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/* ScummVM - Graphic Adventure Engine
*
* ScummVM is the legal property of its developers, whose names
* are too numerous to list here. Please refer to the COPYRIGHT
* file distributed with this source distribution.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*
*/
#include "backends/keymapper/keymapper.h"
#ifdef ENABLE_KEYMAPPER
#include "common/config-manager.h"
#include "common/system.h"
namespace Common {
// These magic numbers are provided by fuzzie and WebOS
static const uint32 kDelayKeyboardEventMillis = 250;
static const uint32 kDelayMouseEventMillis = 50;
void Keymapper::Domain::addKeymap(Keymap *map) {
iterator it = find(map->getName());
if (it != end())
delete it->_value;
setVal(map->getName(), map);
}
void Keymapper::Domain::deleteAllKeyMaps() {
for (iterator it = begin(); it != end(); ++it)
delete it->_value;
clear();
}
Keymap *Keymapper::Domain::getKeymap(const String& name) {
iterator it = find(name);
if (it != end())
return it->_value;
else
return 0;
}
Keymapper::Keymapper(EventManager *evtMgr)
: _eventMan(evtMgr), _enabled(true), _remapping(false), _hardwareInputs(0), _actionToRemap(0) {
ConfigManager::Domain *confDom = ConfMan.getDomain(ConfigManager::kKeymapperDomain);
_globalDomain.setConfigDomain(confDom);
}
Keymapper::~Keymapper() {
delete _hardwareInputs;
}
void Keymapper::registerHardwareInputSet(HardwareInputSet *inputs) {
if (_hardwareInputs)
error("Hardware input set already registered");
if (!inputs) {
warning("No hardware input were defined, using defaults");
inputs = new HardwareInputSet(true);
}
_hardwareInputs = inputs;
}
void Keymapper::addGlobalKeymap(Keymap *keymap) {
initKeymap(_globalDomain, keymap);
}
void Keymapper::addGameKeymap(Keymap *keymap) {
if (ConfMan.getActiveDomain() == 0)
error("Call to Keymapper::addGameKeymap when no game loaded");
// Detect whether the active game changed since last call.
// If so, flush the game key configuration.
if (_gameDomain.getConfigDomain() != ConfMan.getActiveDomain()) {
cleanupGameKeymaps();
_gameDomain.setConfigDomain(ConfMan.getActiveDomain());
}
initKeymap(_gameDomain, keymap);
}
void Keymapper::initKeymap(Domain &domain, Keymap *map) {
if (!_hardwareInputs) {
warning("No hardware inputs were registered yet (%s)", map->getName().c_str());
return;
}
map->setConfigDomain(domain.getConfigDomain());
map->loadMappings(_hardwareInputs);
if (map->isComplete(_hardwareInputs) == false) {
map->saveMappings();
ConfMan.flushToDisk();
}
domain.addKeymap(map);
}
void Keymapper::cleanupGameKeymaps() {
// Flush all game specific keymaps
_gameDomain.deleteAllKeyMaps();
// Now restore the stack of active maps. Re-add all global keymaps, drop
// the game specific (=deleted) ones.
Stack<MapRecord> newStack;
for (Stack<MapRecord>::size_type i = 0; i < _activeMaps.size(); i++) {
if (_activeMaps[i].global)
newStack.push(_activeMaps[i]);
}
_activeMaps = newStack;
}
Keymap *Keymapper::getKeymap(const String& name, bool *globalReturn) {
Keymap *keymap = _gameDomain.getKeymap(name);
bool global = false;
if (!keymap) {
keymap = _globalDomain.getKeymap(name);
global = true;
}
if (globalReturn)
*globalReturn = global;
return keymap;
}
bool Keymapper::pushKeymap(const String& name, bool transparent) {
bool global;
assert(!name.empty());
Keymap *newMap = getKeymap(name, &global);
if (!newMap) {
warning("Keymap '%s' not registered", name.c_str());
return false;
}
pushKeymap(newMap, transparent, global);
return true;
}
void Keymapper::pushKeymap(Keymap *newMap, bool transparent, bool global) {
MapRecord mr = {newMap, transparent, global};
_activeMaps.push(mr);
}
void Keymapper::popKeymap(const char *name) {
if (!_activeMaps.empty()) {
if (name) {
String topKeymapName = _activeMaps.top().keymap->getName();
if (topKeymapName.equals(name))
_activeMaps.pop();
else
warning("An attempt to pop wrong keymap was blocked (expected %s but was %s)", name, topKeymapName.c_str());
} else {
_activeMaps.pop();
}
}
}
List<Event> Keymapper::mapEvent(const Event &ev, EventSource *source) {
if (source && !source->allowMapping()) {
return DefaultEventMapper::mapEvent(ev, source);
}
List<Event> mappedEvents;
if (_remapping)
mappedEvents = remap(ev);
else if (ev.type == Common::EVENT_KEYDOWN)
mappedEvents = mapKeyDown(ev.kbd);
else if (ev.type == Common::EVENT_KEYUP)
mappedEvents = mapKeyUp(ev.kbd);
else if (ev.type == Common::EVENT_CUSTOM_BACKEND_HARDWARE)
mappedEvents = mapNonKey(ev.customType);
if (!mappedEvents.empty())
return mappedEvents;
else
return DefaultEventMapper::mapEvent(ev, source);
}
void Keymapper::startRemappingMode(Action *actionToRemap) {
assert(!_remapping);
_remapping = true;
_actionToRemap = actionToRemap;
}
List<Event> Keymapper::mapKeyDown(const KeyState& key) {
return mapKey(key, true);
}
List<Event> Keymapper::mapKeyUp(const KeyState& key) {
return mapKey(key, false);
}
List<Event> Keymapper::mapKey(const KeyState& key, bool keyDown) {
if (!_enabled || _activeMaps.empty())
return List<Event>();
Action *action = 0;
if (keyDown) {
// Search for key in active keymap stack
for (int i = _activeMaps.size() - 1; i >= 0; --i) {
MapRecord mr = _activeMaps[i];
debug(5, "Keymapper::mapKey keymap: %s", mr.keymap->getName().c_str());
action = mr.keymap->getMappedAction(key);
if (action || !mr.transparent)
break;
}
if (action)
_keysDown[key] = action;
} else {
HashMap<KeyState, Action *>::iterator it = _keysDown.find(key);
if (it != _keysDown.end()) {
action = it->_value;
_keysDown.erase(key);
}
}
if (!action)
return List<Event>();
return executeAction(action, keyDown ? kIncomingKeyDown : kIncomingKeyUp);
}
List<Event> Keymapper::mapNonKey(const HardwareInputCode code) {
if (!_enabled || _activeMaps.empty())
return List<Event>();
Action *action = 0;
// Search for nonkey in active keymap stack
for (int i = _activeMaps.size() - 1; i >= 0; --i) {
MapRecord mr = _activeMaps[i];
debug(5, "Keymapper::mapKey keymap: %s", mr.keymap->getName().c_str());
action = mr.keymap->getMappedAction(code);
if (action || !mr.transparent)
break;
}
if (!action)
return List<Event>();
return executeAction(action);
}
Action *Keymapper::getAction(const KeyState& key) {
Action *action = 0;
return action;
}
List<Event> Keymapper::executeAction(const Action *action, IncomingEventType incomingType) {
List<Event> mappedEvents;
List<Event>::const_iterator it;
Event evt;
for (it = action->events.begin(); it != action->events.end(); ++it) {
evt = Event(*it);
EventType convertedType = convertDownToUp(evt.type);
// hardware keys need to send up instead when they are up
if (incomingType == kIncomingKeyUp) {
if (convertedType == EVENT_INVALID)
continue; // don't send any non-down-converted events on up they were already sent on down
evt.type = convertedType;
}
evt.mouse = _eventMan->getMousePos();
// Check if the event is coming from a non-key hardware event
// that is mapped to a key event
if (incomingType == kIncomingNonKey && convertedType != EVENT_INVALID)
// WORKAROUND: Delay the down events coming from non-key hardware events
// with a zero delay. This is to prevent DOWN1 DOWN2 UP1 UP2.
addDelayedEvent(0, evt);
else
mappedEvents.push_back(evt);
// non-keys need to send up as well
if (incomingType == kIncomingNonKey && convertedType != EVENT_INVALID) {
// WORKAROUND: Delay the up events coming from non-key hardware events
// This is for engines that run scripts that check on key being down
evt.type = convertedType;
const uint32 delay = (convertedType == EVENT_KEYUP ? kDelayKeyboardEventMillis : kDelayMouseEventMillis);
addDelayedEvent(delay, evt);
}
}
return mappedEvents;
}
EventType Keymapper::convertDownToUp(EventType type) {
EventType result = EVENT_INVALID;
switch (type) {
case EVENT_KEYDOWN:
result = EVENT_KEYUP;
break;
case EVENT_LBUTTONDOWN:
result = EVENT_LBUTTONUP;
break;
case EVENT_RBUTTONDOWN:
result = EVENT_RBUTTONUP;
break;
case EVENT_MBUTTONDOWN:
result = EVENT_MBUTTONUP;
break;
default:
break;
}
return result;
}
const HardwareInput *Keymapper::findHardwareInput(const KeyState& key) {
return (_hardwareInputs) ? _hardwareInputs->findHardwareInput(key) : 0;
}
const HardwareInput *Keymapper::findHardwareInput(const HardwareInputCode code) {
return (_hardwareInputs) ? _hardwareInputs->findHardwareInput(code) : 0;
}
List<Event> Keymapper::remap(const Event &ev) {
assert(_remapping);
assert(_actionToRemap);
List<Event> list;
const HardwareInput *hwInput = 0;
Event mappedEvent;
switch (ev.type) {
case EVENT_KEYDOWN:
// eat the event by returning an event invalid
mappedEvent.type = EVENT_INVALID;
list.push_back(mappedEvent);
break;
case EVENT_KEYUP:
hwInput = findHardwareInput(ev.kbd);
break;
case EVENT_CUSTOM_BACKEND_HARDWARE:
hwInput = findHardwareInput(ev.customType);
break;
default:
break;
}
if (hwInput) {
_actionToRemap->mapInput(hwInput);
_actionToRemap->getParent()->saveMappings();
_remapping = false;
_actionToRemap = 0;
mappedEvent.type = EVENT_GUI_REMAP_COMPLETE_ACTION;
list.push_back(mappedEvent);
}
return list;
}
} // End of namespace Common
#endif // #ifdef ENABLE_KEYMAPPER
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