(MenuItem::Command, label, toc_list[pos].action()));
} else {
MenuDefinition sub;
sub.expandToc2(toc_list, pos, new_pos, depth + 1, toc_type);
MenuItem item(MenuItem::Submenu, label);
item.setSubmenu(sub);
add(item);
}
++size;
pos = new_pos;
}
}
}
void MenuDefinition::expandToc(Buffer const * buf)
{
// To make things very cleanly, we would have to pass buf to
// all MenuItem constructors and to expandToc2. However, we
// know that all the entries in a TOC will be have status_ ==
// OK, so we avoid this unnecessary overhead (JMarc)
if (!buf) {
add(MenuItem(MenuItem::Info, qt_("(No Document Open)")));
return;
}
// Add an entry for the master doc if this is a child doc
Buffer const * const master = buf->masterBuffer();
if (buf != master) {
ParIterator const pit = par_iterator_begin(master->inset());
string const arg = convert<string>(pit->id());
FuncRequest f(LFUN_PARAGRAPH_GOTO, arg);
add(MenuItem(MenuItem::Command, qt_("Master Document"), f));
}
MenuDefinition other_lists;
// In the navigation menu, only add tocs from this document
TocBackend const & backend = buf->tocBackend();
TocList const & toc_list = backend.tocs();
for (pair<const string, shared_ptr<Toc>> const & toc : toc_list) {
// Handle table of contents later
if (toc.first == "tableofcontents" || toc.second->empty())
continue;
MenuDefinition submenu;
submenu.expandTocSubmenu(toc.first, *toc.second);
docstring const toc_name = backend.outlinerName(toc.first);
MenuItem item(MenuItem::Submenu, toqstr(toc_name));
item.setSubmenu(submenu);
// deserves to be in the main menu?
if (!TocBackend::isOther(toc.first))
add(item);
else
other_lists.add(item);
}
if (!other_lists.empty()) {
MenuItem item(MenuItem::Submenu, qt_("Other Lists"));
item.setSubmenu(other_lists);
add(item);
}
// Handle normal TOC
add(MenuItem(MenuItem::Separator));
TocList::const_iterator const cit = toc_list.find("tableofcontents");
if (cit == toc_list.end())
LYXERR(Debug::GUI, "No table of contents.");
else {
if (!cit->second->empty())
expandToc2(*cit->second, 0, cit->second->size(), 0,
"tableofcontents");
else
add(MenuItem(MenuItem::Info, qt_("(Empty Table of Contents)")));
}
}
void MenuDefinition::expandTocSubmenu(std::string const & type, Toc const & toc)
{
// "Open outliner..." entry
FuncRequest f(LFUN_DIALOG_SHOW, "toc " + type);
add(MenuItem(MenuItem::Command, qt_("Open Outliner..."), f));
add(MenuItem(MenuItem::Separator));
// add entries
expandToc2(toc, 0, toc.size(), 0, type);
}
void MenuDefinition::expandPasteRecent(Buffer const * buf)
{
docstring_list const sel = cap::availableSelections(buf);
docstring_list::const_iterator cit = sel.begin();
docstring_list::const_iterator end = sel.end();
for (unsigned int index = 0; cit != end; ++cit, ++index) {
add(MenuItem(MenuItem::Command, toqstr(*cit) + '|',
FuncRequest(LFUN_PASTE, convert<string>(index))));
}
}
void MenuDefinition::expandToolbars()
{
MenuDefinition other_lists;
// extracts the toolbars from the backend
Toolbars::Infos::const_iterator cit = guiApp->toolbars().begin();
Toolbars::Infos::const_iterator end = guiApp->toolbars().end();
for (; cit != end; ++cit) {
MenuItem item(MenuItem::Command, toqstr(cit->gui_name),
FuncRequest(LFUN_TOOLBAR_TOGGLE, cit->name));
if (cit->allow_auto) {
MenuDefinition tristate;
tristate.add(MenuItem(MenuItem::Command, qt_("[[Toolbar]]On|O"),
FuncRequest(LFUN_TOOLBAR_SET, cit->name + " on")));
tristate.add(MenuItem(MenuItem::Command, qt_("[[Toolbar]]Off|f"),
FuncRequest(LFUN_TOOLBAR_SET, cit->name + " off")));
tristate.add(MenuItem(MenuItem::Command, qt_("[[Toolbar]]Automatic|A"),
FuncRequest(LFUN_TOOLBAR_SET, cit->name + " auto")));
item = MenuItem(MenuItem::Submenu,toqstr(cit->gui_name));
item.setSubmenu(tristate);
}
if (guiApp->toolbars().isMainToolbar(cit->name))
add(item);
else
other_lists.add(item);
}
if (!other_lists.empty()) {
MenuItem item(MenuItem::Submenu, qt_("Other Toolbars"));
item.setSubmenu(other_lists);
add(item);
}
}
void MenuDefinition::expandBranches(Buffer const * buf)
{
if (!buf || buf->hasReadonlyFlag())
return;
BranchList const & child_list = buf->params().branchlist();
set<docstring> brset;
int ii = 1;
for (auto const & b : child_list) {
docstring const & bname = b.branch();
// NUM. Branch Name + "|", which triggers an empty shortcut in
// case that character should be in the branch name.
docstring label = convert<docstring>(ii) + ". " + bname + char_type('|');
// Add NUM as a keyboard shortcut if it's a single digit
if (ii < 10)
label += convert<docstring>(ii);
addWithStatusCheck(MenuItem(MenuItem::Command, toqstr(label),
FuncRequest(LFUN_BRANCH_INSERT, bname)));
brset.insert(bname);
++ii;
}
set<Buffer const *> bufset;
Buffer const * nextbuf = buf->parent();
MenuDefinition master_branches;
ii = 1;
while (nextbuf) {
// recursive includes are a bad idea, but let's not crash
// if we find one.
if (bufset.count(nextbuf))
break;
for (auto const & b : nextbuf->params().branchlist()) {
docstring const & bname = b.branch();
// do not add it if we've already seen it
if (brset.count(bname))
continue;
docstring label = convert<docstring>(ii) + ". " + bname + char_type('|');
if (ii < 10)
label += convert<docstring>(ii);
master_branches.addWithStatusCheck(MenuItem(MenuItem::Command,
toqstr(label), FuncRequest(LFUN_BRANCH_INSERT, bname)));
bufset.insert(nextbuf);
brset.insert(bname);
++ii;
}
nextbuf = nextbuf->parent();
}
if (!master_branches.empty()) {
MenuItem item(MenuItem::Submenu, qt_("Master Documents"));
item.setSubmenu(master_branches);
add(item);
}
}
void MenuDefinition::expandIndices(Buffer const * buf, bool listof)
{
if (!buf)
return;
BufferParams const & params = buf->masterBuffer()->params();
if (!params.use_indices) {
if (listof)
addWithStatusCheck(MenuItem(MenuItem::Command,
qt_("Index List|I"),
FuncRequest(LFUN_INDEX_PRINT,
from_ascii("idx"))));
else
addWithStatusCheck(MenuItem(MenuItem::Command,
qt_("Index Entry|d"),
FuncRequest(LFUN_INDEX_INSERT,
from_ascii("idx"))));
return;
}
if (params.indiceslist().empty())
return;
IndicesList::const_iterator cit = params.indiceslist().begin();
IndicesList::const_iterator end = params.indiceslist().end();
for (int ii = 1; cit != end; ++cit, ++ii) {
if (listof) {
docstring const label =
bformat(_("Index: %1$s"), cit->index());
addWithStatusCheck(MenuItem(MenuItem::Command, toqstr(label),
FuncRequest(LFUN_INDEX_PRINT, cit->shortcut())));
} else {
docstring const label =
bformat(_("Index Entry (%1$s)"), cit->index());
addWithStatusCheck(MenuItem(MenuItem::Command, toqstr(label),
FuncRequest(LFUN_INDEX_INSERT, cit->shortcut())));
}
}
}
void MenuDefinition::expandIndicesContext(Buffer const * buf, bool listof)
{
if (!buf)
return;
BufferParams const & params = buf->masterBuffer()->params();
if (!params.use_indices || params.indiceslist().empty())
return;
IndicesList::const_iterator cit = params.indiceslist().begin();
IndicesList::const_iterator end = params.indiceslist().end();
for (int ii = 1; cit != end; ++cit, ++ii) {
if (listof) {
InsetCommandParams p(INDEX_PRINT_CODE);
p["type"] = cit->shortcut();
string const data = InsetCommand::params2string(p);
addWithStatusCheck(MenuItem(MenuItem::Command, toqstr(cit->index()),
FuncRequest(LFUN_INSET_MODIFY, data)));
} else {
docstring const label =
bformat(_("Index Entry (%1$s)"), cit->index());
addWithStatusCheck(MenuItem(MenuItem::Command, toqstr(label),
FuncRequest(LFUN_INSET_MODIFY,
from_ascii("changetype ") + cit->shortcut())));
}
}
}
void MenuDefinition::expandCiteStyles(BufferView const * bv)
{
if (!bv)
return;
Inset const * inset = bv->cursor().nextInset();
if (!inset || inset->lyxCode() != CITE_CODE) {
add(MenuItem(MenuItem::Command,
qt_("No Citation in Scope!"),
FuncRequest(LFUN_NOACTION)));
return;
}
InsetCitation const * citinset =
static_cast<InsetCitation const *>(inset);
Buffer const * buf = &bv->buffer();
BufferParams const & bp = buf->masterParams();
string const cmd = citinset->params().getCmdName();
docstring const & key = citinset->getParam("key");
if (key.empty()) {
add(MenuItem(MenuItem::Command,
qt_("No citations selected!"),
FuncRequest(LFUN_NOACTION)));
return;
}
bool const force = isUpperCase(cmd[0]);
bool const star = suffixIs(cmd, '*');
vector<docstring> const keys = getVectorFromString(key);
vector<CitationStyle> const citeStyleList = bp.citeStyles();
CitationStyle cs = citinset->getCitationStyle(bp, cmd, citeStyleList);
bool const qualified = cs.hasQualifiedList
&& (keys.size() > 1
|| !citinset->getParam("pretextlist").empty()
|| !citinset->getParam("posttextlist").empty());
vector<pair<docstring, docstring>> pres =
citinset->getQualifiedLists(citinset->getParam("pretextlist"));
vector<pair<docstring, docstring>> posts =
citinset->getQualifiedLists(citinset->getParam("posttextlist"));
CiteItem ci;
ci.textBefore = citinset->getParam("before");
ci.textAfter = citinset->getParam("after");
ci.forceUpperCase = force;
ci.Starred = star;
ci.context = CiteItem::Dialog;
ci.max_size = 40;
ci.isQualified = qualified;
ci.pretexts = pres;
ci.posttexts = posts;
BiblioInfo::CiteStringMap citeStrings =
buf->masterBibInfo().getCiteStrings(keys, citeStyleList, bv->buffer(), ci);
BiblioInfo::CiteStringMap::const_iterator cit = citeStrings.begin();
BiblioInfo::CiteStringMap::const_iterator end = citeStrings.end();
for (int ii = 1; cit != end; ++cit, ++ii) {
docstring label = cit->second;
CitationStyle ccs = citeStyleList[ii - 1];
ccs.forceUpperCase &= force;
ccs.hasStarredVersion &= star;
addWithStatusCheck(MenuItem(MenuItem::Command, toqstr(label),
FuncRequest(LFUN_INSET_MODIFY,
"changetype " + from_utf8(citationStyleToString(ccs)))));
}
if (cs.hasStarredVersion) {
docstring starred = _("All authors|h");
// Check if we have a custom string/tooltip for the starred version
if (!cs.stardesc.empty()) {
string val =
bp.documentClass().getCiteMacro(buf->params().citeEngineType(), cs.stardesc);
if (!val.empty())
starred = translateIfPossible(from_utf8(val));
// Transform qt-style accelerators to menu-style
int const amps = count_char(starred, '&');
if (amps > 0) {
if (amps > 1)
starred = subst(starred, from_ascii("&&"), from_ascii("<:amp:>"));
size_t nn = starred.find('&');
char_type accel = char_type();
if (nn != docstring::npos && nn < starred.size() - 1)
accel = starred[nn + 1];
starred = subst(starred, from_ascii("&"), from_ascii(""));
if (amps > 1)
starred = subst(starred, from_ascii("<:amp:>"), from_ascii("&&"));
if (accel != char_type())
starred = starred + '|' + accel;
}
}
add(MenuItem(MenuItem::Separator));
addWithStatusCheck(MenuItem(MenuItem::Command, toqstr(starred),
FuncRequest(LFUN_INSET_MODIFY, "toggleparam star")));
}
if (cs.forceUpperCase) {
if (!cs.hasStarredVersion)
add(MenuItem(MenuItem::Separator));
addWithStatusCheck(MenuItem(MenuItem::Command, toqstr(_("Force upper case|u")),
FuncRequest(LFUN_INSET_MODIFY, "toggleparam casing")));
}
}
void MenuDefinition::expandInfoArguments(BufferView const * bv)
{
if (!bv)
return;
Inset const * inset = bv->cursor().nextInset();
if (!inset || inset->lyxCode() != INFO_CODE) {
add(MenuItem(MenuItem::Command,
qt_("No Text Field in Scope!"),
FuncRequest(LFUN_NOACTION)));
return;
}
InsetInfo const * iinset = static_cast<InsetInfo const *>(inset);
string const type = iinset->params().infoType();
vector<pair<string,docstring>> const args =
iinset->params().getArguments(&bv->buffer(), type);
// Don't generate a menu for big lists (such as lfuns and rcs)
if (args.size() > 15)
return;
for (auto const & p : args) {
if (p.first == "invalid")
// non-selectable
continue;
if (p.first == "custom") {
add(MenuItem(MenuItem::Command, qt_("Custom..."),
FuncRequest(LFUN_INSET_SETTINGS, "info")));
continue;
}
docstring label = p.second;
addWithStatusCheck(MenuItem(MenuItem::Command, toqstr(label),
FuncRequest(LFUN_INSET_MODIFY, type + " " + p.first)));
}
}
void MenuDefinition::expandArguments(BufferView const * bv, bool switcharg)
{
if (!bv)
return;
if (!bv->cursor().inTexted())
return;
Inset const * inset = &bv->cursor().inset();
Layout::LaTeXArgMap args = bv->cursor().paragraph().layout().args();
if (inset && args.empty())
args = inset->getLayout().args();
if (args.empty() || (switcharg && args.size() == 1))
return;
Layout::LaTeXArgMap::const_iterator lait = args.begin();
Layout::LaTeXArgMap::const_iterator const laend = args.end();
for (; lait != laend; ++lait) {
Layout::latexarg arg = (*lait).second;
docstring str = arg.menustring.empty()? arg.labelstring : arg.menustring;
QString item = toqstr(translateIfPossible(str));
if (switcharg)
add(MenuItem(MenuItem::Command, item,
FuncRequest(LFUN_INSET_MODIFY,
from_ascii("changetype ")
+ from_ascii((*lait).first))));
else
add(MenuItem(MenuItem::Command, item,
FuncRequest(LFUN_ARGUMENT_INSERT,
from_ascii((*lait).first))));
}
}
void MenuDefinition::expandCaptions(Buffer const * buf, bool switchcap)
{
if (!buf)
return;
DocumentClass const & dc = buf->params().documentClass();
vector< pair<docstring, FuncRequest> > caps;
for (pair<const docstring, InsetLayout> const & il : dc.insetLayouts()) {
docstring instype;
docstring const type = split(il.first, instype, ':');
if (instype == from_ascii("Caption")) {
// skip forbidden caption types
FuncRequest const cmd = switchcap
? FuncRequest(LFUN_INSET_MODIFY, from_ascii("changetype ") + type)
: FuncRequest(LFUN_CAPTION_INSERT, type);
if (getStatus(cmd).enabled())
caps.push_back(make_pair(type, cmd));
}
}
if (caps.empty() || (switchcap && caps.size() == 1))
return;
if (caps.size() == 1) {
add(MenuItem(MenuItem::Command, qt_("Caption"), caps.front().second));
return;
}
MenuDefinition captions;
for (pair<docstring, FuncRequest> const & cap : caps) {
docstring const type = cap.first;
docstring const trtype = translateIfPossible(type);
docstring const cmitem = bformat(_("Caption (%1$s)"), trtype);
if (switchcap)
add(MenuItem(MenuItem::Command, toqstr(cmitem), cap.second));
else
captions.add(MenuItem(MenuItem::Command, toqstr(trtype), cap.second));
}
if (!captions.empty()) {
MenuItem item(MenuItem::Submenu, qt_("Caption"));
item.setSubmenu(captions);
add(item);
}
}
void MenuDefinition::expandZoomOptions(BufferView const * bv)
{
if (!bv)
return;
add(MenuItem(MenuItem::Command,
toqstr(bformat(_("Reset to Default (%1$d%)|R"),
lyxrc.defaultZoom)),
FuncRequest(LFUN_BUFFER_ZOOM)));
add(MenuItem(MenuItem::Command, qt_("Zoom In|I"),
FuncRequest(LFUN_BUFFER_ZOOM_IN)));
add(MenuItem(MenuItem::Command, qt_("Zoom Out|O"),
FuncRequest(LFUN_BUFFER_ZOOM_OUT)));
add(MenuItem(MenuItem::Separator));
// Offer some fractional values of the default
int z = lyxrc.defaultZoom * 1.75;
add(MenuItem(MenuItem::Command,
toqstr(bformat(_("[[ZOOM]]%1$d%"), z)),
FuncRequest(LFUN_BUFFER_ZOOM, convert<string>(z))));
z = lyxrc.defaultZoom * 1.5;
add(MenuItem(MenuItem::Command,
toqstr(bformat(_("[[ZOOM]]%1$d%"), z)),
FuncRequest(LFUN_BUFFER_ZOOM, convert<string>(z))));
z = lyxrc.defaultZoom * 1.25;
add(MenuItem(MenuItem::Command,
toqstr(bformat(_("[[ZOOM]]%1$d%"), z)),
FuncRequest(LFUN_BUFFER_ZOOM, convert<string>(z))));
z = lyxrc.defaultZoom * 0.75;
add(MenuItem(MenuItem::Command,
toqstr(bformat(_("[[ZOOM]]%1$d%"), z)),
FuncRequest(LFUN_BUFFER_ZOOM, convert<string>(z))));
z = lyxrc.defaultZoom * 0.5;
add(MenuItem(MenuItem::Command,
toqstr(bformat(_("[[ZOOM]]%1$d%"), z)),
FuncRequest(LFUN_BUFFER_ZOOM, convert<string>(z))));
z = lyxrc.defaultZoom * 0.25;
add(MenuItem(MenuItem::Command,
toqstr(bformat(_("[[ZOOM]]%1$d%"), z)),
FuncRequest(LFUN_BUFFER_ZOOM, convert<string>(z))));
}
void MenuDefinition::expandQuotes(BufferView const * bv)
{
if (!bv)
return;
if (!bv->cursor().inTexted())
return;
Inset const * inset = bv->cursor().nextInset();
if (!inset || inset->lyxCode() != QUOTE_CODE) {
add(MenuItem(MenuItem::Command,
qt_("No Quote in Scope!"),
FuncRequest(LFUN_NOACTION)));
return;
}
InsetQuotes const * qinset =
static_cast<InsetQuotes const *>(inset);
string const qtype = qinset->getType();
MenuDefinition aqs;
BufferParams const & bp = bv->buffer().masterBuffer()->params();
// The global setting
QuoteStyle globalqs = bp.quotes_style;
char const globalqsc = quoteparams.getStyleChar(globalqs);
// The current language's default
QuoteStyle langdefqs =
bp.getQuoteStyle(bv->cursor().current_font.language()->quoteStyle());
char const langqs = quoteparams.getStyleChar(langdefqs);
bool main_global_qs = false;
bool main_langdef_qs = false;
bool main_dynamic_qs = false;
docstring const subcmd = from_ascii("changetype ");
docstring const wildcards = from_ascii("..");
// Add the items
// First the top level menu (all glyphs of the current style) ...
// Begin with dynamic (if they are current style),
if (qtype[0] == 'x') {
FuncRequest cmd = FuncRequest(LFUN_INSET_MODIFY, subcmd + from_ascii("xld"));
docstring desc = bformat(_("%1$s (dynamic)"),
quoteparams.getShortGuiLabel(globalqsc + from_ascii("ld")));
add(MenuItem(MenuItem::Command, toqstr(desc), cmd));
cmd = FuncRequest(LFUN_INSET_MODIFY, subcmd + from_ascii("xls"));
desc = bformat(_("%1$s (dynamic)"),
quoteparams.getShortGuiLabel(globalqsc + from_ascii("ls")));
add(MenuItem(MenuItem::Command, toqstr(desc), cmd));
cmd = FuncRequest(LFUN_INSET_MODIFY, subcmd + from_ascii("xrd"));
desc = bformat(_("%1$s (dynamic)"),
quoteparams.getShortGuiLabel(globalqsc + from_ascii("rd")));
add(MenuItem(MenuItem::Command, toqstr(desc), cmd));
cmd = FuncRequest(LFUN_INSET_MODIFY, subcmd + from_ascii("xrs"));
desc = bformat(_("%1$s (dynamic)"),
quoteparams.getShortGuiLabel(globalqsc + from_ascii("rs")));
add(MenuItem(MenuItem::Command, toqstr(desc), cmd));
main_dynamic_qs = true;
}
// now traverse through the static styles ...
map<string, docstring> styles = quoteparams.getTypes();
for (auto const & s : styles) {
char style_char = (s.first)[0];
bool langdef = (style_char == langqs);
bool globaldef = (style_char == globalqsc);
docstring const style = from_ascii(s.first);
if (prefixIs(style, qtype[0])) {
FuncRequest cmd = FuncRequest(LFUN_INSET_MODIFY, subcmd + style);
docstring const desc = quoteparams.getShortGuiLabel(style);
add(MenuItem(MenuItem::Command, toqstr(desc), cmd));
main_global_qs = globaldef;
main_langdef_qs = langdef;
}
else if (!langdef && !globaldef && suffixIs(style, from_ascii("ld"))) {
docstring const desc =
quoteparams.getGuiLabel(quoteparams.getQuoteStyle(to_ascii(style)));
FuncRequest cmd = FuncRequest(LFUN_INSET_MODIFY, subcmd + style[0] + "..");
aqs.add(MenuItem(MenuItem::Command, toqstr(desc), cmd));
}
}
add(MenuItem(MenuItem::Separator));
bool display_static = false;
// ... then potentially items to reset to the defaults and to dynamic style ...
if (!main_dynamic_qs && globalqsc != 'x') {
FuncRequest cmd = FuncRequest(LFUN_INSET_MODIFY, subcmd + 'x' + wildcards);
docstring const desc = bformat(_("Use dynamic quotes (%1$s)|d"),
quoteparams.getGuiLabel(globalqs));
add(MenuItem(MenuItem::Command, toqstr(desc), cmd));
display_static = true;
}
if (!main_global_qs && langdefqs != globalqs) {
docstring const variant = main_dynamic_qs ? _("dynamic[[Quotes]]") : _("static[[Quotes]]");
FuncRequest cmd = FuncRequest(LFUN_INSET_MODIFY, subcmd + globalqsc + wildcards);
docstring const desc = bformat(_("Reset to document default (%1$s, %2$s)|o"),
quoteparams.getGuiLabel(globalqs), variant);
add(MenuItem(MenuItem::Command, toqstr(desc), cmd));
}
if (!main_langdef_qs) {
FuncRequest cmd = FuncRequest(LFUN_INSET_MODIFY, subcmd + globalqsc + wildcards);
docstring const desc = (main_dynamic_qs || display_static)
? bformat(_("Reset to language default (%1$s, %2$s)|l"),
quoteparams.getGuiLabel(langdefqs), _("static[[Quotes]]"))
: bformat(_("Reset to language default (%1$s)|l"),
quoteparams.getGuiLabel(langdefqs));
add(MenuItem(MenuItem::Command, toqstr(desc), cmd));
}
add(MenuItem(MenuItem::Separator));
// ... and a subitem with the rest
MenuItem item(MenuItem::Submenu, qt_("Change Style|y"));
item.setSubmenu(aqs);
add(item);
}
void MenuDefinition::expandEnvironmentSeparators(BufferView const * bv,
bool contextmenu)
{
if (!bv)
return;
Text const * text = bv->cursor().text();
// no paragraphs and no separators exist in math
if (!text)
return;
pit_type pit = bv->cursor().selBegin().pit();
Paragraph const & par = text->getPar(pit);
docstring const curlayout = par.layout().name();
docstring outerlayout;
docstring prevlayout;
depth_type current_depth = par.params().depth();
// check if we have an environment in our scope
while (true) {
if (pit == 0)
break;
--pit;
Paragraph cpar = text->getPar(pit);
if (cpar.layout().isEnvironment() && prevlayout.empty()
&& cpar.params().depth() <= current_depth)
prevlayout = cpar.layout().name();
if (cpar.params().depth() < current_depth
&& cpar.layout().isEnvironment()) {
outerlayout = cpar.layout().name();
current_depth = cpar.params().depth();
}
if (cpar.params().depth() == 0)
break;
}
if (par.layout().isEnvironment()) {
docstring label = contextmenu ?
bformat(_("Insert Separated %1$s Above"),
translateIfPossible(curlayout)) :
bformat(_("Separated %1$s Above"),
translateIfPossible(curlayout));
add(MenuItem(MenuItem::Command, toqstr(label),
FuncRequest(LFUN_ENVIRONMENT_SPLIT,
from_ascii("before"))));
label = contextmenu ?
bformat(_("Insert Separated %1$s Below"),
translateIfPossible(curlayout)):
bformat(_("Separated %1$s Below"),
translateIfPossible(curlayout));
// We use command-alternatives here since this is how the binding is defined
// (otherwise, the binding is not displayed in the menu)
if (getStatus(FuncRequest(LFUN_ENVIRONMENT_SPLIT)).enabled())
add(MenuItem(MenuItem::Command, toqstr(label),
FuncRequest(LFUN_COMMAND_ALTERNATIVES,
from_ascii("environment-split ; environment-split previous"))));
}
else if (!prevlayout.empty()) {
docstring const label = contextmenu ?
bformat(_("Insert Separated %1$s Below"),
translateIfPossible(prevlayout)) :
bformat(_("Separated %1$s Below"),
translateIfPossible(prevlayout));
// We use command-alternatives here since this is how the binding is defined
// (otherwise, the binding is not displayed in the menu)
if (getStatus(FuncRequest(LFUN_ENVIRONMENT_SPLIT)).enabled())
add(MenuItem(MenuItem::Command, toqstr(label),
FuncRequest(LFUN_COMMAND_ALTERNATIVES,
from_ascii("environment-split ; environment-split previous"))));
}
if (!outerlayout.empty()) {
docstring label;
if (contextmenu) {
label = (outerlayout == curlayout) ?
bformat(_("Insert Separated Outer %1$s Below"),
translateIfPossible(outerlayout)) :
bformat(_("Insert Separated %1$s Below"),
translateIfPossible(outerlayout));
} else {
label = (outerlayout == curlayout) ?
bformat(_("Separated Outer %1$s Below"),
translateIfPossible(outerlayout)) :
bformat(_("Separated %1$s Below"),
translateIfPossible(outerlayout));
}
add(MenuItem(MenuItem::Command, toqstr(label),
FuncRequest(LFUN_ENVIRONMENT_SPLIT,
from_ascii("outer"))));
}
}
} // namespace
/////////////////////////////////////////////////////////////////////
// Menu::Impl definition and implementation
/////////////////////////////////////////////////////////////////////
struct Menu::Impl
{
/// populates the menu or one of its submenu
/// This is used as a recursive function
void populate(QMenu * qMenu, MenuDefinition const & menu);
/// Only needed for top level menus.
MenuDefinition * top_level_menu;
/// our owning view
GuiView * view;
/// the name of this menu
QString name;
};
/// Get a MenuDefinition item label from the menu backend
static QString label(MenuItem const & mi)
{
QString label = mi.label();
label.replace("&", "&&");
QString shortcut = mi.shortcut();
if (!shortcut.isEmpty()) {
int pos = label.indexOf(shortcut);
if (pos != -1)
//label.insert(pos, 1, char_type('&'));
label.replace(pos, 0, "&");
}
QString const binding = mi.binding();
if (!binding.isEmpty())
label += '\t' + binding;
return label;
}
void Menu::Impl::populate(QMenu * qMenu, MenuDefinition const & menu)
{
LYXERR(Debug::GUI, "populating menu " << menu.name());
if (menu.empty()) {
LYXERR(Debug::GUI, "\tERROR: empty menu " << menu.name());
return;
}
LYXERR(Debug::GUI, " ***** menu entries " << menu.size());
for (MenuItem const & m : menu)
switch (m.kind()) {
case MenuItem::Separator:
qMenu->addSeparator();
break;
case MenuItem::Submenu: {
QMenu * subMenu = qMenu->addMenu(label(m));
populate(subMenu, m.submenu());
subMenu->setEnabled(!subMenu->isEmpty());
break;
}
case MenuItem::Command:
default:
// FIXME: A previous comment assured that MenuItem::Command was the
// only possible case in practice, but this is wrong. It would be
// good to document which cases are actually treated here.
qMenu->addAction(new Action(m.func(), QIcon(), label(m),
m.tooltip(), qMenu));
break;
}
}
#if (defined(Q_OS_WIN) || defined(Q_CYGWIN_WIN))
class AlwaysMnemonicStyle : public QProxyStyle {
public:
int styleHint(StyleHint hint, const QStyleOption *opt = 0, const QWidget *widget = 0,
QStyleHintReturn *returnData = 0) const override
{
if (hint == QStyle::SH_UnderlineShortcut)
return 1;
return QProxyStyle::styleHint(hint, opt, widget, returnData);
}
};
#endif
/////////////////////////////////////////////////////////////////////
// Menu implementation
/////////////////////////////////////////////////////////////////////
Menu::Menu(GuiView * gv, QString const & name, bool top_level, bool keyboard)
: QMenu(gv), d(new Menu::Impl)
{
#if (defined(Q_OS_WIN) || defined(Q_CYGWIN_WIN))
if (keyboard)
setStyle(new AlwaysMnemonicStyle);
#else
(void) keyboard;
#endif
d->top_level_menu = top_level? new MenuDefinition : 0;
d->view = gv;
d->name = name;
setTitle(name);
if (d->top_level_menu)
connect(this, SIGNAL(aboutToShow()), this, SLOT(updateView()));
}
Menu::~Menu()
{
delete d->top_level_menu;
delete d;
}
void Menu::updateView()
{
guiApp->menus().updateMenu(this);
}
void Menu::clear()
{
QList<QAction *> items = actions();
for (int i = 0; i != items.size(); ++i) {
// QAction::menu() returns 0 if there's no submenu.
delete items.at(i)->menu();
}
QMenu::clear();
}
/////////////////////////////////////////////////////////////////////
// Menus::Impl definition and implementation
/////////////////////////////////////////////////////////////////////
struct Menus::Impl {
///
bool hasMenu(QString const &) const;
///
MenuDefinition & getMenu(QString const &);
///
MenuDefinition const & getMenu(QString const &) const;
/// Expands some special entries of the menu
/** The entries with the following kind are expanded to a
sequence of Command MenuItems: Lastfiles, Documents,
ViewFormats, ExportFormats, UpdateFormats, Branches,
Indices, Arguments, SwitchArguments, Captions, SwitchCaptions,
EnvironmentSeparators
*/
void expand(MenuDefinition const & frommenu, MenuDefinition & tomenu,
BufferView const *) const;
/// Initialize specific MACOS X menubar
void macxMenuBarInit(QMenuBar * qmb);
/// Mac special menu.
/** This defines a menu whose entries list the FuncRequests
that will be removed by expand() in other menus. This is
used by the Qt/Mac code.
NOTE: Qt does not remove the menu items when clearing a QMenuBar,
such that the items will keep accessing the FuncRequests in
the MenuDefinition. While Menus::Impl might be recreated,
we keep mac_special_menu_ in memory by making it static.
*/
static MenuDefinition mac_special_menu_;
///
MenuList menulist_;
///
MenuDefinition menubar_;
typedef QMap<GuiView *, QHash<QString, Menu*> > NameMap;
/// name to menu for \c menu() method.
NameMap name_map_;
};
MenuDefinition Menus::Impl::mac_special_menu_;
/*
Here is what the Qt documentation says about how a menubar is chosen:
1) If the window has a QMenuBar then it is used. 2) If the window
is a modal then its menubar is used. If no menubar is specified
then a default menubar is used (as documented below) 3) If the
window has no parent then the default menubar is used (as
documented below).
The above 3 steps are applied all the way up the parent window
chain until one of the above are satisfied. If all else fails a
default menubar will be created, the default menubar on Qt/Mac is
an empty menubar, however you can create a different default
menubar by creating a parentless QMenuBar, the first one created
will thus be designated the default menubar, and will be used
whenever a default menubar is needed.
Thus, for Qt/Mac, we add the menus to a free standing menubar, so
that this menubar will be used also when one of LyX' dialogs has
focus. (JMarc)
*/
void Menus::Impl::macxMenuBarInit(QMenuBar * qmb)
{
/* The qt/mac menu code has special code for specifying the role
of a menu entry. However, it does not work very well with our
scheme of creating menus on demand, and therefore we need to
put these entries in a special invisible menu. (JMarc)
*/
/* The entries of our special mac menu. If we add support for
* special entries in Menus, we could imagine something
* like
* SpecialItem About " "About LyX" "dialog-show aboutlyx"
* and therefore avoid hardcoding. I am not sure it is worth
* the hassle, though. (JMarc)
*/
struct MacMenuEntry {
FuncCode action;
char const * arg;
char const * label;
QAction::MenuRole role;
};
static const MacMenuEntry entries[] = {
{LFUN_DIALOG_SHOW, "aboutlyx", "About LyX",
QAction::AboutRole},
{LFUN_DIALOG_SHOW, "prefs", "Preferences",
QAction::PreferencesRole},
{LFUN_LYX_QUIT, "", "Quit LyX", QAction::QuitRole}
};
const size_t num_entries = sizeof(entries) / sizeof(entries[0]);
const bool first_call = mac_special_menu_.empty();
LYXERR(Debug::GUI, "Creating Mac OS X special menu bar");
// the special menu for Menus. Fill it up only once.
if (first_call) {
for (size_t i = 0 ; i < num_entries ; ++i) {
FuncRequest const func(entries[i].action,
from_utf8(entries[i].arg));
mac_special_menu_.add(MenuItem(MenuItem::Command,
entries[i].label, func));
}
}
// add the entries to a QMenu that will eventually be empty
// and therefore invisible.
QMenu * qMenu = qmb->addMenu("special");
size_t i = 0;
for (MenuItem const & m : mac_special_menu_) {
Action * action = new Action(m.func(), QIcon(), m.label(),
QString(), qMenu);
action->setMenuRole(entries[i].role);
qMenu->addAction(action);
++i;
}
}
void Menus::Impl::expand(MenuDefinition const & frommenu,
MenuDefinition & tomenu, BufferView const * bv) const
{
if (!tomenu.empty())
tomenu.clear();
for (MenuDefinition::const_iterator cit = frommenu.begin();
cit != frommenu.end() ; ++cit) {
Buffer const * buf = bv ? &bv->buffer() : 0;
switch (cit->kind()) {
case MenuItem::Lastfiles:
tomenu.expandLastfiles();
break;
case MenuItem::Documents:
tomenu.expandDocuments();
break;
case MenuItem::Bookmarks:
tomenu.expandBookmarks();
break;
case MenuItem::ImportFormats:
case MenuItem::ViewFormats:
case MenuItem::UpdateFormats:
case MenuItem::ExportFormats:
tomenu.expandFormats(cit->kind(), buf);
break;
case MenuItem::ExportFormat: {
if (!buf)
break;
string const format = buf->params().getDefaultOutputFormat();
Format const * f = theFormats().getFormat(format);
docstring const name = f ? translateIfPossible(f->prettyname())
: from_utf8(format);
docstring const label = bformat(_("Export [%1$s]|E"), name);
MenuItem item(MenuItem::Command, toqstr(label),
FuncRequest(LFUN_BUFFER_EXPORT));
tomenu.addWithStatusCheck(item);
break;
}
case MenuItem::CharStyles:
tomenu.expandFlexInsert(buf, InsetLyXType::CHARSTYLE);
break;
case MenuItem::Custom:
tomenu.expandFlexInsert(buf, InsetLyXType::CUSTOM);
break;
case MenuItem::FloatListInsert:
tomenu.expandFloatListInsert(buf);
break;
case MenuItem::FloatInsert:
tomenu.expandFloatInsert(buf);
break;
case MenuItem::PasteRecent:
tomenu.expandPasteRecent(buf);
break;
case MenuItem::Toolbars:
tomenu.expandToolbars();
break;
case MenuItem::Branches:
tomenu.expandBranches(buf);
break;
case MenuItem::Indices:
tomenu.expandIndices(buf);
break;
case MenuItem::IndicesContext:
tomenu.expandIndicesContext(buf);
break;
case MenuItem::IndicesLists:
tomenu.expandIndices(buf, true);
break;
case MenuItem::IndicesListsContext:
tomenu.expandIndicesContext(buf, true);
break;
case MenuItem::CiteStyles:
tomenu.expandCiteStyles(bv);
break;
case MenuItem::InfoArguments:
tomenu.expandInfoArguments(bv);
break;
case MenuItem::Toc:
tomenu.expandToc(buf);
break;
case MenuItem::GraphicsGroups:
tomenu.expandGraphicsGroups(bv);
break;
case MenuItem::SpellingSuggestions:
tomenu.expandSpellingSuggestions(bv);
break;
case MenuItem::LanguageSelector:
tomenu.expandLanguageSelector(buf);
break;
case MenuItem::Arguments:
tomenu.expandArguments(bv, false);
break;
case MenuItem::SwitchArguments:
tomenu.expandArguments(bv, true);
break;
case MenuItem::Captions:
tomenu.expandCaptions(buf, false);
break;
case MenuItem::SwitchCaptions:
tomenu.expandCaptions(buf, true);
break;
case MenuItem::EnvironmentSeparators:
tomenu.expandEnvironmentSeparators(bv);
break;
case MenuItem::EnvironmentSeparatorsContext:
tomenu.expandEnvironmentSeparators(bv, true);
break;
case MenuItem::SwitchQuotes:
tomenu.expandQuotes(bv);
break;
case MenuItem::ZoomOptions:
tomenu.expandZoomOptions(bv);
break;
case MenuItem::Submenu: {
MenuItem item(*cit);
item.setSubmenu(MenuDefinition(cit->submenuname()));
expand(getMenu(cit->submenuname()), item.submenu(), bv);
tomenu.addWithStatusCheck(item);
}
break;
case MenuItem::Info:
case MenuItem::Help:
case MenuItem::Separator:
tomenu.addWithStatusCheck(*cit);
break;
case MenuItem::Command:
if (!mac_special_menu_.hasFunc(*cit->func()))
tomenu.addWithStatusCheck(*cit);
}
}
// we do not want the menu to end with a separator
if (!tomenu.empty() && tomenu.items_.back().kind() == MenuItem::Separator)
tomenu.items_.pop_back();
// Check whether the shortcuts are unique
tomenu.checkShortcuts();
}
bool Menus::Impl::hasMenu(QString const & name) const
{
return find_if(menulist_.begin(), menulist_.end(),
MenuNamesEqual(name)) != menulist_.end();
}
MenuDefinition const & Menus::Impl::getMenu(QString const & name) const
{
const_iterator cit = find_if(menulist_.begin(), menulist_.end(),
MenuNamesEqual(name));
if (cit == menulist_.end()) {
LYXERR0("No submenu named " << name);
LASSERT(false, { static const MenuDefinition m; return m; });
}
return (*cit);
}
MenuDefinition & Menus::Impl::getMenu(QString const & name)
{
iterator it = find_if(menulist_.begin(), menulist_.end(),
MenuNamesEqual(name));
if (it == menulist_.end()) {
LYXERR0("No submenu named " << name);
LASSERT(false, { static MenuDefinition m; return m; });
}
return (*it);
}
/////////////////////////////////////////////////////////////////////
//
// Menus
//
/////////////////////////////////////////////////////////////////////
Menus::Menus() : d(new Impl) {}
Menus::~Menus()
{
delete d;
}
void Menus::reset()
{
delete d;
d = new Impl;
}
void Menus::read(Lexer & lex)
{
enum {
md_menu,
md_menubar,
md_endmenuset
};
LexerKeyword menutags[] = {
{ "end", md_endmenuset },
{ "menu", md_menu },
{ "menubar", md_menubar }
};
// consistency check
if (compare_ascii_no_case(lex.getString(), "menuset"))
LYXERR0("Menus::read: ERROR wrong token: `" << lex.getString() << '\'');
lex.pushTable(menutags);
lex.setContext("Menus::read");
bool quit = false;
while (lex.isOK() && !quit) {
switch (lex.lex()) {
case md_menubar:
d->menubar_.read(lex);
break;
case md_menu: {
lex.next(true);
QString const name = toqstr(lex.getDocString());
if (d->hasMenu(name))
d->getMenu(name).read(lex);
else {
MenuDefinition menu(name);
menu.read(lex);
d->menulist_.push_back(menu);
}
break;
}
case md_endmenuset:
quit = true;
break;
default:
lex.printError("Unknown menu tag");
break;
}
}
lex.popTable();
}
bool Menus::searchMenu(FuncRequest const & func,
docstring_list & names, BufferView const * bv) const
{
MenuDefinition menu;
d->expand(d->menubar_, menu, bv);
return menu.searchMenu(func, names);
}
void Menus::fillMenuBar(QMenuBar * qmb, GuiView * view, bool initial)
{
if (initial) {
#ifdef Q_OS_MAC
// setup special mac specific menu items, but only do this
// the first time a QMenuBar is created. Otherwise Qt will
// create duplicate items in the application menu. It seems
// that Qt does not remove them when the QMenubar is cleared.
d->macxMenuBarInit(qmb);
#endif
} else {
// Clear all menubar contents before filling it.
qmb->clear();
#if (defined(Q_OS_MAC))
d->macxMenuBarInit(qmb);
#endif
}
LYXERR(Debug::GUI, "populating menu bar" << d->menubar_.name());
if (d->menubar_.empty()) {
LYXERR(Debug::GUI, "\tERROR: empty menu bar"
<< d->menubar_.name());
return;
}
LYXERR(Debug::GUI, "menu bar entries " << d->menubar_.size());
MenuDefinition menu;
BufferView * bv = 0;
if (view)
bv = view->currentBufferView();
d->expand(d->menubar_, menu, bv);
MenuDefinition::const_iterator m = menu.begin();
MenuDefinition::const_iterator end = menu.end();
for (; m != end; ++m) {
if (m->kind() != MenuItem::Submenu) {
LYXERR(Debug::GUI, "\tERROR: not a submenu " << m->label());
continue;
}
LYXERR(Debug::GUI, "menu bar item " << m->label()
<< " is a submenu named " << m->submenuname());
QString name = m->submenuname();
if (!d->hasMenu(name)) {
LYXERR(Debug::GUI, "\tERROR: " << name
<< " submenu has no menu!");
continue;
}
Menu * menuptr = new Menu(view, m->submenuname(), true);
menuptr->setTitle(label(*m));
#if defined(Q_OS_MAC)
// On Mac OS with Qt/Cocoa, the menu is not displayed if there is no action
// so we create a temporary one here
QAction * action = new QAction(menuptr);
menuptr->addAction(action);
#endif
qmb->addMenu(menuptr);
d->name_map_[view][name] = menuptr;
}
}
void Menus::updateMenu(Menu * qmenu)
{
LYXERR(Debug::GUI, "Triggered menu: " << qmenu->d->name);
qmenu->clear();
if (qmenu->d->name.isEmpty())
return;
docstring identifier = qstring_to_ucs4(qmenu->d->name);
MenuDefinition fromLyxMenu(qmenu->d->name);
while (!identifier.empty()) {
docstring menu_name;
identifier = split(identifier, menu_name, ';');
if (!d->hasMenu(toqstr(menu_name))) {
LYXERR(Debug::GUI, "\tWARNING: non existing menu: "
<< menu_name);
continue;
}
MenuDefinition cat_menu = d->getMenu(toqstr(menu_name));
//FIXME: 50 is a wild guess. We should take into account here
//the expansion of menu items, disabled optional items etc.
bool const in_sub_menu = !fromLyxMenu.empty()
&& fromLyxMenu.size() + cat_menu.size() > 50 ;
if (in_sub_menu)
fromLyxMenu.catSub(menu_name);
else
fromLyxMenu.cat(cat_menu);
fromLyxMenu.add(MenuItem(MenuItem::Separator));
}
if (fromLyxMenu.empty()) {
qmenu->addAction(qt_("No Action Defined!"));
return;
}
BufferView * bv = 0;
if (qmenu->d->view)
bv = qmenu->d->view->currentBufferView();
d->expand(fromLyxMenu, *qmenu->d->top_level_menu, bv);
qmenu->d->populate(qmenu, *qmenu->d->top_level_menu);
}
Menu * Menus::menu(QString const & name, GuiView & view, bool keyboard)
{
LYXERR(Debug::GUI, "Context menu requested: " << name);
Menu * menu = d->name_map_[&view].value(name, 0);
if (!menu && !name.startsWith("context-")) {
LYXERR0("requested context menu not found: " << name);
return 0;
}
menu = new Menu(&view, name, true, keyboard);
d->name_map_[&view][name] = menu;
return menu;
}
} // namespace frontend
} // namespace lyx
#include "moc_Menus.cpp"