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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.
*
* $URL$
* $Id$
*
*/
#include "backends/keymapper/keymap.h"
#ifdef ENABLE_KEYMAPPER
#include "backends/keymapper/hardware-key.h"
#define KEYMAP_KEY_PREFIX "keymap_"
namespace Common {
Keymap::Keymap(const Keymap& km) : _actions(km._actions), _keymap(), _configDomain(0) {
List<Action*>::iterator it;
for (it = _actions.begin(); it != _actions.end(); ++it) {
const HardwareKey *hwKey = (*it)->getMappedKey();
if (hwKey) {
_keymap[hwKey->key] = *it;
}
}
}
Keymap::~Keymap() {
List<Action*>::iterator it;
for (it = _actions.begin(); it != _actions.end(); ++it)
delete *it;
}
void Keymap::addAction(Action *action) {
if (findAction(action->id))
error("Action with id %s already in KeyMap", action->id);
_actions.push_back(action);
}
void Keymap::registerMapping(Action *action, const HardwareKey *hwKey) {
HashMap<KeyState, Action*>::iterator it;
it = _keymap.find(hwKey->key);
// if key is already mapped to a different action then un-map it
if (it != _keymap.end() && action != it->_value) {
it->_value->mapKey(0);
}
_keymap[hwKey->key] = action;
}
void Keymap::unregisterMapping(Action *action) {
const HardwareKey *hwKey = action->getMappedKey();
if (hwKey) {
_keymap.erase(hwKey->key);
}
}
Action *Keymap::getAction(const char *id) {
return findAction(id);
}
Action *Keymap::findAction(const char *id) {
List<Action*>::iterator it;
for (it = _actions.begin(); it != _actions.end(); ++it) {
if (strncmp((*it)->id, id, ACTION_ID_SIZE) == 0)
return *it;
}
return 0;
}
const Action *Keymap::findAction(const char *id) const {
List<Action*>::const_iterator it;
for (it = _actions.begin(); it != _actions.end(); ++it) {
if (strncmp((*it)->id, id, ACTION_ID_SIZE) == 0)
return *it;
}
return 0;
}
Action *Keymap::getMappedAction(const KeyState& ks) const {
HashMap<KeyState, Action*>::iterator it;
it = _keymap.find(ks);
if (it == _keymap.end())
return 0;
else
return it->_value;
}
void Keymap::setConfigDomain(ConfigManager::Domain *dom) {
_configDomain = dom;
}
void Keymap::loadMappings(const HardwareKeySet *hwKeys) {
if (!_configDomain)
return;
ConfigManager::Domain::iterator it;
String prefix = KEYMAP_KEY_PREFIX + _name + "_";
for (it = _configDomain->begin(); it != _configDomain->end(); ++it) {
const String& key = it->_key;
if (!key.hasPrefix(prefix.c_str()))
continue;
// parse Action ID
const char *actionId = key.c_str() + prefix.size();
Action *ua = getAction(actionId);
if (!ua) {
warning("'%s' keymap does not contain Action with ID %s",
_name.c_str(), actionId);
_configDomain->erase(key);
continue;
}
const HardwareKey *hwKey = hwKeys->findHardwareKey(it->_value.c_str());
if (!hwKey) {
warning("HardwareKey with ID %s not known", it->_value.c_str());
_configDomain->erase(key);
continue;
}
ua->mapKey(hwKey);
}
}
void Keymap::saveMappings() {
if (!_configDomain)
return;
List<Action*>::const_iterator it;
String prefix = KEYMAP_KEY_PREFIX + _name + "_";
for (it = _actions.begin(); it != _actions.end(); ++it) {
uint actIdLen = strlen((*it)->id);
actIdLen = (actIdLen > ACTION_ID_SIZE) ? ACTION_ID_SIZE : actIdLen;
String actId((*it)->id, (*it)->id + actIdLen);
char hwId[HWKEY_ID_SIZE+1];
memset(hwId, 0, HWKEY_ID_SIZE+1);
if ((*it)->getMappedKey()) {
memcpy(hwId, (*it)->getMappedKey()->hwKeyId, HWKEY_ID_SIZE);
}
_configDomain->setVal(prefix + actId, hwId);
}
}
bool Keymap::isComplete(const HardwareKeySet *hwKeys) {
List<Action*>::iterator it;
bool allMapped = true;
uint numberMapped = 0;
for (it = _actions.begin(); it != _actions.end(); ++it) {
if ((*it)->getMappedKey()) {
numberMapped++;
} else {
allMapped = false;
}
}
return allMapped || (numberMapped == hwKeys->size());
}
// TODO:
// - current weakness:
// - if an action finds a key with required type but a parent action with
// higher priority is using it, that key is never used
void Keymap::automaticMapping(HardwareKeySet *hwKeys) {
// Create copies of action and key lists.
List<Action*> actions(_actions);
List<const HardwareKey*> keys(hwKeys->getHardwareKeys());
List<Action*>::iterator actIt;
List<const HardwareKey*>::iterator keyIt, selectedKey;
// Remove actions and keys from local lists that have already been mapped.
actIt = actions.begin();
while (actIt != actions.end()) {
Action *act = *actIt;
const HardwareKey *key = act->getMappedKey();
if (key) {
keys.remove(key);
actIt = actions.erase(actIt);
} else {
++actIt;
}
}
// Sort remaining actions by priority.
ActionPriorityComp priorityComp;
sort(actions.begin(), actions.end(), priorityComp);
// First mapping pass:
// - Match if a key's preferred action type is the same as the action's
// type, or vice versa.
// - Priority is given to:
// - keys that match action types over key types.
// - keys that have not been used by parent maps.
// - If a key has been used by a parent map the new action must have a
// higher priority than the parent action.
// - As soon as the number of skipped actions equals the number of keys
// remaining we stop matching. This means that the second pass will assign keys
// to these higher priority skipped actions.
uint skipped = 0;
actIt = actions.begin();
while (actIt != actions.end() && skipped < keys.size()) {
selectedKey = keys.end();
int matchRank = 0;
Action *act = *actIt;
for (keyIt = keys.begin(); keyIt != keys.end(); ++keyIt) {
if ((*keyIt)->preferredAction == act->type && act->type != kGenericActionType) {
Action *parentAct = getParentMappedAction((*keyIt)->key);
if (!parentAct) {
selectedKey = keyIt;
break;
} else if (parentAct->priority <= act->priority && matchRank < 3) {
selectedKey = keyIt;
matchRank = 3;
}
} else if ((*keyIt)->type == act->preferredKey && act->preferredKey != kGenericKeyType && matchRank < 2) {
Action *parentAct = getParentMappedAction((*keyIt)->key);
if (!parentAct) {
selectedKey = keyIt;
matchRank = 2;
} else if (parentAct->priority <= act->priority && matchRank < 1) {
selectedKey = keyIt;
matchRank = 1;
}
}
}
if (selectedKey != keys.end()) {
// Map action and delete action & key from local lists.
act->mapKey(*selectedKey);
keys.erase(selectedKey);
actIt = actions.erase(actIt);
} else {
// Skip action (will be mapped in next pass).
++actIt;
++skipped;
}
}
// Second mapping pass:
// - Maps any remaining actions to keys
// - priority given to:
// - keys that have no parent action
// - keys whose parent action has lower priority than the new action
// - keys whose parent action has the lowest priority
// - is guaranteed to match a key if they are not all used up
for (actIt = actions.begin(); actIt != actions.end(); ++actIt) {
selectedKey = keys.end();
int matchRank = 0;
int lowestPriority = 0;
Action *act = *actIt;
for (keyIt = keys.begin(); keyIt != keys.end(); ++keyIt) {
Action *parentAct = getParentMappedAction((*keyIt)->key);
if (!parentAct) {
selectedKey = keyIt;
break;
} else if (matchRank < 2) {
if (parentAct->priority <= act->priority) {
matchRank = 2;
selectedKey = keyIt;
} else if (parentAct->priority < lowestPriority || matchRank == 0) {
matchRank = 1;
lowestPriority = parentAct->priority;
selectedKey = keyIt;
}
}
}
if (selectedKey != keys.end()) {
act->mapKey(*selectedKey);
keys.erase(selectedKey);
} else {// no match = no keys left
break;
}
}
}
Action *Keymap::getParentMappedAction(KeyState key) {
if (_parent) {
Action *act = _parent->getMappedAction(key);
if (act)
return act;
else
return _parent->getParentMappedAction(key);
} else {
return 0;
}
}
} // End of namespace Common
#endif // #ifdef ENABLE_KEYMAPPER
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