X-Git-Url: https://git.dogcows.com/gitweb?a=blobdiff_plain;f=src%2Fbindings.cc;h=78fc74cdfe642f1e5ca1f241104c2c65cc2c5429;hb=5face4c6f35172761367f63ac0b6eaf62d84e532;hp=4517f29d89b7f3bcc7b9b0b659dfef410b659639;hpb=1369b32df813bfad0a19ec77751c2d3594e944c6;p=chaz%2Fopenbox diff --git a/src/bindings.cc b/src/bindings.cc index 4517f29d..78fc74cd 100644 --- a/src/bindings.cc +++ b/src/bindings.cc @@ -5,163 +5,179 @@ #endif #include "bindings.hh" +#include "screen.hh" +#include "openbox.hh" +#include "client.hh" +#include "frame.hh" +#include "python.hh" #include "otk/display.hh" extern "C" { #include + +#include "gettext.h" +#define _(str) gettext(str) } +#include + namespace ob { -#include -static void print_branch(BindingTree *first, std::string str) +static bool buttonvalue(const std::string &button, unsigned int *val) { - BindingTree *p = first; - - while (p) { - if (p->first_child) - print_branch(p->first_child, str + " " + p->text); - if (!p->chain) - printf("%d%s\n", p->id, (str + " " + p->text).c_str()); - BindingTree *s = p->next_sibling; - delete p; - p = s; - } + if (button == "Left" || button == "1" || button == "Button1") { + *val |= Button1; + } else if (button == "Middle" || button == "2" || button == "Button2") { + *val |= Button2; + } else if (button == "Right" || button == "3" || button == "Button3") { + *val |= Button3; + } else if (button == "Up" || button == "4" || button == "Button4") { + *val |= Button4; + } else if (button == "Down" || button == "5" || button == "Button5") { + *val |= Button5; + } else + return false; + return true; } - -void OBBindings::display() +static bool modvalue(const std::string &mod, unsigned int *val) { - if (_tree.first_child) - print_branch(_tree.first_child, ""); + if (mod == "C") { // control + *val |= ControlMask; + } else if (mod == "S") { // shift + *val |= ShiftMask; + } else if (mod == "A" || // alt/mod1 + mod == "M" || + mod == "Mod1" || + mod == "M1") { + *val |= Mod1Mask; + } else if (mod == "Mod2" || // mod2 + mod == "M2") { + *val |= Mod2Mask; + } else if (mod == "Mod3" || // mod3 + mod == "M3") { + *val |= Mod3Mask; + } else if (mod == "W" || // windows/mod4 + mod == "Mod4" || + mod == "M4") { + *val |= Mod4Mask; + } else if (mod == "Mod5" || // mod5 + mod == "M5") { + *val |= Mod5Mask; + } else { // invalid + return false; + } + return true; } - - -bool OBBindings::translate(const std::string &str, Binding &b) +bool Bindings::translate(const std::string &str, Binding &b,bool askey) const { - unsigned int mods = 0; - // parse out the base key name std::string::size_type keybegin = str.find_last_of('-'); keybegin = (keybegin == std::string::npos) ? 0 : keybegin + 1; std::string key(str, keybegin); - // XXX: get some modifiers up in the hizzie // parse out the requested modifier keys + unsigned int modval = 0; std::string::size_type begin = 0, end; while (begin != keybegin) { end = str.find_first_of('-', begin); std::string mod(str, begin, end-begin); - - if (mod == "C") { // control - mods |= ControlMask; - } else if (mod == "S") { // shift - mods |= ShiftMask; - } else if (mod == "A" || // alt/mod1 - mod == "M" || - mod == "M1" || - mod == "Mod1") { - mods |= Mod1Mask; - } else if (mod == "M2" || // mod2 - mod == "Mod2") { - mods |= Mod2Mask; - } else if (mod == "M3" || // mod3 - mod == "Mod3") { - mods |= Mod3Mask; - } else if (mod == "W" || // windows/mod4 - mod == "M4" || - mod == "Mod4") { - mods |= Mod4Mask; - } else if (mod == "M5" || // mod5 - mod == "Mod5") { - mods |= Mod5Mask; + if (!modvalue(mod, &modval)) { + printf(_("Invalid modifier element in key binding: %s\n"), mod.c_str()); + return false; } - printf("got modifier: got modifier: %s\n", mod.c_str()); begin = end + 1; } - - KeySym sym = XStringToKeysym(const_cast(key.c_str())); - if (sym == NoSymbol) return false; - b.modifiers = mods; - b.key = XKeysymToKeycode(otk::OBDisplay::display, sym); - return b.key != 0; -} - -BindingTree *OBBindings::buildtree(const StringVect &keylist, int id) -{ - if (keylist.empty()) return 0; // nothing in the list.. return 0 - - BindingTree *ret = new BindingTree(id), *p = 0; - StringVect::const_iterator it, end = keylist.end(); - for (it = keylist.begin(); it != end; ++it) { - if (p) - p = p->first_child = new BindingTree(id); - else - p = ret; // the first node - - if (!translate(*it, p->binding)) - break; - p->text = *it; - } - if (it != end) { - // build failed.. clean up and return 0 - p = ret; - while (p->first_child) { - BindingTree *c = p->first_child; - delete p; - p = c; + // set the binding + b.modifiers = modval; + if (askey) { + KeySym sym = XStringToKeysym(const_cast(key.c_str())); + if (sym == NoSymbol) { + printf(_("Invalid Key name in key binding: %s\n"), key.c_str()); + return false; } - delete p; - return 0; + if (!(b.key = XKeysymToKeycode(**otk::display, sym))) + printf(_("No valid keycode for Key in key binding: %s\n"), key.c_str()); + return b.key != 0; } else { - // set the proper chain status on the last node - p->chain = false; + return buttonvalue(key, &b.key); } - - printf("BUILDING:\n"); - print_branch(ret, ""); - - // successfully built a tree - return ret; } -static void destroytree(BindingTree *tree) +static void destroytree(KeyBindingTree *tree) { while (tree) { - BindingTree *c = tree->first_child; + KeyBindingTree *c = tree->first_child; delete tree; tree = c; } } -OBBindings::OBBindings() +KeyBindingTree *Bindings::buildtree(const StringVect &keylist, + PyObject *callback) const { + if (keylist.empty()) return 0; // nothing in the list.. return 0 + + KeyBindingTree *ret = 0, *p; + + StringVect::const_reverse_iterator it, end = keylist.rend(); + for (it = keylist.rbegin(); it != end; ++it) { + p = ret; + ret = new KeyBindingTree(); + if (!p) { + // this is the first built node, the bottom node of the tree + ret->chain = false; + ret->callbacks.push_back(callback); + } + ret->first_child = p; + if (!translate(*it, ret->binding)) { + destroytree(ret); + ret = 0; + break; + } + } + return ret; } -OBBindings::~OBBindings() +Bindings::Bindings() + : _curpos(&_keytree), + _resetkey(0,0), + _timer((otk::Timer *) 0), + _keybgrab_callback(0) { - remove_all(); +// setResetKey("C-g"); // set the default reset key } -void OBBindings::assimilate(BindingTree *node) +Bindings::~Bindings() { - BindingTree *a, *b, *tmp, *last; + if (_timer) + delete _timer; + + grabKeys(false); + removeAllKeys(); +// removeAllButtons(); XXX + removeAllEvents(); +} - if (!_tree.first_child) { + +void Bindings::assimilate(KeyBindingTree *node) +{ + KeyBindingTree *a, *b, *tmp, *last; + + if (!_keytree.first_child) { // there are no nodes at this level yet - _tree.first_child = node; - return; + _keytree.first_child = node; } else { - a = _tree.first_child; + a = _keytree.first_child; last = a; b = node; - while (a->first_child) { + while (a) { last = a; if (a->binding != b->binding) { a = a->next_sibling; @@ -172,124 +188,453 @@ void OBBindings::assimilate(BindingTree *node) a = a->first_child; } } - last->first_child = b->first_child; - delete b; + if (last->binding != b->binding) + last->next_sibling = b; + else { + last->first_child = b->first_child; + delete b; + } } } -int OBBindings::find(BindingTree *search) { - BindingTree *a, *b; - a = _tree.first_child; +KeyBindingTree *Bindings::find(KeyBindingTree *search, + bool *conflict) const { + *conflict = false; + KeyBindingTree *a, *b; + a = _keytree.first_child; b = search; while (a && b) { if (a->binding != b->binding) { a = a->next_sibling; } else { if (a->chain == b->chain) { - if (!a->chain) - return a->id; // found it! (return the actual id, not the search's) - } else - return -2; // the chain status' don't match (conflict!) + if (!a->chain) { + // found it! (return the actual id, not the search's) + return a; + } + } else { + *conflict = true; + return 0; // the chain status' don't match (conflict!) + } b = b->first_child; a = a->first_child; } } - return -1; // it just isn't in here + return 0; // it just isn't in here } -/* -static int find(BindingTree *parent, BindingTree *node) { - BindingTree *p, *lastsib, *nextparent, *nextnode = node->first_child; - - if (!parent->first_child) - return -1; - - p = parent->first_child; - while (p) { - if (node->binding == p->binding) { - if (node->chain == p->chain) { - if (!node->chain) { - return p->id; // found it! (return the actual id, not the search's) - } else { - break; // go on to the next child in the chain - } - } else { - return -2; // the chain status' don't match (conflict!) - } - } - p = p->next_sibling; - } - if (!p) return -1; // doesn't exist - - if (node->chain) { - assert(node->first_child); - return find(p, node->first_child); - } else - return -1; // it just isnt in here -} -*/ -bool OBBindings::add(const StringVect &keylist, int id) +bool Bindings::addKey(const StringVect &keylist, PyObject *callback) { - BindingTree *tree; + KeyBindingTree *tree, *t; + bool conflict; - if (!(tree = buildtree(keylist, id))) + if (!(tree = buildtree(keylist, callback))) return false; // invalid binding requested - if (find(tree) < -1) { + t = find(tree, &conflict); + if (conflict) { // conflicts with another binding destroytree(tree); return false; } - // assimilate this built tree into the main tree - assimilate(tree); // assimilation destroys/uses the tree + if (t) { + // already bound to something + // XXX: look if callback is already bound to this key? + t->callbacks.push_back(callback); + destroytree(tree); + } else { + // grab the server here to make sure no key pressed go missed + otk::display->grab(); + grabKeys(false); + + // assimilate this built tree into the main tree + assimilate(tree); // assimilation destroys/uses the tree + + grabKeys(true); + otk::display->ungrab(); + } + + Py_INCREF(callback); + return true; } -int OBBindings::find(const StringVect &keylist) +bool Bindings::removeKey(const StringVect &keylist, PyObject *callback) { - BindingTree *tree; - bool ret; + assert(false); // XXX: function not implemented yet + + KeyBindingTree *tree; + bool conflict; if (!(tree = buildtree(keylist, 0))) return false; // invalid binding requested - ret = find(tree) >= 0; - - destroytree(tree); - - return ret; + KeyBindingTree *t = find(tree, &conflict); + if (t) { + CallbackList::iterator it = std::find(t->callbacks.begin(), + t->callbacks.end(), + callback); + if (it != t->callbacks.end()) { + // grab the server here to make sure no key pressed go missed + otk::display->grab(); + grabKeys(false); + + _curpos = &_keytree; + + // XXX do shit here ... + Py_XDECREF(*it); + + grabKeys(true); + otk::display->ungrab(); + + return true; + } + } + return false; } -int OBBindings::remove(const StringVect &keylist) +void Bindings::setResetKey(const std::string &key) { - (void)keylist; - assert(false); // XXX: function not implemented yet + Binding b(0, 0); + if (translate(key, b)) { + // grab the server here to make sure no key pressed go missed + otk::display->grab(); + grabKeys(false); + _resetkey.key = b.key; + _resetkey.modifiers = b.modifiers; + grabKeys(true); + otk::display->ungrab(); + } } -static void remove_branch(BindingTree *first) +static void remove_branch(KeyBindingTree *first) { - BindingTree *p = first; + KeyBindingTree *p = first; while (p) { if (p->first_child) remove_branch(p->first_child); - BindingTree *s = p->next_sibling; + KeyBindingTree *s = p->next_sibling; + while(!p->callbacks.empty()) { + Py_XDECREF(p->callbacks.front()); + p->callbacks.pop_front(); + } delete p; p = s; } } -void OBBindings::remove_all() +void Bindings::removeAllKeys() +{ + grabKeys(false); + if (_keytree.first_child) { + remove_branch(_keytree.first_child); + _keytree.first_child = 0; + } + grabKeys(true); +} + + +void Bindings::grabKeys(bool grab) +{ + for (int i = 0; i < ScreenCount(**otk::display); ++i) { + Screen *sc = openbox->screen(i); + if (!sc) continue; // not a managed screen + Window root = otk::display->screenInfo(i)->rootWindow(); + + KeyBindingTree *p = _curpos->first_child; + while (p) { + if (grab) { + otk::display->grabKey(p->binding.key, p->binding.modifiers, + root, false, GrabModeAsync, GrabModeAsync, + false); + } + else + otk::display->ungrabKey(p->binding.key, p->binding.modifiers, + root); + p = p->next_sibling; + } + + if (_resetkey.key) + if (grab) + otk::display->grabKey(_resetkey.key, _resetkey.modifiers, + root, false, GrabModeAsync, GrabModeAsync, + false); + else + otk::display->ungrabKey(_resetkey.key, _resetkey.modifiers, + root); + } +} + + +bool Bindings::grabKeyboard(int screen, PyObject *callback) +{ + assert(callback); + if (_keybgrab_callback) return false; // already grabbed + + if (!openbox->screen(screen)) + return false; // the screen is not managed + + Window root = otk::display->screenInfo(screen)->rootWindow(); + if (XGrabKeyboard(**otk::display, root, false, GrabModeAsync, + GrabModeAsync, CurrentTime)) + return false; + _keybgrab_callback = callback; + return true; +} + + +void Bindings::ungrabKeyboard() +{ + if (!_keybgrab_callback) return; // not grabbed + + _keybgrab_callback = 0; + XUngrabKeyboard(**otk::display, CurrentTime); +} + + +void Bindings::fireKey(int screen, unsigned int modifiers, unsigned int key, + Time time, KeyAction::KA action) +{ + if (_keybgrab_callback) { + Client *c = openbox->focusedClient(); + KeyData data(screen, c, time, modifiers, key, action); + python_callback(_keybgrab_callback, &data); + } + + // KeyRelease events only occur during keyboard grabs + if (action == KeyAction::Release) return; + + if (key == _resetkey.key && modifiers == _resetkey.modifiers) { + resetChains(this); + } else { + KeyBindingTree *p = _curpos->first_child; + while (p) { + if (p->binding.key == key && p->binding.modifiers == modifiers) { + if (p->chain) { + if (_timer) + delete _timer; + _timer = new otk::Timer(5000, // 5 second timeout + (otk::Timer::TimeoutHandler)resetChains, + this); + // grab the server here to make sure no key pressed go missed + otk::display->grab(); + grabKeys(false); + _curpos = p; + grabKeys(true); + otk::display->ungrab(); + } else { + Client *c = openbox->focusedClient(); + KeyData data(screen, c, time, modifiers, key, action); + CallbackList::iterator it, end = p->callbacks.end(); + for (it = p->callbacks.begin(); it != end; ++it) + python_callback(*it, &data); + resetChains(this); + } + break; + } + p = p->next_sibling; + } + } +} + +void Bindings::resetChains(Bindings *self) +{ + if (self->_timer) { + delete self->_timer; + self->_timer = (otk::Timer *) 0; + } + // grab the server here to make sure no key pressed go missed + otk::display->grab(); + self->grabKeys(false); + self->_curpos = &self->_keytree; + self->grabKeys(true); + otk::display->ungrab(); +} + + +bool Bindings::addButton(const std::string &but, MouseContext::MC context, + MouseAction::MA action, PyObject *callback) +{ + assert(context >= 0 && context < MouseContext::NUM_MOUSE_CONTEXT); + + Binding b(0,0); + if (!translate(but, b, false)) + return false; + + ButtonBindingList::iterator it, end = _buttons[context].end(); + + // look for a duplicate binding + for (it = _buttons[context].begin(); it != end; ++it) + if ((*it)->binding.key == b.key && + (*it)->binding.modifiers == b.modifiers) { + break; + } + + ButtonBinding *bind; + + // the binding didnt exist yet, add it + if (it == end) { + bind = new ButtonBinding(); + bind->binding.key = b.key; + bind->binding.modifiers = b.modifiers; + _buttons[context].push_back(bind); + // grab the button on all clients + for (int sn = 0; sn < ScreenCount(**otk::display); ++sn) { + Screen *s = openbox->screen(sn); + if (!s) continue; // not managed + Client::List::iterator c_it, c_end = s->clients.end(); + for (c_it = s->clients.begin(); c_it != c_end; ++c_it) { + grabButton(true, bind->binding, context, *c_it); + } + } + } else + bind = *it; + bind->callbacks[action].push_back(callback); + Py_INCREF(callback); + return true; +} + +void Bindings::removeAllButtons() +{ + for (int i = 0; i < MouseContext::NUM_MOUSE_CONTEXT; ++i) { + ButtonBindingList::iterator it, end = _buttons[i].end(); + for (it = _buttons[i].begin(); it != end; ++it) { + for (int a = 0; a < MouseAction::NUM_MOUSE_ACTION; ++a) { + while (!(*it)->callbacks[a].empty()) { + Py_XDECREF((*it)->callbacks[a].front()); + (*it)->callbacks[a].pop_front(); + } + } + // ungrab the button on all clients + for (int sn = 0; sn < ScreenCount(**otk::display); ++sn) { + Screen *s = openbox->screen(sn); + if (!s) continue; // not managed + Client::List::iterator c_it, c_end = s->clients.end(); + for (c_it = s->clients.begin(); c_it != c_end; ++c_it) { + grabButton(false, (*it)->binding, (MouseContext::MC)i, *c_it); + } + } + } + } +} + +void Bindings::grabButton(bool grab, const Binding &b, + MouseContext::MC context, Client *client) +{ + Window win; + int mode = GrabModeAsync; + unsigned int mask; + switch(context) { + case MouseContext::Frame: + win = client->frame->window(); + mask = ButtonPressMask | ButtonMotionMask | ButtonReleaseMask; + break; + case MouseContext::Window: + win = client->frame->plate(); + mode = GrabModeSync; // this is handled in fireButton + mask = ButtonPressMask; // can't catch more than this with Sync mode + // the release event is manufactured by the + // master buttonPressHandler + break; + default: + // any other elements already get button events, don't grab on them + return; + } + if (grab) + otk::display->grabButton(b.key, b.modifiers, win, false, mask, mode, + GrabModeAsync, None, None, false); + else + otk::display->ungrabButton(b.key, b.modifiers, win); +} + +void Bindings::grabButtons(bool grab, Client *client) +{ + for (int i = 0; i < MouseContext::NUM_MOUSE_CONTEXT; ++i) { + ButtonBindingList::iterator it, end = _buttons[i].end(); + for (it = _buttons[i].begin(); it != end; ++it) + grabButton(grab, (*it)->binding, (MouseContext::MC)i, client); + } +} + +void Bindings::fireButton(MouseData *data) +{ + if (data->context == MouseContext::Window) { + // Replay the event, so it goes to the client + XAllowEvents(**otk::display, ReplayPointer, data->time); + } + + ButtonBindingList::iterator it, end = _buttons[data->context].end(); + for (it = _buttons[data->context].begin(); it != end; ++it) + if ((*it)->binding.key == data->button && + (*it)->binding.modifiers == data->state) { + CallbackList::iterator c_it,c_end = (*it)->callbacks[data->action].end(); + for (c_it = (*it)->callbacks[data->action].begin(); + c_it != c_end; ++c_it) + python_callback(*c_it, data); + } +} + + +bool Bindings::addEvent(EventAction::EA action, PyObject *callback) +{ + if (action < 0 || action >= EventAction::NUM_EVENTS) { + return false; + } +#ifdef XKB + if (action == EventAction::Bell && _eventlist[action].empty()) + XkbSelectEvents(**otk::display, XkbUseCoreKbd, + XkbBellNotifyMask, XkbBellNotifyMask); +#endif // XKB + _eventlist[action].push_back(callback); + Py_INCREF(callback); + return true; +} + +bool Bindings::removeEvent(EventAction::EA action, PyObject *callback) +{ + if (action < 0 || action >= EventAction::NUM_EVENTS) { + return false; + } + + CallbackList::iterator it = std::find(_eventlist[action].begin(), + _eventlist[action].end(), + callback); + if (it != _eventlist[action].end()) { + Py_XDECREF(*it); + _eventlist[action].erase(it); +#ifdef XKB + if (action == EventAction::Bell && _eventlist[action].empty()) + XkbSelectEvents(**otk::display, XkbUseCoreKbd, + XkbBellNotifyMask, 0); +#endif // XKB + return true; + } + return false; +} + +void Bindings::removeAllEvents() +{ + for (int i = 0; i < EventAction::NUM_EVENTS; ++i) { + while (!_eventlist[i].empty()) { + Py_XDECREF(_eventlist[i].front()); + _eventlist[i].pop_front(); + } + } +} + +void Bindings::fireEvent(EventData *data) { - if (_tree.first_child) - remove_branch(_tree.first_child); + CallbackList::iterator c_it, c_end = _eventlist[data->action].end(); + for (c_it = _eventlist[data->action].begin(); c_it != c_end; ++c_it) + python_callback(*c_it, data); } }