TextureCache::TextureCache():
mCache(LruCache<const SkPixelRef*, Texture*>::kUnlimitedCapacity),
mSize(0), mMaxSize(MB(DEFAULT_TEXTURE_CACHE_SIZE)),
mFlushRate(DEFAULT_TEXTURE_CACHE_FLUSH_RATE) {
bool setSizeByProperty = false;
char property[PROPERTY_VALUE_MAX];
if (property_get(PROPERTY_TEXTURE_CACHE_SIZE, property, NULL) > 0) {
INIT_LOGD(" Setting texture cache size to %sMB", property);
setMaxSize(MB(atof(property)));
setSizeByProperty = true;
} else {
INIT_LOGD(" Using default texture cache size of %.2fMB", DEFAULT_TEXTURE_CACHE_SIZE);
}
if (property_get(PROPERTY_TEXTURE_CACHE_FLUSH_RATE, property, NULL) > 0) {
float flushRate = atof(property);
INIT_LOGD(" Setting texture cache flush rate to %.2f%%", flushRate * 100.0f);
setFlushRate(flushRate);
} else {
INIT_LOGD(" Using default texture cache flush rate of %.2f%%",
DEFAULT_TEXTURE_CACHE_FLUSH_RATE * 100.0f);
}
/// M: Expand texture cache size for project with large resolution.
if (!setSizeByProperty) {
if (DEFAULT_TEXTURE_CACHE_SCREEN_BASED_SIZE > DEFAULT_TEXTURE_CACHE_SIZE) {
INIT_LOGD(" Setting texture cache size to %.2fMB by screen based size", DEFAULT_TEXTURE_CACHE_SCREEN_BASED_SIZE);
setMaxSize(MB(DEFAULT_TEXTURE_CACHE_SCREEN_BASED_SIZE));
}
}
init();
}
/**
* scales down the image to fit the max _width and _height dimensions and pads the borders with _color
* image will have _width and _height as its dimensions after calling this method
*/
void Image::scaleFitPad(int _width, int _height, ofColor _color, bool _vcenter, bool _hcenter) {
ofFbo compose;
ofPixels pixels;
setMaxSize(_width, _height);
updateSize();
compose.allocate(_width, _height, GL_RGBA);
pixels.allocate(_width, _height, OF_IMAGE_COLOR_ALPHA);
compose.begin();
ofPushStyle();
ofSetColor(_color);
ofDrawRectangle(0, 0, _width, _height);
ofSetColor(255, 255, 255);
int vpos = 0;
int hpos = 0;
if (_vcenter == true)
vpos = (_width - img->getWidth()) * .5;
if (_hcenter == true)
hpos = (_height - img->getHeight()) * .5;
img->draw(vpos, hpos);
ofPopStyle();
compose.end();
compose.readToPixels(pixels);
img->setFromPixels(pixels.getPixels(), _width, _height, OF_IMAGE_COLOR_ALPHA, true);
img->update();
BasicScreenObject::setSize(_width, _height);
}
TextureCache::TextureCache()
: mCache(LruCache<uint32_t, Texture*>::kUnlimitedCapacity)
, mSize(0)
, mMaxSize(MB(DEFAULT_TEXTURE_CACHE_SIZE))
, mFlushRate(DEFAULT_TEXTURE_CACHE_FLUSH_RATE)
, mAssetAtlas(nullptr) {
char property[PROPERTY_VALUE_MAX];
if (property_get(PROPERTY_TEXTURE_CACHE_SIZE, property, nullptr) > 0) {
INIT_LOGD(" Setting texture cache size to %sMB", property);
setMaxSize(MB(atof(property)));
} else {
INIT_LOGD(" Using default texture cache size of %.2fMB", DEFAULT_TEXTURE_CACHE_SIZE);
}
if (property_get(PROPERTY_TEXTURE_CACHE_FLUSH_RATE, property, nullptr) > 0) {
float flushRate = atof(property);
INIT_LOGD(" Setting texture cache flush rate to %.2f%%", flushRate * 100.0f);
setFlushRate(flushRate);
} else {
INIT_LOGD(" Using default texture cache flush rate of %.2f%%",
DEFAULT_TEXTURE_CACHE_FLUSH_RATE * 100.0f);
}
mCache.setOnEntryRemovedListener(this);
glGetIntegerv(GL_MAX_TEXTURE_SIZE, &mMaxTextureSize);
INIT_LOGD(" Maximum texture dimension is %d pixels", mMaxTextureSize);
mDebugEnabled = Properties::debugLevel & kDebugCaches;
}
void Window::setPropertyOverride(const std::string& _key, const std::string& _value)
{
/// @wproperty{Window, AutoAlpha, bool} Режим регулировки прозрачности опираясь на фокус ввода.
if (_key == "AutoAlpha")
setAutoAlpha(utility::parseValue<bool>(_value));
/// @wproperty{Window, Snap, bool} Режим прилипания к краям экрана.
else if (_key == "Snap")
setSnap(utility::parseValue<bool>(_value));
/// @wproperty{Window, MinSize, int int} Минимальный размер окна.
else if (_key == "MinSize")
setMinSize(utility::parseValue<IntSize>(_value));
/// @wproperty{Window, MaxSize, int int} Максимальный размер окна.
else if (_key == "MaxSize")
setMaxSize(utility::parseValue<IntSize>(_value));
/// @wproperty{Window, Movable, bool} Режим движения окна мышью за любой участок.
else if (_key == "Movable")
setMovable(utility::parseValue<bool>(_value));
else
{
Base::setPropertyOverride(_key, _value);
return;
}
eventChangeProperty(this, _key, _value);
}
void NativeEditBox::setCaption(const String& caption) {
if(caption.length() > mMaxSize) {
setMaxSize(caption.length()+1);
}
//Label::setCaption(caption);
EditBox::setText("");
EditBox::setText(caption);
EditBox::moveCursorHorizontal(caption.length(), false);
}
LayerCache::LayerCache(): mSize(0), mMaxSize(MB(DEFAULT_LAYER_CACHE_SIZE)) {
char property[PROPERTY_VALUE_MAX];
if (property_get(PROPERTY_LAYER_CACHE_SIZE, property, NULL) > 0) {
INIT_LOGD(" Setting layer cache size to %sMB", property);
setMaxSize(MB(atof(property)));
} else {
INIT_LOGD(" Using default layer cache size of %.2fMB", DEFAULT_LAYER_CACHE_SIZE);
}
}
RenderBufferCache::RenderBufferCache(): mSize(0), mMaxSize(MB(DEFAULT_RENDER_BUFFER_CACHE_SIZE)) {
char property[PROPERTY_VALUE_MAX];
if (property_get(PROPERTY_RENDER_BUFFER_CACHE_SIZE, property, NULL) > 0) {
INIT_LOGD(" Setting render buffer cache size to %sMB", property);
setMaxSize(MB(atof(property)));
} else {
INIT_LOGD(" Using default render buffer cache size of %.2fMB",
DEFAULT_RENDER_BUFFER_CACHE_SIZE);
}
}
bool
FileLogHandler::setParam(const BaseString ¶m, const BaseString &value){
if(param == "filename")
return setFilename(value);
if(param == "maxsize")
return setMaxSize(value);
if(param == "maxfiles")
return setMaxFiles(value);
setErrorStr("Invalid parameter");
return false;
}
/*************************************************************************
Constructor
*************************************************************************/
Timer::Timer(const CEGUI::String& type, const CEGUI::String& name) :
Window(type, name),
d_delay(0),
d_currentValue(0),
d_started(false)
{
CEGUI::USize sz(CEGUI::UDim(1.0, 0.0), CEGUI::UDim(1.0, 0.0));
setMaxSize(sz);
setSize(sz);
addTimerProperties();
}
TextDropShadowCache::TextDropShadowCache():
mCache(GenerationCache<ShadowText, ShadowTexture*>::kUnlimitedCapacity),
mSize(0), mMaxSize(MB(DEFAULT_DROP_SHADOW_CACHE_SIZE)) {
char property[PROPERTY_VALUE_MAX];
if (property_get(PROPERTY_DROP_SHADOW_CACHE_SIZE, property, NULL) > 0) {
INIT_LOGD(" Setting drop shadow cache size to %sMB", property);
setMaxSize(MB(atof(property)));
} else {
INIT_LOGD(" Using default drop shadow cache size of %.2fMB",
DEFAULT_DROP_SHADOW_CACHE_SIZE);
}
init();
}
NativeEditBox::NativeEditBox(int x, int y, int width, int height, int maxSize, int options, Widget *parent,
const String& initialText, const WString& titleString, bool fresh) :
EditBox(x, y, width, height, parent),
mTitleString(titleString),
mString(NULL),
mOptions(options), x(x), y(y), width(width), height(height), fresh(fresh)
{
setFont(Util::getFontWhite());
setMaxSize(maxSize);
setCaption(initialText);
Environment::getEnvironment().addPointerListener(this);
#if defined(MA_PROF_QWERTY)
setInputMode(EditBox::IM_QWERTY);
#endif
}
TessellationCache::TessellationCache()
: mSize(0)
, mMaxSize(MB(DEFAULT_VERTEX_CACHE_SIZE))
, mCache(LruCache<Description, Buffer*>::kUnlimitedCapacity)
, mShadowCache(LruCache<ShadowDescription, Task<vertexBuffer_pair_t*>*>::kUnlimitedCapacity) {
char property[PROPERTY_VALUE_MAX];
if (property_get(PROPERTY_VERTEX_CACHE_SIZE, property, NULL) > 0) {
INIT_LOGD(" Setting %s cache size to %sMB", name, property);
setMaxSize(MB(atof(property)));
} else {
INIT_LOGD(" Using default %s cache size of %.2fMB", name, DEFAULT_VERTEX_CACHE_SIZE);
}
mCache.setOnEntryRemovedListener(&mBufferRemovedListener);
mShadowCache.setOnEntryRemovedListener(&mBufferPairRemovedListener);
mDebugEnabled = readDebugLevel() & kDebugCaches;
}
NativeEditBox::NativeEditBox(
int x,
int y,
int width,
int height,
int maxSize,
int options,
const String& initialText,
const WString& titleString)
: Label(x, y, width, height, initialText),
mTitleString(titleString),
mString(NULL),
mOptions(options),
mEditBoxListeners(false)
{
setMaxSize(maxSize);
setCaption(initialText);
}
PathCache::PathCache():
mCache(LruCache<PathDescription, PathTexture*>::kUnlimitedCapacity),
mSize(0), mMaxSize(MB(DEFAULT_PATH_CACHE_SIZE)) {
char property[PROPERTY_VALUE_MAX];
if (property_get(PROPERTY_PATH_CACHE_SIZE, property, NULL) > 0) {
INIT_LOGD(" Setting %s cache size to %sMB", name, property);
setMaxSize(MB(atof(property)));
} else {
INIT_LOGD(" Using default %s cache size of %.2fMB", name, DEFAULT_PATH_CACHE_SIZE);
}
mCache.setOnEntryRemovedListener(this);
GLint maxTextureSize;
glGetIntegerv(GL_MAX_TEXTURE_SIZE, &maxTextureSize);
mMaxTextureSize = maxTextureSize;
mDebugEnabled = readDebugLevel() & kDebugCaches;
}
void Window::setPropertyOverride(const std::string& _key, const std::string& _value)
{
if (_key == "AutoAlpha")
setAutoAlpha(utility::parseValue<bool>(_value));
else if (_key == "Snap")
setSnap(utility::parseValue<bool>(_value));
else if (_key == "MinSize")
setMinSize(utility::parseValue<IntSize>(_value));
else if (_key == "MaxSize")
setMaxSize(utility::parseValue<IntSize>(_value));
else if (_key == "Movable")
setMovable(utility::parseValue<bool>(_value));
else
{
Base::setPropertyOverride(_key, _value);
return;
}
eventChangeProperty(this, _key, _value);
}
Tlv2711::Tlv2711(quint8 msgType, quint8 msgFlags, quint16 X1, quint16 X2, const Cookie &cookie):
m_cookie(cookie)
{
setMaxSize(0x1f18);
append<quint16>(0x1B, LittleEndian);
append<quint16>(protocol_version, LittleEndian);
append(ICQ_CAPABILITY_PSIG_MESSAGE);
append<quint8>(0); // not sure
append<quint16>(client_features);
append<quint32>(dc_type);
append<quint16>(m_cookie.id(), LittleEndian);
append<quint16>(0x0E, LittleEndian);
append<quint16>(m_cookie.id(), LittleEndian);
append<quint64>(0); // Unknown 12 bytes
append<quint32>(0);
append<quint8>(msgType);
append<quint8>(msgFlags);
append<quint16>(X1, LittleEndian);
append<quint16>(X2, LittleEndian);
}
TextureCache::TextureCache():
mCache(GenerationCache<SkBitmap*, Texture*>::kUnlimitedCapacity),
mSize(0), mMaxSize(MB(DEFAULT_TEXTURE_CACHE_SIZE)),
mFlushRate(DEFAULT_TEXTURE_CACHE_FLUSH_RATE) {
char property[PROPERTY_VALUE_MAX];
if (property_get(PROPERTY_TEXTURE_CACHE_SIZE, property, NULL) > 0) {
INIT_LOGD(" Setting texture cache size to %sMB", property);
setMaxSize(MB(atof(property)));
} else {
INIT_LOGD(" Using default texture cache size of %.2fMB", DEFAULT_TEXTURE_CACHE_SIZE);
}
if (property_get(PROPERTY_TEXTURE_CACHE_FLUSH_RATE, property, NULL) > 0) {
float flushRate = atof(property);
INIT_LOGD(" Setting texture cache flush rate to %.2f%%", flushRate * 100.0f);
setFlushRate(flushRate);
} else {
INIT_LOGD(" Using default texture cache flush rate of %.2f%%",
DEFAULT_TEXTURE_CACHE_FLUSH_RATE * 100.0f);
}
init();
}
void TwWindow::setMaxSize(int w, int h)
{
setMaxSize(TwSize<int>(w, h));
}
void Window::setMaxSize(int _width, int _height)
{
setMaxSize(IntSize(_width, _height));
}
MusicWindow::MusicWindow(QWidget *parent) : MainWindow(parent)
{
this->setWindowIcon(QIcon(":/images/icons/app_icon"));
systemTrayIcon = new MySystemTrayIcon(this);
connect(systemTrayIcon, SIGNAL(showWindow()), this, SLOT(show()));
connect(systemTrayIcon, SIGNAL(quit()), this, SLOT(close()));
player = new MyPlayer();
connect(player, SIGNAL(playerStateChanged(int)), this, SLOT(playerStateChanged(int)));
connect(player, SIGNAL(musicChanged(QString,int)), this, SLOT(musicChanged(QString,int)));
topBar = new TopBar(this);
connect(topBar, SIGNAL(setMinSize()), this, SLOT(showMinimized()));
connect(topBar, SIGNAL(setMaxSize()), this, SLOT(setMaxSize()));
connect(topBar, SIGNAL(closeWindow()), this, SLOT(hide()));
connect(topBar, SIGNAL(quit()), this, SLOT(close()));
connect(topBar, SIGNAL(setBackgroud(QString)), this, SLOT(setBackgroud(QString)));
connect(topBar, SIGNAL(aboutQtMusic()), this, SLOT(aboutQtMusic()));
fuctionPage = new QStackedWidget;
fuctionPage->setMinimumWidth(200);
lyricLabel = new LyricLabel(false, this);
connect(player, SIGNAL(positionChanged(qint64)), lyricLabel, SLOT(postionChanged(qint64)));
connect(lyricLabel, SIGNAL(changeTo(qint64)), player, SLOT(setPosition(qint64)));
networkPage = new NetworkPage();
QLabel *label2 = new QLabel("Network");
label2->setAlignment(Qt::AlignCenter);
QLabel *label3 = new QLabel("Download");
label3->setAlignment(Qt::AlignCenter);
fuctionPage->addWidget(lyricLabel);
fuctionPage->addWidget(networkPage);
fuctionPage->addWidget(label3);
fuctionPage->setCurrentIndex(0);
connect(topBar, SIGNAL(selectFuction(int)), fuctionPage, SLOT(setCurrentIndex(int)));
musicPage = new MusicPage;
musicPage->setMaximumWidth(500);
musicPage->setMinimumWidth(300);
connect(musicPage, SIGNAL(tryToCreateList(QString)), this, SLOT(tryToCreateList(QString)));
connect(musicPage, SIGNAL(deleteList(QString)), this, SLOT(deleteList(QString)));
connect(musicPage, SIGNAL(addMusics()), this, SLOT(addMusics()));
connect(musicPage, SIGNAL(play(QString,int)), player, SLOT(playTheMusic(QString,int)));
connect(musicPage, SIGNAL(removeTheMusic(QString,int)), this, SLOT(removeTheMusic(QString,int)));
connect(musicPage, SIGNAL(removeAllMusics(QString)), this, SLOT(removeAllMusics(QString)));
connect(musicPage, SIGNAL(moveMusic(QString,int,int)), this, SLOT(moveMusic(QString,int,int)));
bottomBar = new BottomBar(this);
connect(bottomBar, SIGNAL(setVoice(int)), player, SLOT(setVoice(int)));
connect(bottomBar, SIGNAL(setMode(int)), player, SLOT(setPlayMode(int)));
connect(bottomBar, SIGNAL(setPostion(qint64)), player, SLOT(setPosition(qint64)));
connect(bottomBar, SIGNAL(setPostion(qint64)), lyricLabel, SLOT(setPostion(qint64)));
connect(player, SIGNAL(durationChanged(qint64)), bottomBar, SLOT(setMaxDuration(qint64)));
connect(player, SIGNAL(positionChanged(qint64)), bottomBar, SLOT(changePostionTo(qint64)));
connect(musicPage, SIGNAL(play(QString,int)), bottomBar, SLOT(setPostionAvailable()));
connect(bottomBar, SIGNAL(tryplay()), this, SLOT(clickPlay()));
connect(bottomBar, SIGNAL(playPre()), this, SLOT(playPre()));
connect(bottomBar, SIGNAL(playNext()), this, SLOT(playNext()));
connect(systemTrayIcon, SIGNAL(setMode(int)), bottomBar, SLOT(setPlayMode(int)));
connect(bottomBar, SIGNAL(setMode(int)), systemTrayIcon, SLOT(setPlayMode(int)));
connect(bottomBar, SIGNAL(showLyric(QString)), topBar, SLOT(changeFuction(QString)));
//connect(lyricLabel, SIGNAL(changeTo(qint64)), bottomBar, SLOT(changePostionTo(qint64)));
//connect(lyricLabel, SIGNAL(changeTo(qint64)), bottomBar, SIGNAL(setPostion(qint64)));
QVBoxLayout *mainLayout = new QVBoxLayout;
mainLayout->addWidget(topBar);
QSplitter *splitter = new QSplitter(Qt::Horizontal, this);
//设定分割窗口的分割条在拖动时是否为实时更新 true为实时更新 false则在拖动时只显示一条灰色的线条
//在拖动到位并弹起鼠标后再显示分隔条
splitter->setOpaqueResize(false);
splitter->setChildrenCollapsible(false);
splitter->addWidget(fuctionPage);
splitter->addWidget(musicPage);
splitter->setStretchFactor(0, 10);
splitter->setStretchFactor(1, 1);
splitter->setStyleSheet("QSplitter::handle { background-color: rgba(0,0,0,0%) }");
splitter->setHandleWidth(4);
mainLayout->addWidget(splitter);
mainLayout->addWidget(bottomBar);
mainLayout->setMargin(1);
mainLayout->setSpacing(3);
this->setLayout(mainLayout);
dealMouse();
readData();
}
void CandidateSet::initTrees(CandidateSet& candSet) {
int curMaxSize = this->maxSize;
*this = candSet;
setMaxSize(curMaxSize);
}
explicit TimeCache(size_t size) { setMaxSize(size); }
ChatEventList::ChatEventList() {
eventListEnd = &eventListRoot;
setMaxSize(DEFAULT_MAX_SIZE);
currentSize = 0;
}
void CJsonRmgTemplateLoader::loadTemplates()
{
const JsonNode rootNode(ResourceID("config/rmg.json"));
for(const auto & templatePair : rootNode.Struct())
{
auto tpl = new CRmgTemplate();
try
{
tpl->setName(templatePair.first);
const auto & templateNode = templatePair.second;
// Parse main template data
tpl->setMinSize(parseMapTemplateSize(templateNode["minSize"].String()));
tpl->setMaxSize(parseMapTemplateSize(templateNode["maxSize"].String()));
tpl->setPlayers(parsePlayers(templateNode["players"].String()));
tpl->setCpuPlayers(parsePlayers(templateNode["cpu"].String()));
// Parse zones
std::map<TRmgTemplateZoneId, CRmgTemplateZone *> zones;
for (const auto & zonePair : templateNode["zones"].Struct())
{
auto zone = new CRmgTemplateZone();
auto zoneId = boost::lexical_cast<TRmgTemplateZoneId>(zonePair.first);
zone->setId(zoneId);
const auto & zoneNode = zonePair.second;
zone->setType(parseZoneType(zoneNode["type"].String()));
zone->setSize(zoneNode["size"].Float());
if (!zoneNode["owner"].isNull()) zone->setOwner(zoneNode["owner"].Float());
zone->setPlayerTowns(parseTemplateZoneTowns(zoneNode["playerTowns"]));
zone->setNeutralTowns(parseTemplateZoneTowns(zoneNode["neutralTowns"]));
if (!zoneNode["matchTerrainToTown"].isNull()) //default : true
zone->setMatchTerrainToTown(zoneNode["matchTerrainToTown"].Bool());
zone->setTerrainTypes(parseTerrainTypes(zoneNode["terrainTypes"].Vector(), zone->getDefaultTerrainTypes()));
if (!zoneNode["townsAreSameType"].isNull()) //default : false
zone->setTownsAreSameType((zoneNode["townsAreSameType"].Bool()));
for (int i = 0; i < 2; ++i)
{
std::set<TFaction> allowedTownTypes;
if (i)
{
if (zoneNode["allowedTowns"].isNull())
allowedTownTypes = zone->getDefaultTownTypes();
}
else
{
if (zoneNode["allowedMonsters"].isNull())
allowedTownTypes = VLC->townh->getAllowedFactions(false);
}
if (allowedTownTypes.empty())
{
for (const JsonNode & allowedTown : zoneNode[i ? "allowedTowns" : "allowedMonsters"].Vector())
{
//complain if the town type is not present in our game
if (auto id = VLC->modh->identifiers.getIdentifier("faction", allowedTown, false))
allowedTownTypes.insert(id.get());
}
}
if (!zoneNode[i ? "bannedTowns" : "bannedMonsters"].isNull())
{
for (const JsonNode & bannedTown : zoneNode[i ? "bannedTowns" : "bannedMonsters"].Vector())
{
//erase unindentified towns silently
if (auto id = VLC->modh->identifiers.getIdentifier("faction", bannedTown, true))
vstd::erase_if_present(allowedTownTypes, id.get());
}
}
if (i)
zone->setTownTypes(allowedTownTypes);
else
zone->setMonsterTypes(allowedTownTypes);
}
const std::string monsterStrength = zoneNode["monsters"].String();
if (monsterStrength == "weak")
zone->setMonsterStrength(EMonsterStrength::ZONE_WEAK);
else if (monsterStrength == "normal")
zone->setMonsterStrength(EMonsterStrength::ZONE_NORMAL);
else if (monsterStrength == "strong")
zone->setMonsterStrength(EMonsterStrength::ZONE_STRONG);
else
throw (rmgException("incorrect monster power"));
if (!zoneNode["mines"].isNull())
{
auto mines = zoneNode["mines"].Struct();
//FIXME: maybe there is a smarter way to parse it already?
zone->setMinesAmount(Res::WOOD, mines["wood"].Float());
zone->setMinesAmount(Res::ORE, mines["ore"].Float());
zone->setMinesAmount(Res::GEMS, mines["gems"].Float());
zone->setMinesAmount(Res::CRYSTAL, mines["crystal"].Float());
zone->setMinesAmount(Res::SULFUR, mines["sulfur"].Float());
zone->setMinesAmount(Res::MERCURY, mines["mercury"].Float());
zone->setMinesAmount(Res::GOLD, mines["gold"].Float());
//TODO: Mithril
}
//treasures
if (!zoneNode["treasure"].isNull())
{
//TODO: parse vector of different treasure settings
if (zoneNode["treasure"].getType() == JsonNode::DATA_STRUCT)
{
auto treasureInfo = zoneNode["treasure"].Struct();
{
CTreasureInfo ti;
ti.min = treasureInfo["min"].Float();
ti.max = treasureInfo["max"].Float();
ti.density = treasureInfo["density"].Float(); //TODO: use me
zone->addTreasureInfo(ti);
}
}
else if (zoneNode["treasure"].getType() == JsonNode::DATA_VECTOR)
{
for (auto treasureInfo : zoneNode["treasure"].Vector())
{
CTreasureInfo ti;
ti.min = treasureInfo["min"].Float();
ti.max = treasureInfo["max"].Float();
ti.density = treasureInfo["density"].Float();
zone->addTreasureInfo(ti);
}
}
}
zones[zone->getId()] = zone;
}
//copy settings from already parsed zones
for (const auto & zonePair : templateNode["zones"].Struct())
{
auto zoneId = boost::lexical_cast<TRmgTemplateZoneId>(zonePair.first);
auto zone = zones[zoneId];
const auto & zoneNode = zonePair.second;
if (!zoneNode["terrainTypeLikeZone"].isNull())
{
int id = zoneNode["terrainTypeLikeZone"].Float();
zone->setTerrainTypes(zones[id]->getTerrainTypes());
zone->setMatchTerrainToTown(zones[id]->getMatchTerrainToTown());
}
if (!zoneNode["townTypeLikeZone"].isNull())
zone->setTownTypes (zones[zoneNode["townTypeLikeZone"].Float()]->getTownTypes());
if (!zoneNode["treasureLikeZone"].isNull())
{
for (auto treasureInfo : zones[zoneNode["treasureLikeZone"].Float()]->getTreasureInfo())
{
zone->addTreasureInfo(treasureInfo);
}
}
if (!zoneNode["minesLikeZone"].isNull())
{
for (auto mineInfo : zones[zoneNode["minesLikeZone"].Float()]->getMinesInfo())
{
zone->setMinesAmount (mineInfo.first, mineInfo.second);
}
}
}
tpl->setZones(zones);
// Parse connections
std::list<CRmgTemplateZoneConnection> connections;
for(const auto & connPair : templateNode["connections"].Vector())
{
CRmgTemplateZoneConnection conn;
conn.setZoneA(zones.find(boost::lexical_cast<TRmgTemplateZoneId>(connPair["a"].String()))->second);
conn.setZoneB(zones.find(boost::lexical_cast<TRmgTemplateZoneId>(connPair["b"].String()))->second);
conn.setGuardStrength(connPair["guard"].Float());
connections.push_back(conn);
}
tpl->setConnections(connections);
{
auto zones = tpl->getZones();
for (auto con : tpl->getConnections())
{
auto idA = con.getZoneA()->getId();
auto idB = con.getZoneB()->getId();
zones[idA]->addConnection(idB);
zones[idB]->addConnection(idA);
}
}
tpl->validate();
templates[tpl->getName()] = tpl;
}
catch(const std::exception & e)
{
logGlobal->errorStream() << boost::format("Template %s has errors. Message: %s.") % tpl->getName() % std::string(e.what());
}
}
}
void CLayoutVertical::computeSize()
{
// Nombre d'objets enfants
const int nbr_children = getNumChildren();
// Dimensions minimales et maximales du layout
int min_height = 0;
int max_height = 0;
int min_width = 0;
int max_width = 0;
// Hauteur et largeur de chaque widget
std::vector<int> widgets_h_min;
std::vector<int> widgets_w_min;
std::vector<int> widgets_h_max;
std::vector<int> widgets_w_max;
widgets_h_min.reserve(nbr_children);
widgets_w_min.reserve(nbr_children);
widgets_h_max.reserve(nbr_children);
widgets_w_max.reserve(nbr_children);
int totalStretch = 0;
// On cherche la taille de chaque objet
for (std::list<TLayoutItem>::const_iterator it = m_children.begin(); it != m_children.end(); ++it)
{
totalStretch += it->stretch;
// Dimensions minimales
int tmp_w = it->widget->getMinWidth();
widgets_w_min.push_back(tmp_w);
int tmp_h = it->widget->getMinHeight();
widgets_h_min.push_back(tmp_h);
tmp_w = SumInt(tmp_w, m_padding.getLeft() + m_padding.getRight());
if (tmp_w > min_width)
{
min_width = tmp_w;
}
min_height = SumInt(min_height, SumInt(tmp_h, m_padding.getTop() + m_padding.getBottom()));
// Dimensions maximales
tmp_w = it->widget->getMaxWidth();
widgets_w_max.push_back(tmp_w);
tmp_h = it->widget->getMaxHeight();
widgets_h_max.push_back(tmp_h);
tmp_w = SumInt(tmp_w, m_padding.getLeft() + m_padding.getRight());
if (tmp_w > max_width)
{
max_width = tmp_w;
}
max_height = SumInt(max_height, SumInt(tmp_h, m_padding.getTop() + m_padding.getBottom()));
}
min_width = SumInt(min_width, m_margin.getLeft() + m_margin.getRight());
max_width = SumInt(max_width, m_margin.getLeft() + m_margin.getRight());
min_height = SumInt(min_height, m_margin.getTop() + m_margin.getBottom());
max_height = SumInt(max_height, m_margin.getTop() + m_margin.getBottom());
setMinSize(min_width, min_height);
setMaxSize(max_width, max_height);
// Espace à répartir
int residu = 0;
if (min_height < m_height)
{
residu = m_height - min_height;
}
// Dimensions de chaque objet enfant
std::vector<int> widgets_w;
std::vector<int> widgets_h;
widgets_w.reserve(nbr_children);
widgets_h.reserve(nbr_children);
int growingStretch = totalStretch;
int growingChildren = nbr_children;
// Calcul des dimensions de chaque objet enfant
for (int i = 0; i < nbr_children; ++i)
{
if (widgets_w_min[i] < widgets_w_max[i])
{
if (widgets_w_max[i] < m_width - m_padding.getLeft() - m_padding.getRight())
widgets_w[i] = widgets_w_min[i];
else
widgets_w[i] = m_width - m_padding.getLeft() - m_padding.getRight();
}
else
{
widgets_w[i] = widgets_w_min[i];
}
widgets_h[i] = widgets_h_min[i];
if (widgets_h[i] >= widgets_h_max[i])
{
--growingChildren;
}
}
while (residu > 0)
{
if (growingStretch == 0)
{
// Tous les widgets ont leur taille maximale
if (growingChildren == 0)
{
int nbr_first = residu % nbr_children;
int add_pixel = residu / nbr_children;
residu = 0;
int i = 0;
// On modifie la taille des cases
for (std::list<TLayoutItem>::iterator it = m_children.begin(); it != m_children.end(); ++it, ++i)
{
it->size = widgets_h[i] + m_padding.getTop() + m_padding.getBottom() + add_pixel;
if (i < nbr_first)
++(it->size);
}
}
else
{
float pixelPerStretch = static_cast<float>(residu) / static_cast<float>(growingChildren);
int pixelAdd = pixelPerStretch;
if (pixelAdd == 0)
{
growingChildren = 0;
continue;
}
int i = 0;
// Pour chaque objet enfant
for (std::list<TLayoutItem>::iterator it = m_children.begin(); it != m_children.end(); ++it, ++i)
{
// On peut agrandir le widget
if (widgets_h[i] < widgets_h_max[i])
{
int pixelCanAdd = widgets_h_max[i] - widgets_h[i];
if (pixelCanAdd >= pixelAdd)
{
widgets_h[i] += pixelAdd;
residu -= pixelAdd;
if (pixelCanAdd == pixelAdd)
{
--growingChildren;
}
}
else
{
widgets_h[i] += pixelCanAdd;
residu -= pixelCanAdd;
--growingChildren;
}
it->size = widgets_h[i] + m_padding.getTop() + m_padding.getBottom();
}
}
}
}
else
{
float pixelPerStretch = static_cast<float>(residu) / static_cast<float>(growingStretch);
if (pixelPerStretch < 1.0f)
{
growingStretch = 0;
growingChildren = 0;
continue;
}
bool noChange = true;
int i = 0;
// Pour chaque objet enfant
for (std::list<TLayoutItem>::iterator it = m_children.begin(); it != m_children.end(); ++it, ++i)
{
// On peut agrandir le widget
if (widgets_h[i] < widgets_h_max[i])
{
int pixelAdd = pixelPerStretch * it->stretch;
int pixelCanAdd = widgets_h_max[i] - widgets_h[i];
if (pixelCanAdd >= pixelAdd)
{
widgets_h[i] += pixelAdd;
residu -= pixelAdd;
if (pixelCanAdd == pixelAdd)
{
--growingChildren;
growingStretch -= it->stretch;
}
}
else
{
widgets_h[i] += pixelCanAdd;
residu -= pixelCanAdd;
--growingChildren;
growingStretch -= it->stretch;
}
it->size = widgets_h[i] + m_padding.getTop() + m_padding.getBottom();
noChange = false;
}
}
// Tous les widgets ont leur taille maximale
if (noChange)
{
i = 0;
// Pour chaque objet enfant
for (std::list<TLayoutItem>::iterator it = m_children.begin(); it != m_children.end(); ++it, ++i)
{
int pixelAdd = pixelPerStretch * it->stretch;
residu -= pixelAdd;
it->size = widgets_h[i] + m_padding.getTop() + m_padding.getBottom() + pixelAdd;
}
growingStretch = 0;
growingChildren = 0;
}
}
}
int offset = m_margin.getTop();
int i = 0;
// On modifie la liste des objets
for (std::list<TLayoutItem>::iterator it = m_children.begin(); it != m_children.end(); ++it, ++i)
{
// Dimensions de l'objet
it->widget->setSize(widgets_w[i], widgets_h[i]);
// Position de l'objet
switch (it->align)
{
case AlignTopLeft:
it->widget->setPosition(m_margin.getLeft() + m_padding.getLeft(), offset + m_padding.getTop());
break;
case AlignTopCenter:
it->widget->setPosition((m_width - widgets_w[i]) / 2, offset + m_padding.getTop());
break;
case AlignTopRight:
it->widget->setPosition(m_width - m_padding.getRight() - widgets_w[i], offset + m_padding.getTop());
break;
case AlignMiddleLeft:
it->widget->setPosition(m_margin.getLeft() + m_padding.getLeft(), offset + (it->size - widgets_h[i]) / 2);
break;
default:
case AlignMiddleCenter:
it->widget->setPosition((m_width - widgets_w[i] ) / 2 , offset + (it->size - widgets_h[i]) / 2);
break;
case AlignMiddleRight:
it->widget->setPosition(m_width - m_padding.getRight() - widgets_w[i], offset + (it->size - widgets_h[i]) / 2);
break;
case AlignBottomLeft:
it->widget->setPosition(m_margin.getLeft() + m_padding.getLeft(), offset + it->size - widgets_h[i] - m_padding.getBottom());
break;
case AlignBottomCenter:
it->widget->setPosition((m_width - widgets_w[i]) / 2 , offset + it->size - widgets_h[i] - m_padding.getBottom());
break;
case AlignBottomRight:
it->widget->setPosition(m_width - m_padding.getRight() - widgets_w[i], offset + it->size - widgets_h[i] - m_padding.getBottom());
break;
}
offset += it->size;
}
}
void ZDvidDataSliceHelper::setUnlimitedSize()
{
setMaxSize(0, 0);
}
void NativeEditBox::setCaption(const String& caption) {
if(caption.length() > mMaxSize) {
setMaxSize(caption.length()+1);
}
Label::setCaption(caption);
}
