void InputService::onEnable()
{
bindings.clear();
bindKey(KEY_UP, sf::Keyboard::W);
bindKey(KEY_LEFT, sf::Keyboard::A);
bindKey(KEY_DOWN, sf::Keyboard::S);
bindKey(KEY_RIGHT, sf::Keyboard::D);
bindKey(KEY_YIELD_CONTROL, sf::Keyboard::Tab);
bindKey(KEY_SPRINT, sf::Keyboard::Space);
bindKey(KEY_EXIT, sf::Keyboard::Escape);
// todo load from config
// check all keys have been registered
if (bindings.left.size() != KEY_UNKNOWN)
{
Logger::logError(format("Expected %1% key bindings, received %2% instead",
_str(KEY_UNKNOWN), _str(bindings.left.size())));
error("Invalid number of key bindings");
}
// listen to input events
auto events = Locator::locate<EventService>();
events->registerListener(this, EVENT_RAW_INPUT_KEY);
events->registerListener(this, EVENT_RAW_INPUT_CLICK);
}
BodyData *CollisionMap::createBodyData(BlockType blockType, const sf::Vector2i &tilePos)
{
// outside building doors
if (blockType == BLOCK_SLIDING_DOOR)
{
BodyData *data = new BodyData; // todo cache
data->type = BODYDATA_BLOCK;
data->blockData.blockDataType = BLOCKDATA_DOOR;
boost::optional<std::pair<Building *, Door *>> buildingAndDoor;
container->getBuildingMap().getBuildingByOutsideDoorTile(tilePos, buildingAndDoor);
if (!buildingAndDoor)
{
Logger::logWarning(
format("Cannot add block data for door at (%1%, %2%), because there is no building there",
_str(tilePos.x), _str(tilePos.y)));
return nullptr;
}
DoorBlockData *doorData = &data->blockData.door;
doorData->building = buildingAndDoor->first;
doorData->door = buildingAndDoor->second;
return data;
}
return nullptr;
}
World *WorldService::WorldLoader::loadWorlds(const std::string &mainWorldName)
{
// load main world
LoadedWorld &mainWorld = loadWorld(mainWorldName, false);
if (mainWorld.failed())
{
error("Failed to load main world");
return nullptr;
}
WorldTreeNode worldTreeRoot;
worldTreeRoot.value = mainWorld.world;
// allocate main world building IDs
for (auto &building : buildings)
{
Logger::logDebuggier(format("Found building %1% '%2%' in main world",
_str(building.insideWorldID), building.insideWorldName));
Logger::pushIndent();
loadWorld(building.insideWorldName, true, building.insideWorldID);
Logger::popIndent();
}
// transfer building IDs to doors
for (auto &door : mainWorld.doors)
{
LoadedBuilding *owningBuilding = findDoorBuilding(door);
if (owningBuilding == nullptr)
{
error("A door at (%1%, %2%) is not in any buildings!",
_str(door.tile.x), _str(door.tile.y));
return nullptr;
}
door.doorTag = DOORTAG_WORLD_ID;
door.worldID = owningBuilding->insideWorldID;
owningBuilding->doors.push_back(door);
}
std::set<WorldID> visitedWorlds;
// load all worlds recursively without connecting doors
discoverAndLoadAllWorlds(mainWorld, mainWorld.world->getID(), visitedWorlds);
visitedWorlds.clear();
// connect up the doors
connectDoors(worldTreeRoot, mainWorld, visitedWorlds);
return mainWorld.world;
}
void InputService::bindKey(InputKey binding, sf::Keyboard::Key key)
{
std::string verb("Set");
// remove existing
auto existing = bindings.left.find(binding);
if (existing != bindings.left.end())
{
verb = "Replaced existing";
bindings.left.replace_data(existing, key);
}
bindings.left.insert({binding, key});
Logger::logDebuggier(format("%1% binding for key %2%: %3%", verb, _str(key), _str(binding)));
}
void CollisionMap::GlobalContactListener::BeginContact(b2Contact *contact)
{
b2Fixture *a = contact->GetFixtureA();
b2Fixture *b = contact->GetFixtureB();
BodyData *aData = (BodyData *) a->GetUserData();
BodyData *bData = (BodyData *) b->GetUserData();
if (aData == nullptr || bData == nullptr)
return;
// entity with block
if (aData->type != bData->type)
{
BodyData *entity = aData->type == BODYDATA_ENTITY ? aData : bData;
BodyData *block = entity == aData ? bData : aData;
// door
if (block->blockData.blockDataType == BLOCKDATA_DOOR)
{
DoorBlockData *door = &block->blockData.door;
Door *targetDoor = door->building->getConnectedDoor(door->door);
if (targetDoor == nullptr)
{
Logger::logError(format("Could not find connected door for door %1% in building %2%",
_str(door->door->id), _str(door->building->getID())));
return;
}
Event event;
event.type = EVENT_HUMAN_JOIN_WORLD;
event.entityID = entity->entityID.id;
event.joinWorld.newWorldID = 1010101; // todo world's need IDs!
event.joinWorld.spawnDirection = DIRECTION_NORTH; // todo store in Door
event.joinWorld.spawnX = targetDoor->localTilePos.x;
event.joinWorld.spawnY = targetDoor->localTilePos.y;
Logger::logDebug(format("Door interaction with building %1%", _str(door->building->getID())));
// todo complete the two above todos before actually calling the event
// Locator::locate<EventService>()->callEvent(event);
}
}
}
/**
* get string from root to this node
*/
wstring DictionaryNode::getStringFromRoot(void)
{
// current node is this node
DictionaryNode* current = this;
wstring _str(L"");
while (true) {
// stop if root is reached
if (current == NULL)
{
break;
}
wchar_t _ch = current->getCharacter();
if (_ch == L' ')
{
break;
}
_str.push_back(_ch);
// jump to parent node
current = current->getParentNode();
}
// initialize an empty string
wstring result(L"");
int _len = _str.length();
for (int i = _len - 1; i >= 0; --i) {
result.push_back(_str.back());
_str.pop_back();
}
return result;
}
std::string Locator::serviceToString(ServiceType type)
{
switch (type)
{
case SERVICE_ANIMATION:
return "Animation";
case SERVICE_CAMERA:
return "Camera";
case SERVICE_CONFIG:
return "Config";
case SERVICE_ENTITY:
return "Entity";
case SERVICE_EVENT:
return "Event";
case SERVICE_INPUT:
return "Input";
case SERVICE_LOGGING:
return "Logging";
case SERVICE_RENDER:
return "Render";
case SERVICE_WORLD:
return "World";
default:
return format("Unknown (%1%)", _str(type));
}
}
/*
* rpmemd_print_pool_attr -- print pool attributes
*/
static void
rpmemd_print_pool_attr(const struct rpmem_pool_attr *attr)
{
if (attr == NULL) {
RPMEMD_LOG(INFO, RPMEMD_LOG_INDENT "NULL");
} else {
RPMEMD_LOG(INFO, RPMEMD_LOG_INDENT "signature: '%s'",
_str(attr->signature));
RPMEMD_LOG(INFO, RPMEMD_LOG_INDENT "major: %u", attr->major);
RPMEMD_LOG(INFO, RPMEMD_LOG_INDENT "compat_features: 0x%x",
attr->compat_features);
RPMEMD_LOG(INFO, RPMEMD_LOG_INDENT "incompat_features: 0x%x",
attr->incompat_features);
RPMEMD_LOG(INFO, RPMEMD_LOG_INDENT "ro_compat_features: 0x%x",
attr->ro_compat_features);
RPMEMD_LOG(INFO, RPMEMD_LOG_INDENT "poolset_uuid: %s",
uuid2str(attr->poolset_uuid));
RPMEMD_LOG(INFO, RPMEMD_LOG_INDENT "uuid: %s",
uuid2str(attr->uuid));
RPMEMD_LOG(INFO, RPMEMD_LOG_INDENT "next_uuid: %s",
uuid2str(attr->next_uuid));
RPMEMD_LOG(INFO, RPMEMD_LOG_INDENT "prev_uuid: %s",
uuid2str(attr->prev_uuid));
}
}
/*
* rpmemd_print_info -- print basic info and configuration
*/
static void
rpmemd_print_info(struct rpmemd *rpmemd)
{
RPMEMD_LOG(NOTICE, "ssh connection: %s",
_str(getenv("SSH_CONNECTION")));
RPMEMD_LOG(NOTICE, "user: %s", _str(getenv("USER")));
RPMEMD_LOG(NOTICE, "configuration");
RPMEMD_LOG(NOTICE, "\tpool set directory: '%s'",
_str(rpmemd->config.poolset_dir));
RPMEMD_LOG(NOTICE, "\tpersist method: %s",
rpmem_persist_method_to_str(rpmemd->persist_method));
RPMEMD_LOG(NOTICE, "\tnumber of threads: %lu", rpmemd->nthreads);
RPMEMD_DBG("\tpersist APM: %s",
bool2str(rpmemd->config.persist_apm));
RPMEMD_DBG("\tpersist GPSPM: %s",
bool2str(rpmemd->config.persist_general));
RPMEMD_DBG("\tuse syslog: %s", bool2str(rpmemd->config.use_syslog));
RPMEMD_DBG("\tlog file: %s", _str(rpmemd->config.log_file));
RPMEMD_DBG("\tlog level: %s",
rpmemd_log_level_to_str(rpmemd->config.log_level));
}
///--- PInvoke code ---
///---Begin closure code ---
System_Void _TestShapes_Main() {
System_Double vreg_5;
System_Double vreg_6;
System_Double vreg_7;
System_Single vreg_8;
System_Double vreg_9;
System_Single vreg_10;
System_Console_Write(_str(0));
_Square vreg_1;vreg_1._typeId = 4;
_Cube vreg_3;vreg_3._typeId = 6;
System_Console_Write(_str(1));
vreg_5 = _Square_get_Area(&vreg_1);
System_Console_WriteLine(vreg_5);
System_Console_Write(_str(2));
vreg_6 = _Cube_get_Area(&vreg_3);
System_Console_WriteLine(vreg_6);
System_Console_Write(_str(3));
_Square_set_Area(&vreg_1, 50);
_Cube_set_Area(&vreg_3, 50);
System_Console_Write(_str(4));
vreg_7 = vreg_1.side;
vreg_8 = (float)vreg_7;
System_Console_WriteLine(vreg_8);
System_Console_Write(_str(5));
vreg_9 = vreg_3.side;
vreg_10 = (float)vreg_9;
System_Console_WriteLine(vreg_10);
return;
}
/*
* rpmemd_common_fip_init -- initialize fabric provider
*/
static int
rpmemd_common_fip_init(struct rpmemd *rpmemd, const struct rpmem_req_attr *req,
struct rpmem_resp_attr *resp, int *status)
{
/* register the whole pool with header in RDMA */
void *addr = (void *)((uintptr_t)rpmemd->pool->pool_addr);
struct rpmemd_fip_attr fip_attr = {
.addr = addr,
.size = req->pool_size,
.nlanes = req->nlanes,
.nthreads = rpmemd->nthreads,
.provider = req->provider,
.persist_method = rpmemd->persist_method,
.deep_persist = rpmemd_deep_persist,
.ctx = rpmemd
};
const int is_pmem = rpmemd_db_pool_is_pmem(rpmemd->pool);
if (rpmemd_apply_pm_policy(&fip_attr.persist_method, &fip_attr.persist,
is_pmem)) {
*status = RPMEM_ERR_FATAL;
goto err_fip_init;
}
const char *node = rpmem_get_ssh_conn_addr();
enum rpmem_err err;
rpmemd->fip = rpmemd_fip_init(node, NULL, &fip_attr, resp, &err);
if (!rpmemd->fip) {
*status = (int)err;
goto err_fip_init;
}
return 0;
err_fip_init:
return -1;
}
/*
* rpmemd_print_req_attr -- print request attributes
*/
static void
rpmemd_print_req_attr(const struct rpmem_req_attr *req)
{
RPMEMD_LOG(NOTICE, RPMEMD_LOG_INDENT "pool descriptor: '%s'",
_str(req->pool_desc));
RPMEMD_LOG(NOTICE, RPMEMD_LOG_INDENT "pool size: %lu", req->pool_size);
RPMEMD_LOG(NOTICE, RPMEMD_LOG_INDENT "nlanes: %u", req->nlanes);
RPMEMD_LOG(NOTICE, RPMEMD_LOG_INDENT "provider: %s",
rpmem_provider_to_str(req->provider));
}
/*
* rpmemd_print_pool_attr -- print pool attributes
*/
static void
rpmemd_print_pool_attr(const struct rpmem_pool_attr *attr)
{
RPMEMD_LOG(INFO, "\tsignature: '%s'", _str(attr->signature));
RPMEMD_LOG(INFO, "\tmajor: %u", attr->major);
RPMEMD_LOG(INFO, "\tcompat_features: 0x%x", attr->compat_features);
RPMEMD_LOG(INFO, "\tincompat_features: 0x%x", attr->incompat_features);
RPMEMD_LOG(INFO, "\tro_compat_features: 0x%x",
attr->ro_compat_features);
RPMEMD_LOG(INFO, "\tpoolset_uuid: %s", uuid2str(attr->poolset_uuid));
RPMEMD_LOG(INFO, "\tuuid: %s", uuid2str(attr->uuid));
RPMEMD_LOG(INFO, "\tnext_uuid: %s", uuid2str(attr->next_uuid));
RPMEMD_LOG(INFO, "\tprev_uuid: %s", uuid2str(attr->prev_uuid));
}
void WorldService::WorldLoader::connectDoors(WorldTreeNode ¤tNode, LoadedWorld &world,
std::set<WorldID> &visitedWorlds)
{
if (visitedWorlds.find(world.world->getID()) != visitedWorlds.end())
return;
visitedWorlds.insert(world.world->getID());
for (LoadedDoor &door : world.doors)
{
LoadedWorld *childWorld = getLoadedWorld(door.doorID > 0 ? door.worldID : currentNode.parent->value->getID());
if (childWorld == nullptr)
{
Logger::logError(format("World %1% has not been loaded yet in connectDoors()",
_str(door.worldID)));
return;
}
LoadedDoor *targetDoor = findPartnerDoor(*childWorld, door.doorID, world.world->getID());
if (targetDoor == nullptr)
{
Logger::logError(format("Cannot find partner door in world %1% for door %2% in world %3%",
_str(door.worldID), _str(door.doorID), _str(world.world->getID())));
return;
}
// add connection to this world's lookup table
Location loc(world.world->getID(), door.tile);
connectionLookup.emplace(std::piecewise_construct,
std::forward_as_tuple(loc),
std::forward_as_tuple(childWorld->world->getID(), targetDoor->tile));
doorDetails.insert({loc, ConnectionDetails(loc, door.orientation, door.dimensions)});
Logger::logDebuggiest(format("Added world connection %1% to %2% from %3% through door %4%",
door.doorID < 0 ? "up" : "down", _str(world.world->getID()),
_str(childWorld->world->getID()), _str(door.doorID)));
// add node
if (door.doorID > 0)
{
currentNode.children.emplace_back();
WorldTreeNode &childNode = currentNode.children.back();
childNode.parent = ¤tNode;
childNode.value = childWorld->world;
// recurse
connectDoors(childNode, *childWorld, visitedWorlds);
}
}
}
/*
* rpmemd_common_fip_init -- initialize fabric provider
*/
static int
rpmemd_common_fip_init(struct rpmemd *rpmemd, const struct rpmem_req_attr *req,
struct rpmem_resp_attr *resp, int *status)
{
void *addr = (void *)((uintptr_t)rpmemd->pool->pool_addr +
POOL_HDR_SIZE);
struct rpmemd_fip_attr fip_attr = {
.addr = addr,
.size = req->pool_size,
.nlanes = req->nlanes,
.nthreads = rpmemd->nthreads,
.provider = req->provider,
.persist_method = rpmemd->persist_method,
.persist = rpmemd->persist,
};
const char *node = rpmem_get_ssh_conn_addr();
enum rpmem_err err;
rpmemd->fip = rpmemd_fip_init(node, NULL, &fip_attr, resp, &err);
if (!rpmemd->fip) {
*status = (int)err;
goto err_fip_init;
}
return 0;
err_fip_init:
return -1;
}
/*
* rpmemd_print_req_attr -- print request attributes
*/
static void
rpmemd_print_req_attr(const struct rpmem_req_attr *req)
{
RPMEMD_LOG(NOTICE, "\tpool descriptor: '%s'", _str(req->pool_desc));
RPMEMD_LOG(NOTICE, "\tpool size: %lu", req->pool_size);
RPMEMD_LOG(NOTICE, "\tnlanes: %u", req->nlanes);
RPMEMD_LOG(NOTICE, "\tprovider: %s",
rpmem_provider_to_str(req->provider));
}
void InputService::setPlayerEntity(EntityID entity)
{
auto es = Locator::locate<EntityService>();
if (!es->hasComponent(entity, COMPONENT_INPUT))
error("Cannot set player entity to %1% as it doesn't have an input component", _str(entity));
// switch out brain
auto head = es->getComponent<InputComponent>(entity, COMPONENT_INPUT);
playersOldBrain = boost::dynamic_pointer_cast<EntityBrain>(head->brain);
if (!inputBrain)
inputBrain.reset(new InputBrain(entity)); // lazy init
else
inputBrain->setEntity(entity);
head->brain = inputBrain;
playerEntity = entity;
Locator::locate<CameraService>()->setTrackedEntity(entity);
}
void InputService::handleKeyEvent(const Event &event)
{
InputKey binding(getBinding(event.rawInputKey.key));
// unrecognized key
if (binding == KEY_UNKNOWN)
return;
// quit
if (binding == KEY_EXIT)
{
Logger::logDebug("Exit key pressed, quitting");
Locator::locate<RenderService>()->getWindow()->close();
return;
}
EventService *es = Locator::locate<EventService>();
bool hasEntity = hasPlayerEntity();
Event e;
// assign entity id
e.entityID = hasEntity ? *playerEntity : CAMERA_ENTITY;
// yield entity control
if (binding == KEY_YIELD_CONTROL)
{
if (hasEntity)
{
e.type = EVENT_INPUT_YIELD_CONTROL;
clearPlayerEntity();
es->callEvent(e);
}
return;
}
// sprint
if (binding == KEY_SPRINT)
{
e.type = EVENT_INPUT_SPRINT;
e.sprintToggle.start = event.rawInputKey.pressed;
es->callEvent(e);
return;
}
// input
bool startMoving = event.rawInputKey.pressed;
e.type = startMoving ? EVENT_INPUT_START_MOVING : EVENT_INPUT_STOP_MOVING;
DirectionType direction;
switch (binding)
{
case KEY_UP:
direction = DIRECTION_NORTH;
break;
case KEY_LEFT:
direction = DIRECTION_WEST;
break;
case KEY_DOWN:
direction = DIRECTION_SOUTH;
break;
case KEY_RIGHT:
direction = DIRECTION_EAST;
break;
default:
error("An invalid movement key slipped through InputService's onEvent: %1%", _str(binding));
return;
}
if (startMoving)
e.startMove.direction = direction;
else
e.stopMove.direction = direction;
es->callEvent(e);
}
void WorldService::WorldLoader::discoverAndLoadAllWorlds(LoadedWorld &world, WorldID lastWorldID,
std::set<WorldID> &visitedWorlds)
{
if (visitedWorlds.find(world.world->getID()) != visitedWorlds.end())
return;
visitedWorlds.insert(world.world->getID());
std::sort(world.doors.begin(), world.doors.end(),
[] (const LoadedDoor &a, const LoadedDoor &/* b */)
{
return a.doorTag != DOORTAG_WORLD_SHARE;
});
// iterate all doors found in last world
for (LoadedDoor &door : world.doors)
{
// initialise negative/ascending doors
if (door.doorID < 0)
{
door.doorTag = DOORTAG_WORLD_ID;
door.worldID = lastWorldID;
continue;
}
LoadedWorld *newWorld = nullptr;
// find the other door with same world share
if (door.doorTag == DOORTAG_WORLD_SHARE)
{
auto otherDoor = std::find_if(world.doors.begin(), world.doors.end(),
[door](const LoadedDoor &d)
{
return d.doorTag != DOORTAG_WORLD_SHARE &&
d.worldShare == door.worldShare;
});
if (otherDoor == world.doors.end())
{
Logger::logError(format("Door %1% has an unknown world share tag '%2%'",
_str(door.doorID), door.worldShare));
continue;
}
// share world ID
door.worldID = otherDoor->worldID;
}
// load world
else if (door.doorTag == DOORTAG_WORLD_NAME)
{
Logger::logDebuggiest(format("Door ID %1% loads world '%2%'", _str(door.doorID), door.worldName));
LoadedWorld &loadedWorld = loadWorld(door.worldName, true);
if (loadedWorld.failed())
{
Logger::logError(format("Cannot find building world '%1%', owner of door %2%",
door.worldName, _str(door.doorID)));
continue;
}
door.worldID = loadedWorld.world->getID();
newWorld = &loadedWorld;
}
else if (door.doorTag == DOORTAG_UNKNOWN)
{
Logger::logError(format("Door %1% has no assigned door tag", _str(door.doorID)));
return;
}
if (newWorld == nullptr)
newWorld = getLoadedWorld(door.worldID);
discoverAndLoadAllWorlds(*newWorld, world.world->getID(), visitedWorlds);
}
}
WorldService::WorldLoader::LoadedWorld &WorldService::WorldLoader::loadWorld(const std::string &name,
bool isBuilding, WorldID worldID)
{
// create new LoadedWorld in place
LoadedWorld &loadedWorld = loadedWorlds.emplace(worldID, LoadedWorld{}).first->second;
// load tmx
auto path = getWorldFilePath(name, isBuilding);
loadedWorld.tmx.load(path);
loadedWorld.world = new World(worldID, name, !isBuilding); // todo dont use heap
Logger::logDebuggier(format("World %1% is '%2%'", _str(worldID), name));
// load terrain if first time for this world name
auto cachedTerrain = terrainCache.find(name);
if (cachedTerrain == terrainCache.end())
{
Logger::logDebuggier(format("Loading terrain for world '%1%'", name));
Logger::pushIndent();
WorldTerrain &terrain = terrainCache.emplace(
std::piecewise_construct,
std::forward_as_tuple(name),
std::forward_as_tuple(loadedWorld.world, loadedWorld.tmx.size)).first->second;
loadedWorld.world->setTerrain(terrain);
terrain.loadFromTileMap(loadedWorld.tmx, flippedTileGIDs);
Logger::popIndent();
}
// find buildings and doors
auto buildingLayer = std::find_if(loadedWorld.tmx.layers.begin(), loadedWorld.tmx.layers.end(),
[](const TMX::Layer &layer)
{
return layer.name == "buildings";
});
// no buildings layer
if (buildingLayer == loadedWorld.tmx.layers.end())
{
Logger::logDebuggier("No \"buildings\" layer");
return loadedWorld;
}
for (const TMX::TileWrapper &tile : buildingLayer->items)
{
if (tile.type != TMX::TILE_PROPERTY_SHAPE)
continue;
const TMX::PropertyObject &propObj = tile.property;
if (propObj.hasProperty(TMX::PROPERTY_BUILDING_WORLD))
{
// buildings
if (isBuilding)
error("Unsupported: a building cannot have a building inside it");
sf::IntRect bounds(
(int) (tile.tile.position.x / Constants::tilesetResolution),
(int) (tile.tile.position.y / Constants::tilesetResolution),
(int) (propObj.dimensions.x / Constants::tilesetResolution),
(int) (propObj.dimensions.y / Constants::tilesetResolution)
);
LoadedBuilding b;
b.bounds = bounds;
b.insideWorldName = propObj.getProperty(TMX::PROPERTY_BUILDING_WORLD);
b.insideWorldID = generateWorldID();
buildings.push_back(b);
}
else if (propObj.hasProperty(TMX::PROPERTY_DOOR_ID))
{
// doors
LoadedDoor d;
d.tile.x = (tile.tile.position.x / Constants::tilesetResolution);
d.tile.y = (tile.tile.position.y / Constants::tilesetResolution);
d.doorID = boost::lexical_cast<int>(propObj.getProperty(TMX::PROPERTY_DOOR_ID));
d.doorTag = DOORTAG_UNKNOWN;
d.dimensions = Math::multiply(propObj.dimensions, 1.f / Constants::tilesetResolution);
if (!propObj.hasProperty(TMX::PROPERTY_DOOR_ORIENTATION))
error("Door at (%1%, %2%) in world %3% is missing \"door-orientation\"",
_str(d.tile.x), _str(d.tile.y), _str(worldID));
d.orientation = Direction::parseString(propObj.getProperty(TMX::PROPERTY_DOOR_ORIENTATION));
if (d.orientation == DIRECTION_UNKNOWN)
error("Invalid direction \"%1%\"", propObj.getProperty(TMX::PROPERTY_DOOR_ORIENTATION));
// preloaded
if (propObj.hasProperty(TMX::PROPERTY_DOOR_WORLD_ID))
{
d.doorTag = DOORTAG_WORLD_ID;
d.worldID = boost::lexical_cast<WorldID>(propObj.getProperty(TMX::PROPERTY_DOOR_WORLD_ID));
}
// unloaded
if (propObj.hasProperty(TMX::PROPERTY_DOOR_WORLD))
{
d.doorTag = DOORTAG_WORLD_NAME;
d.worldName = propObj.getProperty(TMX::PROPERTY_DOOR_WORLD);
}
// sharing
else if (propObj.hasProperty(TMX::PROPERTY_DOOR_WORLD_SHARE_SPECIFIER))
{
d.doorTag = DOORTAG_WORLD_SHARE;
d.worldShare = propObj.getProperty(TMX::PROPERTY_DOOR_WORLD_SHARE_SPECIFIER);
}
// share source
if (propObj.hasProperty(TMX::PROPERTY_DOOR_WORLD_SHARE_SOURCE))
{
d.worldShare = propObj.getProperty(TMX::PROPERTY_DOOR_WORLD_SHARE_SOURCE);
}
loadedWorld.doors.push_back(d);
}
}
return loadedWorld;
}
WString _str(const LPCSTR ptr) {
return _str(ptr, true);
}
// When an error has occurred, pop elements off the stack until the top
// state has an error-item. If none is found, the default recovery
// mode (which is to abort) is activated.
//
// If EOF is encountered without being appropriate for the current state,
// then the error recovery will fall back to the default recovery mode.
// (i.e., parsing terminates)
void JSONTokenizer::errorRecovery()
try
{
if (d_acceptedTokens__ >= d_requiredTokens__)// only generate an error-
{ // message if enough tokens
++d_nErrors__; // were accepted. Otherwise
std::string _str("Syntax error at line ");
muzzley::tostr(_str, d_scanner.lineNr());
error(_str.data()); // simply skip input
}
// get the error state
while (not (s_state[top__()][0].d_type & ERR_ITEM))
{
pop__();
}
// In the error state, lookup a token allowing us to proceed.
// Continuation may be possible following multiple reductions,
// but eventuall a shift will be used, requiring the retrieval of
// a terminal token. If a retrieved token doesn't match, the catch below
// will ensure the next token is requested in the while(true) block
// implemented below:
int lastToken = d_token__; // give the unexpected token a
// chance to be processed
// again.
pushToken__(_error_); // specify _error_ as next token
push__(lookup(true)); // push the error state
d_token__ = lastToken; // reactivate the unexpected
// token (we're now in an
// ERROR state).
bool gotToken = true; // the next token is a terminal
while (true)
{
try
{
if (s_state[d_state__]->d_type & REQ_TOKEN)
{
gotToken = d_token__ == _UNDETERMINED_;
nextToken(); // obtain next token
}
int action = lookup(true);
if (action > 0) // push a new state
{
push__(action);
popToken__();
if (gotToken)
{
d_acceptedTokens__ = 0;
return;
}
}
else if (action < 0)
{
// no actions executed on recovery but save an already
// available token:
if (d_token__ != _UNDETERMINED_)
pushToken__(d_token__);
// next token is the rule's LHS
reduce__(s_productionInfo[-action]);
}
else
ABORT(); // abort when accepting during
// error recovery
}
catch (...)
{
if (d_token__ == _EOF_)
ABORT(); // saw inappropriate _EOF_
popToken__(); // failing token now skipped
}
}
}
catch (ErrorRecovery__) // This is: DEFAULT_RECOVERY_MODE
{
ABORT();
}
void InitMsg( void )
{
internationalData = LoadInternationalData( _str( __msg_file_prefix ) );
}
void qlevel_save(STRING *filename)
{
STRING *file = "#256";
make_path(file, filename);
STRING *backup = "#256";
str_cpy(backup, file);
str_cat(backup, ".bak");
file_delete(backup);
file_rename(file, backup);
ini_write_int(file, "Level Information", "EntityCount", 0);
ini_write_int(file, "Level Information", "LightCount", 0);
ini_write_int(file, "Level Information", "FogCount", 0);
int countEntity = 0;
int countLight = 0;
int countFog = 0;
STRING *section = "#64";
for(you = ent_next(NULL); you != NULL; you = ent_next(you))
{
switch(you->group)
{
case GROUP_LEVEL:
str_cpy(section, "Entity ");
str_cat(section, str_for_int(NULL, countEntity));
ini_write_string(file, section, "Model", you->type);
ini_write_int(file, section, "ActionCount", 0);
int actionCount = 0;
STRING *actionName = "#64";
ActionInformation *entry;
for(entry = list_first(you->string1); entry != NULL; entry = list_next(you->string1, entry))
{
str_cpy(actionName, "Action");
str_cat(actionName, str_for_int(NULL, actionCount));
ini_write_string(file, section, actionName, _str(entry->actionname));
actionCount++;
}
ini_write_int(file, section, "ActionCount", actionCount);
ini_write_float(file, section, "X", you->x);
ini_write_float(file, section, "Y", you->y);
ini_write_float(file, section, "Z", you->z);
ini_write_float(file, section, "Pan", cycle(you->pan, 0, 360));
ini_write_float(file, section, "Tilt", cycle(you->tilt, 0, 360));
ini_write_float(file, section, "Roll", cycle(you->roll, 0, 360));
ini_write_float(file, section, "ScaleX", you->scale_x);
ini_write_float(file, section, "ScaleY", you->scale_y);
ini_write_float(file, section, "ScaleZ", you->scale_z);
ini_write_float(file, section, "Lightrange", you->lightrange);
countEntity++;
break;
}
}
ini_write_int(file, "Level Information", "EntityCount", countEntity);
ini_write_int(file, "Level Information", "LightCount", countLight);
ini_write_int(file, "Level Information", "FogCount", countFog);
}
LRESULT CDlgFileAssoc::DlgProc(UINT uMsg, WPARAM wParam, LPARAM lParam) {
switch (uMsg) {
case WM_INITDIALOG: {
#ifdef SHELL_AYGSHELL
// Initializes menubar
SHMENUBARINFO mbi;
memset(&mbi, 0, sizeof(SHMENUBARINFO));
mbi.cbSize = sizeof(SHMENUBARINFO);
mbi.hwndParent = hWnd;
mbi.nToolBarId = MNU_OKCANCEL;
mbi.hInstRes = player()->hInstance;
mbi.nBmpId = 0;
mbi.cBmpImages = 0;
if (SHCreateMenuBar(&mbi)) {
hWndMenuBar = mbi.hwndMB;
SetSoftkeyText(hWndMenuBar, 0, _str(STR_CANCEL));
SetSoftkeyText(hWndMenuBar, 1, _str(STR_OK));
} else {
hWndMenuBar = NULL;
}
#else
hWndMenuBar = NULL;
#endif
#ifdef SHELL_AYGSHELL
// Initializes fullscreen dialog
SHINITDLGINFO shidi;
shidi.dwMask = SHIDIM_FLAGS;
shidi.dwFlags = SHIDIF_SIZEDLGFULLSCREEN|SHIDIF_DONEBUTTON|SHIDIF_WANTSCROLLBAR;
shidi.hDlg = hWnd;
SHInitDialog(&shidi);
#endif
SetWindowText(hWnd, _str(STR_FILEASSOCIATIONS));
SetDlgItemText(hWnd, LBL_USETOOPEN, _str(STR_USENITROGENTOOPE));
SetDlgItemText(hWnd, BTN_SELALL, _str(STR_SELECTALL));
SetDlgItemText(hWnd, BTN_SELNONE, _str(STR_SELECTNONE));
SetDlgItemText(hWnd, LBL_NOTRUNNING, _str(STR_IFTHEPLAYERISNOT));
SetDlgItemText(hWnd, LBL_RUNNING, _str(STR_IFTHEPLAYERISALR));
int rActions[3] = {STR_SETFILEASPLAYLIS, STR_ADDFILETOPLAYLIS, STR_SETFOLDERASPLAYL};
for (int i = 0; i < 3; i++) {
SendDlgItemMessage(hWnd, CBB_NOTRUNNING, CB_ADDSTRING, 0, (LPARAM)_str(rActions[i]));
SendDlgItemMessage(hWnd, CBB_RUNNING, CB_ADDSTRING, 0, (LPARAM)_str(rActions[i]));
}
SendDlgItemMessage(hWnd, CBB_NOTRUNNING, CB_SETCURSEL, (WPARAM)player()->lpConfig->cf.FileAssNotRunning, 0);
SendDlgItemMessage(hWnd, CBB_RUNNING, CB_SETCURSEL, (WPARAM)player()->lpConfig->cf.FileAssRunning, 0);
ListView_SetExtendedListViewStyle(GetDlgItem(hWnd, LST_EXTENSIONS), LVS_EX_CHECKBOXES|LVS_EX_FULLROWSELECT);
LVCOLUMN nCol;
memset(&nCol, 0, sizeof(LVCOLUMN));
nCol.mask = LVCF_TEXT;
nCol.pszText = NULL;
ListView_InsertColumn(GetDlgItem(hWnd, LST_EXTENSIONS), 0, &nCol);
LPWSTR assc[4] = {L"Skin files (*.sk2)", L"MPEG Layer-3 files (*.mp3)", L"Ogg Vorbis files (*.ogg)", L"Wave Audio files (*.wav)"};
LPWSTR exts[4] = {L"sk2", L"mp3", L"ogg", L"wav"};
int y = 0;
for (int i = 0; i < 4; i++) {
LVITEM nItem;
memset(&nItem, 0, sizeof(LVITEM));
nItem.mask = LVIF_TEXT;
nItem.iSubItem = 0;
nItem.pszText = assc[i];
nItem.iItem = y;
ListView_InsertItem(GetDlgItem(hWnd, LST_EXTENSIONS), &nItem);
PrevAssoc[y] = IsExtAssignedDyn(exts[i]);
if (PrevAssoc[y]) {
ListView_SetCheckState(GetDlgItem(hWnd, LST_EXTENSIONS), y, true);
}
y++;
}
for (int i = 0; i < MAP_GetDecoderPlugInCount(player()->MAP); i++) {
MAP_DEC_PLUGIN * mplug = MAP_GetDecoderPlugIn(player()->MAP, i);
for (int x = 0; x < mplug->GetFileExtCount(); x++) {
TCHAR ExtName[MAX_PATH];
TCHAR ExtDesc[MAX_PATH];
mplug->GetFileExt(x, ExtName, ExtDesc);
LVITEM nItem;
memset(&nItem, 0, sizeof(LVITEM));
nItem.mask = LVIF_TEXT;
nItem.iSubItem = 0;
nItem.pszText = ExtDesc;
nItem.iItem = y;
ListView_InsertItem(GetDlgItem(hWnd, LST_EXTENSIONS), &nItem);
PrevAssoc[y] = IsExtAssignedDyn(ExtName);
if (PrevAssoc[y]) {
ListView_SetCheckState(GetDlgItem(hWnd, LST_EXTENSIONS), y, true);
}
y++;
}
}
RECT rc;
GetClientRect(GetDlgItem(hWnd, LST_EXTENSIONS), &rc);
ListView_SetColumnWidth(GetDlgItem(hWnd, LST_EXTENSIONS), 0, rc.right-rc.left);
break;
}
case WM_COMMAND: {
int wmId = LOWORD(wParam);
if ((wmId == IDM_OK) || (wmId == IDOK)) {
player()->lpConfig->cf.FileAssNotRunning = SendDlgItemMessage(hWnd, CBB_NOTRUNNING, CB_GETCURSEL, 0, 0);
player()->lpConfig->cf.FileAssRunning = SendDlgItemMessage(hWnd, CBB_RUNNING, CB_GETCURSEL, 0, 0);
LPWSTR exts[4] = {L"sk2", L"mp3", L"ogg", L"wav"};
for (int i = 0; i < 4; i++) {
bool NewAssoc = ListView_GetCheckState(GetDlgItem(hWnd, LST_EXTENSIONS), i);
if (NewAssoc && !PrevAssoc[i]) {
ExtAssignDyn(exts[i], L"\"%1\"", 102+(int)(i == 0));
}
if (!NewAssoc && PrevAssoc[i]) {
ExtUnassignDyn(exts[i]);
}
}
int y = 4;
for (int i = 0; i < MAP_GetDecoderPlugInCount(player()->MAP); i++) {
MAP_DEC_PLUGIN * mplug = MAP_GetDecoderPlugIn(player()->MAP, i);
for (int x = 0; x < mplug->GetFileExtCount(); x++) {
bool NewAssoc = ListView_GetCheckState(GetDlgItem(hWnd, LST_EXTENSIONS), y);
TCHAR ExtName[MAX_PATH];
TCHAR ExtDesc[MAX_PATH];
mplug->GetFileExt(x, ExtName, ExtDesc);
if (NewAssoc && !PrevAssoc[y]) {
ExtAssignDyn(ExtName, L"\"%1\"", 102);
}
if (!NewAssoc && PrevAssoc[y]) {
ExtUnassignDyn(ExtName);
}
y++;
}
}
EndDialog(hWnd, 0);
} else if (wmId == BTN_SELALL) {
HWND ls = GetDlgItem(hWnd, LST_EXTENSIONS);
for (int i = 0; i < ListView_GetItemCount(ls); i++) {
ListView_SetCheckState(ls, i, true);
}
} else if (wmId == BTN_SELNONE) {
HWND ls = GetDlgItem(hWnd, LST_EXTENSIONS);
for (int i = 0; i < ListView_GetItemCount(ls); i++) {
ListView_SetCheckState(ls, i, false);
}
} else if (wmId == IDM_CANCEL) {
EndDialog(hWnd, 0);
}
break;
}
case WM_DESTROY:
CommandBar_Destroy(hWndMenuBar);
break;
case WM_ACTIVATE:
if ((wParam == WA_INACTIVE) && ((HWND)lParam == player()->lpWndMain->hWnd)) {
EndDialog(hWnd, 0);
} else {
return DefWindowProc(hWnd, uMsg, wParam, lParam);
}
break;
default:
DefWindowProc(hWnd, uMsg, wParam, lParam);
}
return 0;
}
