lyx_mirror/src/KeyMap.cpp

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/**
* \file KeyMap.cpp
* This file is part of LyX, the document processor.
* Licence details can be found in the file COPYING.
*
* \author Lars Gullik Bjønnes
* \author Jean-Marc Lasgouttes
* \author John Levon
* \author André Pönitz
*
* Full author contact details are available in file CREDITS.
*/
#include <config.h>
#include "KeyMap.h"
#include "KeySequence.h"
#include "LyXAction.h"
#include "Lexer.h"
#include "support/debug.h"
#include "support/docstream.h"
#include "support/FileName.h"
#include "support/filetools.h"
#include "support/gettext.h"
#include "support/lstrings.h"
#include "frontends/alert.h"
#include <fstream>
#include <sstream>
#include <utility>
using namespace std;
using namespace lyx::support;
namespace lyx {
string const KeyMap::printKeySym(KeySymbol const & key, KeyModifier mod)
{
string buf;
string const s = key.getSymbolName();
if (mod & ControlModifier)
buf += "C-";
if (mod & AltModifier)
buf += "M-";
if (mod & ShiftModifier)
buf += "S-";
buf += s;
return buf;
}
size_t KeyMap::bind(string const & seq, FuncRequest const & func)
{
LYXERR(Debug::KBMAP, "BIND: Sequence `" << seq << "' Action `"
<< func.action() << '\'');
KeySequence k(0, 0);
string::size_type const res = k.parse(seq);
if (res == string::npos) {
bind(&k, func);
} else {
LYXERR(Debug::KBMAP, "Parse error at position " << res
<< " in key sequence '" << seq << "'.");
}
return res == string::npos ? 0 : res;
}
size_t KeyMap::unbind(string const & seq, FuncRequest const & func)
{
KeySequence k(0, 0);
string::size_type const res = k.parse(seq);
if (res == string::npos)
unbind(&k, func);
else
LYXERR(Debug::KBMAP, "Parse error at position " << res
<< " in key sequence '" << seq << "'.");
return res == string::npos ? 0 : res;
}
void KeyMap::bind(KeySequence * seq, FuncRequest const & func, unsigned int r)
{
KeySymbol code = seq->sequence[r];
if (!code.isOK())
return;
KeyModifier const mod1 = seq->modifiers[r].first;
KeyModifier const mod2 = seq->modifiers[r].second;
// check if key is already there
Table::iterator end = table.end();
for (Table::iterator it = table.begin(); it != end; ++it) {
if (code == it->code
&& mod1 == it->mod.first
&& mod2 == it->mod.second) {
// overwrite binding
if (r + 1 == seq->length()) {
LYXERR(Debug::KBMAP, "Warning: New binding for '"
<< to_utf8(seq->print(KeySequence::Portable))
<< "' is overriding old binding...");
if (it->prefixes.get()) {
it->prefixes.reset();
}
it->func = func;
it->func.setOrigin(FuncRequest::KEYBOARD);
return;
} else if (!it->prefixes.get()) {
lyxerr << "Error: New binding for '"
<< to_utf8(seq->print(KeySequence::Portable))
<< "' is overriding old binding..."
<< endl;
return;
} else {
it->prefixes->bind(seq, func, r + 1);
return;
}
}
}
Table::iterator newone = table.insert(table.end(), Key());
newone->code = code;
newone->mod = seq->modifiers[r];
if (r + 1 == seq->length()) {
newone->func = func;
newone->func.setOrigin(FuncRequest::KEYBOARD);
newone->prefixes.reset();
} else {
newone->prefixes.reset(new KeyMap);
newone->prefixes->bind(seq, func, r + 1);
}
}
void KeyMap::unbind(KeySequence * seq, FuncRequest const & func, unsigned int r)
{
KeySymbol code = seq->sequence[r];
if (!code.isOK())
return;
KeyModifier const mod1 = seq->modifiers[r].first;
KeyModifier const mod2 = seq->modifiers[r].second;
// check if key is already there
Table::iterator end = table.end();
Table::iterator remove = end;
for (Table::iterator it = table.begin(); it != end; ++it) {
if (code == it->code
&& mod1 == it->mod.first
&& mod2 == it->mod.second) {
// remove
if (r + 1 == seq->length()) {
if (it->func == func) {
remove = it;
if (it->prefixes.get())
it->prefixes.reset();
}
} else if (it->prefixes.get()) {
it->prefixes->unbind(seq, func, r + 1);
if (it->prefixes->empty())
remove = it;
return;
}
}
}
if (remove != end)
table.erase(remove);
}
FuncRequest KeyMap::getBinding(KeySequence const & seq, unsigned int r)
{
KeySymbol code = seq.sequence[r];
if (!code.isOK())
return FuncRequest::unknown;
KeyModifier const mod1 = seq.modifiers[r].first;
KeyModifier const mod2 = seq.modifiers[r].second;
// check if key is already there
Table::iterator end = table.end();
for (Table::iterator it = table.begin(); it != end; ++it) {
if (code == it->code
&& mod1 == it->mod.first
&& mod2 == it->mod.second) {
if (r + 1 == seq.length())
return it->func;
else if (it->prefixes.get())
return it->prefixes->getBinding(seq, r + 1);
}
}
return FuncRequest::unknown;
}
void KeyMap::clear()
{
table.clear();
}
bool KeyMap::read(string const & bind_file, KeyMap * unbind_map, BindReadType rt)
{
FileName bf = i18nLibFileSearch("bind", bind_file, "bind");
if (bf.empty()) {
if (rt == MissingOK)
return true;
lyxerr << "Could not find bind file: " << bind_file;
if (rt == Default) {
frontend::Alert::warning(_("Could not find bind file"),
bformat(_("Unable to find the bind file\n%1$s.\n"
"Please check your installation."), from_utf8(bind_file)));
return false;
}
static string const defaultBindfile = "cua";
if (bind_file == defaultBindfile) {
frontend::Alert::warning(_("Could not find `cua.bind' file"),
_("Unable to find the default bind file `cua.bind'.\n"
"Please check your installation."));
return false;
}
// Try it with the default file.
frontend::Alert::warning(_("Could not find bind file"),
bformat(_("Unable to find the bind file\n%1$s.\n"
"Falling back to default."), from_utf8(bind_file)));
return read(defaultBindfile, unbind_map);
}
return read(bf, unbind_map);
}
bool KeyMap::read(FileName const & bind_file, KeyMap * unbind_map)
{
enum {
BN_BIND,
BN_BINDFILE,
BN_UNBIND,
};
LexerKeyword bindTags[] = {
{ "\\bind", BN_BIND },
{ "\\bind_file", BN_BINDFILE },
{ "\\unbind", BN_UNBIND },
};
Lexer lexrc(bindTags);
if (lyxerr.debugging(Debug::PARSER))
lexrc.printTable(lyxerr);
lexrc.setFile(bind_file);
if (!lexrc.isOK()) {
LYXERR0("KeyMap::read: cannot open bind file:" << bind_file.absFileName());
return false;
}
LYXERR(Debug::KBMAP, "Reading bind file:" << bind_file.absFileName());
bool error = false;
while (lexrc.isOK()) {
switch (lexrc.lex()) {
case Lexer::LEX_UNDEF:
lexrc.printError("Unknown tag `$$Token'");
error = true;
continue;
case Lexer::LEX_FEOF:
continue;
case BN_BIND: {
if (!lexrc.next()) {
lexrc.printError("BN_BIND: Missing key sequence");
error = true;
break;
}
string seq = lexrc.getString();
if (!lexrc.next(true)) {
lexrc.printError("BN_BIND: missing command");
error = true;
break;
}
string cmd = lexrc.getString();
FuncRequest func = lyxaction.lookupFunc(cmd);
if (func.action() == LFUN_UNKNOWN_ACTION) {
lexrc.printError("BN_BIND: Unknown LyX function `$$Token'");
error = true;
break;
}
bind(seq, func);
break;
}
case BN_UNBIND: {
if (!lexrc.next()) {
lexrc.printError("BN_UNBIND: Missing key sequence");
error = true;
break;
}
string seq = lexrc.getString();
if (!lexrc.next(true)) {
lexrc.printError("BN_UNBIND: missing command");
error = true;
break;
}
string cmd = lexrc.getString();
FuncRequest func = lyxaction.lookupFunc(cmd);
if (func.action() == LFUN_UNKNOWN_ACTION) {
lexrc.printError("BN_UNBIND: Unknown LyX"
" function `$$Token'");
error = true;
break;
}
if (unbind_map)
unbind_map->bind(seq, func);
else
unbind(seq, func);
break;
}
case BN_BINDFILE:
if (!lexrc.next()) {
lexrc.printError("BN_BINDFILE: Missing file name");
error = true;
break;
}
string const tmp = lexrc.getString();
error |= !read(tmp, unbind_map);
break;
}
}
if (error)
LYXERR0("KeyMap::read: error while reading bind file:" << bind_file.absFileName());
return !error;
}
void KeyMap::write(string const & bind_file, bool append, bool unbind) const
{
ofstream os(bind_file.c_str(),
append ? (ios::app | ios::out) : ios::out);
if (!append)
os << "## This file is automatically generated by lyx\n"
<< "## All modifications will be lost\n\n";
string tag = unbind ? "\\unbind" : "\\bind";
BindingList const list = listBindings(false);
BindingList::const_iterator it = list.begin();
BindingList::const_iterator it_end = list.end();
for (; it != it_end; ++it) {
FuncCode action = it->request.action();
string arg = to_utf8(it->request.argument());
os << tag << " \""
<< to_utf8(it->sequence.print(KeySequence::BindFile))
<< "\" \""
<< lyxaction.getActionName(action)
<< (arg.empty() ? "" : " ") << arg
<< "\"\n";
}
os << "\n";
os.close();
}
FuncRequest const & KeyMap::lookup(KeySymbol const &key,
KeyModifier mod, KeySequence * seq) const
{
if (table.empty()) {
seq->reset();
return FuncRequest::unknown;
}
Table::const_iterator end = table.end();
for (Table::const_iterator cit = table.begin(); cit != end; ++cit) {
KeyModifier mask = cit->mod.second;
KeyModifier check = static_cast<KeyModifier>(mod & ~mask);
if (cit->code == key && cit->mod.first == check) {
// match found
if (cit->prefixes.get()) {
// this is a prefix key - set new map
seq->curmap = cit->prefixes.get();
static FuncRequest prefix(LFUN_COMMAND_PREFIX);
return prefix;
} else {
// final key - reset map
seq->reset();
return cit->func;
}
}
}
// error - key not found:
seq->reset();
return FuncRequest::unknown;
}
docstring const KeyMap::print(bool forgui) const
{
docstring buf;
Table::const_iterator end = table.end();
for (Table::const_iterator cit = table.begin(); cit != end; ++cit) {
buf += cit->code.print(cit->mod.first, forgui);
buf += ' ';
}
return buf;
}
docstring KeyMap::printBindings(FuncRequest const & func,
KeySequence::outputFormat format) const
{
Bindings bindings = findBindings(func);
if (bindings.empty())
return docstring();
odocstringstream res;
Bindings::const_iterator cit = bindings.begin();
Bindings::const_iterator cit_end = bindings.end();
// print the first item
res << cit->print(format);
// more than one shortcuts?
for (++cit; cit != cit_end; ++cit)
res << ", " << cit->print(format);
return res.str();
}
KeyMap::Bindings KeyMap::findBindings(FuncRequest const & func) const
{
return findBindings(func, KeySequence(0, 0));
}
KeyMap::Bindings KeyMap::findBindings(FuncRequest const & func,
KeySequence const & prefix) const
{
Bindings res;
if (table.empty())
return res;
Table::const_iterator end = table.end();
for (Table::const_iterator cit = table.begin(); cit != end; ++cit) {
if (cit->prefixes.get()) {
KeySequence seq = prefix;
seq.addkey(cit->code, cit->mod.first);
Bindings res2 = cit->prefixes->findBindings(func, seq);
res.insert(res.end(), res2.begin(), res2.end());
} else if (cit->func == func) {
KeySequence seq = prefix;
seq.addkey(cit->code, cit->mod.first);
res.push_back(seq);
}
}
return res;
}
KeyMap::BindingList KeyMap::listBindings(bool unbound, KeyMap::ItemType tag) const
{
BindingList list;
listBindings(list, KeySequence(0, 0), tag);
if (unbound) {
LyXAction::const_iterator fit = lyxaction.func_begin();
LyXAction::const_iterator const fen = lyxaction.func_end();
for (; fit != fen; ++fit) {
FuncCode action = fit->second;
bool has_action = false;
BindingList::const_iterator bit = list.begin();
BindingList::const_iterator const ben = list.end();
for (; bit != ben; ++bit)
if (bit->request.action() == action) {
has_action = true;
break;
}
if (!has_action)
list.push_back(Binding(FuncRequest(action), KeySequence(0, 0), tag));
}
}
return list;
}
void KeyMap::listBindings(BindingList & list,
KeySequence const & prefix, KeyMap::ItemType tag) const
{
Table::const_iterator it = table.begin();
Table::const_iterator it_end = table.end();
for (; it != it_end; ++it) {
// a LFUN_COMMAND_PREFIX
if (it->prefixes.get()) {
KeySequence seq = prefix;
seq.addkey(it->code, it->mod.first);
it->prefixes->listBindings(list, seq, tag);
} else {
KeySequence seq = prefix;
seq.addkey(it->code, it->mod.first);
list.push_back(Binding(it->func, seq, tag));
}
}
}
} // namespace lyx