void EntityImporterBase::resolveEntityReferences(Atlas::Message::Element& element)
{
if (element.isMap()) {
auto entityRefI = element.asMap().find("$eid");
if (entityRefI != element.asMap().end() && entityRefI->second.isString()) {
auto I = mEntityIdMap.find(entityRefI->second.asString());
if (I != mEntityIdMap.end()) {
entityRefI->second = I->second;
}
}
//If it's a map we need to process all child elements too
for (auto& I : element.asMap()) {
resolveEntityReferences(I.second);
}
} else if (element.isList()) {
//If it's a list we need to process all child elements too
for (auto& I : element.asList()) {
resolveEntityReferences(I);
}
}
}
bool TerrainArea::parseArea()
{
if (!mEntity.hasAttr("area")) {
S_LOG_FAILURE("TerrainArea created for entity with no area attribute");
return false;
}
const Atlas::Message::Element areaElem(mEntity.valueOfAttr("area"));
if (!areaElem.isMap()) {
S_LOG_FAILURE("TerrainArea element ('area') must be of map type.");
return false;
}
const Atlas::Message::MapType& areaData(areaElem.asMap());
int layer = 0;
WFMath::Polygon<2> poly;
TerrainAreaParser parser;
if (parser.parseArea(areaData, poly, layer)) {
if (!mArea) {
mArea = new Mercator::Area(layer, false);
} else {
//A bit of an ugly hack here since the Mercator system doesn't support changing the layer. We need to swap the old area for a new one if the layer has changed.
if (mArea->getLayer() != layer) {
mOldArea = mArea;
mArea = new Mercator::Area(layer, false);
}
}
// transform polygon into terrain coords
WFMath::Vector<3> xVec = WFMath::Vector<3>(1.0, 0.0, 0.0).rotate(mEntity.getOrientation());
double theta = atan2(xVec.y(), xVec.x()); // rotation about Z
WFMath::RotMatrix<2> rm;
poly.rotatePoint(rm.rotation(theta), WFMath::Point<2>(0, 0));
poly.shift(WFMath::Vector<2>(mEntity.getPosition().x(), mEntity.getPosition().y()));
mArea->setShape(poly);
return true;
} else {
return false;
}
}
void OutfitMatch::testAttribute(const Atlas::Message::Element& attribute, bool triggerEvaluation)
{
if (attribute.isMap()) {
Eris::Entity* entity(0);
const auto& tmap = attribute.asMap();
auto I = tmap.find(mOutfitName);
if (I != tmap.end() && I->second.isString()) {
entity = mView->getEntity(I->second.asString());
//the entity might not be available yet, so we need to create an observer for it
if (!entity) {
if (mEntityObserver.get()) {
mEntityObserver->observeCreation(mView, I->second.asString());
}
} else {
testEntity(entity);
}
} else {
testEntity(entity);
}
}
if (triggerEvaluation) {
evaluateChanges();
}
}
int main()
{
Eris::Logged.connect(sigc::ptr_fun(writeLog));
Eris::setLogLevel(Eris::LOG_DEBUG);
{
TestConnection con("name", "localhost",
6767, true);
TestAccount acc(&con);
std::string fake_char_id("1");
TestAvatar ea(&acc, fake_char_id);
acc.setup_insertActiveCharacters(&ea);
TestEntity* char_ent = new TestEntity(fake_char_id, 0, ea.getView());
ea.setup_setEntity(char_ent);
typedef std::map<std::string, Atlas::Message::Element> ElementStore;
ElementStore modTypes;
ElementStore shapes;
ElementStore levelMods;
Atlas::Message::MapType levelMod1;
levelMod1["type"] = Atlas::Message::Element("levelmod");
levelMods["1"] = levelMod1;
Atlas::Message::MapType levelMod2(levelMod1);
levelMod2["height"] = 20;
levelMods["2"] = levelMod2;
Atlas::Message::MapType levelMod3(levelMod1);
levelMod2["heightoffset"] = 30;
levelMods["3"] = levelMod3;
ElementStore adjustMods;
Atlas::Message::MapType adjustMod1;
adjustMod1["type"] = Atlas::Message::Element("adjustmod");
adjustMods["1"] = levelMod1;
Atlas::Message::MapType adjustMod2(adjustMod1);
adjustMod2["height"] = 20;
adjustMods["2"] = adjustMod2;
Atlas::Message::MapType adjustMod3(adjustMod1);
adjustMod2["heightoffset"] = 30;
adjustMods["3"] = adjustMod3;
Atlas::Message::MapType craterMod1;
craterMod1["type"] = Atlas::Message::Element("cratermod");
ElementStore slopeMods;
Atlas::Message::MapType slopeMod1;
slopeMod1["type"] = Atlas::Message::Element("slopemod");
Atlas::Message::ListType slopes;
slopes.push_back(10);
slopes.push_back(20);
slopeMod1["slopes"] = slopes;
slopeMods["1"] = slopeMod1;
Atlas::Message::MapType shapeCircle;
shapeCircle["radius"] = 15;
shapeCircle["position"] = Atlas::Message::ListType(2, 0.);
shapeCircle["type"] = "ball";
shapes["ball"] = shapeCircle;
Atlas::Message::MapType shapePolygon;
Atlas::Message::ListType points;
points.push_back(WFMath::Point<2>(0,0).toAtlas());
points.push_back(WFMath::Point<2>(10,0).toAtlas());
points.push_back(WFMath::Point<2>(10,10).toAtlas());
points.push_back(WFMath::Point<2>(0,10).toAtlas());
shapePolygon["points"] = points;
shapePolygon["type"] = "polygon";
shapes["polygon"] = shapePolygon;
shapes["empty"] = Atlas::Message::MapType();
//no terrain mod info
{
Atlas::Message::MapType emptyElement;
TestEntity* mod_ent = new TestEntity("2", 0, ea.getView());
mod_ent->setup_setAttr("terrainmod", emptyElement);
Eris::TerrainModObserver mod(mod_ent);
assert(!mod.init());
}
//no shape
{
Atlas::Message::MapType modElement = levelMod1;
TestEntity* mod_ent = new TestEntity("2", 0, ea.getView());
mod_ent->setup_setAttr("terrainmod", modElement);
Eris::TerrainModObserver mod(mod_ent);
assert(!mod.init());
}
//test level mod
for (ElementStore::iterator I = levelMods.begin(); I != levelMods.end(); ++I) {
for (ElementStore::iterator J = shapes.begin(); J != shapes.end(); ++J) {
std::cout << "Testing level mod " << I->first << " with " << J->first << std::endl;
Atlas::Message::Element modElement = I->second;
modElement.asMap()["shape"] = J->second;
TestEntity* mod_ent = new TestEntity("2", 0, ea.getView());
mod_ent->setup_setAttr("terrainmod", modElement);
Eris::TerrainModObserver mod(mod_ent);
if (J->first == "empty") {
assert(!mod.init());
} else {
assert(mod.init());
}
}
}
//test adjust mod
for (ElementStore::iterator I = adjustMods.begin(); I != adjustMods.end(); ++I) {
for (ElementStore::iterator J = shapes.begin(); J != shapes.end(); ++J) {
std::cout << "Testing adjust mod " << I->first << " with " << J->first << std::endl;
Atlas::Message::Element modElement = I->second;
modElement.asMap()["shape"] = J->second;
TestEntity* mod_ent = new TestEntity("2", 0, ea.getView());
mod_ent->setup_setAttr("terrainmod", modElement);
Eris::TerrainModObserver mod(mod_ent);
if (J->first == "empty") {
assert(!mod.init());
} else {
assert(mod.init());
}
}
}
//test slope mod
for (ElementStore::iterator I = slopeMods.begin(); I != slopeMods.end(); ++I) {
for (ElementStore::iterator J = shapes.begin(); J != shapes.end(); ++J) {
std::cout << "Testing slope mod " << I->first << " with " << J->first << std::endl;
Atlas::Message::Element modElement = I->second;
modElement.asMap()["shape"] = J->second;
TestEntity* mod_ent = new TestEntity("2", 0, ea.getView());
mod_ent->setup_setAttr("terrainmod", modElement);
Eris::TerrainModObserver mod(mod_ent);
if (J->first == "empty") {
assert(!mod.init());
} else {
assert(mod.init());
}
}
}
Atlas::Message::MapType shapeBall;
shapeBall["radius"] = 15;
shapeBall["position"] = Atlas::Message::ListType(3, 0.);
shapeBall["type"] = "ball";
//test crater mod
{
Atlas::Message::MapType modElement = craterMod1;
modElement["shape"] = shapeCircle;
TestEntity* mod_ent = new TestEntity("2", 0, ea.getView());
mod_ent->setup_setAttr("terrainmod", modElement);
Eris::TerrainModObserver mod(mod_ent);
assert(mod.init());
}
}
return 0;
}
MapAdapter::MapAdapter(const ::Atlas::Message::Element& element, CEGUI::Window* childContainer)
: AdapterBase(element), mChildContainer(childContainer),
mAttributes(element.asMap())
{
}