bool CollisionManager::checkLineOfSightWorldToCell(const Vector3& rayOrigin, const Vector3& rayEnd, float distance, CellObject* cellObject) {
ManagedReference<SceneObject*> building = cellObject->getParent();
if (building == NULL)
return true;
SharedObjectTemplate* objectTemplate = building->getObjectTemplate();
PortalLayout* portalLayout = objectTemplate->getPortalLayout();
if (portalLayout == NULL)
return true;
Ray ray = convertToModelSpace(rayOrigin, rayEnd, building);
if (cellObject->getCellNumber() >= portalLayout->getAppearanceTemplatesSize())
return true;
MeshAppearanceTemplate* app = portalLayout->getMeshAppearanceTemplate(cellObject->getCellNumber());
AABBTree* aabbTree = app->getAABBTree();
if (aabbTree == NULL)
return true;
float intersectionDistance;
Triangle* triangle = NULL;
if (aabbTree->intersects(ray, distance, intersectionDistance, triangle, true))
return false;
return true;
}
bool CollisionManager::checkMovementCollision(CreatureObject* creature, float x, float z, float y, Zone* zone) {
SortedVector<ManagedReference<QuadTreeEntry*> > closeObjects;
zone->getInRangeObjects(x, y, 128, &closeObjects, true);
//Vector3 rayStart(x, z + 0.25, y);
//Vector3 rayStart(creature->getWorldPositionX(), creature->getWorldPositionZ(), creature->getPos)
Vector3 rayStart = creature->getWorldPosition();
rayStart.set(rayStart.getX(), rayStart.getY(), rayStart.getZ() + 0.25f);
//Vector3 rayEnd(x + System::random(512), z + 0.3f, y + System::random(512));
/*Vector3 rayEnd;
rayEnd.set(targetPosition.getX(), targetPosition.getY(), targetPosition.getZ());*/
Vector3 rayEnd(x, z + 0.25, y);
float maxDistance = rayEnd.distanceTo(rayStart);
if (maxDistance == 0)
return false;
printf("%f\n", maxDistance);
SortedVector<IntersectionResult> results;
results.setAllowDuplicateInsertPlan();
printf("starting test\n");
Triangle* triangle;
for (int i = 0; i < closeObjects.size(); ++i) {
SceneObject* object = dynamic_cast<SceneObject*>(closeObjects.get(i).get());
if (object == NULL)
continue;
AABBTree* tree = getAABBTree(object, 255);
if (tree == NULL)
continue;
Ray ray = convertToModelSpace(rayStart, rayEnd, object);
//results.removeAll(10, 10);
//ordered by intersection distance
//tree->intersects(ray, maxDistance, results);
float intersectionDistance;
if (tree->intersects(ray, maxDistance, intersectionDistance, triangle, true)) {
String str = object->getObjectTemplate()->getFullTemplateString();
object->info("intersecting with me " + str, true);
return true;
}
}
return false;
}
void CollisionManager::getWorldFloorCollisions(float x, float y, Zone* zone, SortedVector<IntersectionResult>* result, const Vector<QuadTreeEntry*>& inRangeObjects) {
Vector3 rayStart(x, 16384.f, y);
Vector3 rayEnd(x, -16384.f, y);
for (int i = 0; i < inRangeObjects.size(); ++i) {
SceneObject* sceno = static_cast<SceneObject*>(inRangeObjects.get(i));
AABBTree* aabbTree = getAABBTree(sceno, 255);
if (aabbTree == NULL)
continue;
Ray ray = convertToModelSpace(rayStart, rayEnd, sceno);
aabbTree->intersects(ray, 16384 * 2, *result);
}
}
bool CollisionManager::checkSphereCollision(const Vector3& origin, float radius, Zone* zone) {
Vector3 sphereOrigin(origin.getX(), origin.getZ(), origin.getY());
SortedVector<ManagedReference<QuadTreeEntry*> > objects(512, 512);
zone->getInRangeObjects(origin.getX(), origin.getY(), 512, &objects, true);
for (int i = 0; i < objects.size(); ++i) {
AABBTree* aabbTree = NULL;
SceneObject* scno = cast<SceneObject*>(objects.get(i).get());
try {
aabbTree = getAABBTree(scno, -1);
if (aabbTree == NULL)
continue;
} catch (Exception& e) {
aabbTree = NULL;
} catch (...) {
throw;
}
if (aabbTree != NULL) {
//moving ray to model space
try {
Sphere sphere(convertToModelSpace(sphereOrigin, scno), radius);
//structure->info("checking ray with building dir" + String::valueOf(structure->getDirectionAngle()), true);
if (aabbTree->testCollide(sphere)) {
return true;
}
} catch (Exception& e) {
scno->error(e.getMessage());
} catch (...) {
throw;
}
}
}
return false;
}
bool CollisionManager::checkShipCollision(ShipObject* ship, const Vector3& targetPosition, Vector3& collisionPoint) {
Zone* zone = ship->getZone();
if (zone == NULL)
return false;
TerrainManager* terrainManager = zone->getPlanetManager()->getTerrainManager();
if (terrainManager->getProceduralTerrainAppearance() != NULL) {
float height = terrainManager->getHeight(targetPosition.getX(), targetPosition.getY());
float waterHeight = -16368.f;
if (terrainManager->getWaterHeight(targetPosition.getY(), targetPosition.getY(), waterHeight))
height = MAX(waterHeight, height);
if (height > targetPosition.getZ()) {
collisionPoint = targetPosition;
collisionPoint.setZ(height);
//ship->info("colliding with terrain", true);
return true;
}
}
Vector3 rayOrigin = ship->getWorldPosition();
rayOrigin.set(rayOrigin.getX(), rayOrigin.getY(), rayOrigin.getZ());
Vector3 rayEnd;
rayEnd.set(targetPosition.getX(), targetPosition.getY(), targetPosition.getZ());
float dist = rayEnd.distanceTo(rayOrigin);
float intersectionDistance;
Triangle* triangle = NULL;
SortedVector<ManagedReference<QuadTreeEntry*> > objects(512, 512);
zone->getInRangeObjects(targetPosition.getX(), targetPosition.getY(), 512, &objects, true);
for (int i = 0; i < objects.size(); ++i) {
AABBTree* aabbTree = NULL;
SceneObject* scno = cast<SceneObject*>(objects.get(i).get());
try {
aabbTree = getAABBTree(scno, -1);
if (aabbTree == NULL)
continue;
} catch (Exception& e) {
aabbTree = NULL;
} catch (...) {
throw;
}
if (aabbTree != NULL) {
//moving ray to model space
try {
Ray ray = convertToModelSpace(rayOrigin, rayEnd, scno);
//structure->info("checking ray with building dir" + String::valueOf(structure->getDirectionAngle()), true);
if (aabbTree->intersects(ray, dist, intersectionDistance, triangle, true)) {
//rayOrigin.set(rayOrigin.getX(), rayOrigin.getY(), rayOrigin.getZ());
Vector3 direction = rayEnd - rayOrigin;
direction.normalize();
//intersectionDistance -= 0.5f;
collisionPoint.set(rayOrigin.getX() + (direction.getX() * intersectionDistance), rayOrigin.getY() + (direction.getY() * intersectionDistance), rayOrigin.getZ() + (direction.getZ() * intersectionDistance));
//ship->info("colliding with building", true);
return true;
}
} catch (Exception& e) {
ship->error(e.getMessage());
} catch (...) {
throw;
}
}
}
return false;
}
bool CollisionManager::checkLineOfSight(SceneObject* object1, SceneObject* object2) {
Zone* zone = object1->getZone();
if (zone == NULL)
return false;
if (object2->getZone() != zone)
return false;
if (object1->isAiAgent() || object2->isAiAgent()) {
Vector<WorldCoordinates>* path = PathFinderManager::instance()->findPath(object1, object2);
if (path == NULL)
return false;
else
delete path;
}
ManagedReference<SceneObject*> rootParent1 = object1->getRootParent();
ManagedReference<SceneObject*> rootParent2 = object2->getRootParent();
if (rootParent1 != NULL || rootParent2 != NULL) {
if (rootParent1 == rootParent2) {
return CollisionManager::checkLineOfSightInBuilding(object1, object2, rootParent1);
} else if (rootParent1 != NULL && rootParent2 != NULL)
return false; //different buildings
}
//switching z<->y, adding player height (head)
Vector3 rayOrigin = object1->getWorldPosition();
float heightOrigin = 1.f;
float heightEnd = 1.f;
Reference<SortedVector<ManagedReference<QuadTreeEntry*> >*> closeObjects = new SortedVector<ManagedReference<QuadTreeEntry*> >();
// = object1->getCloseObjects();
int maxInRangeObjectCount = 0;
if (object1->getCloseObjects() == NULL) {
object1->info("Null closeobjects vector in CollisionManager::checkLineOfSight", true);
// closeObjectsCopy = new SortedVector<ManagedReference<QuadTreeEntry*> >();
zone->getInRangeObjects(object1->getPositionX(), object1->getPositionY(), 512, closeObjects, true);
} else {
CloseObjectsVector* vec = (CloseObjectsVector*) object1->getCloseObjects();
vec->safeCopyTo(*closeObjects);
}
if (object1->isCreatureObject())
heightOrigin = getRayOriginPoint(cast<CreatureObject*>(object1));
if (object2->isCreatureObject())
heightEnd = getRayOriginPoint(cast<CreatureObject*>(object2));
rayOrigin.set(rayOrigin.getX(), rayOrigin.getY(), rayOrigin.getZ() + heightOrigin);
Vector3 rayEnd = object2->getWorldPosition();
rayEnd.set(rayEnd.getX(), rayEnd.getY(), rayEnd.getZ() + heightEnd);
float dist = rayEnd.distanceTo(rayOrigin);
float intersectionDistance;
Triangle* triangle = NULL;
// zone->rlock();
try {
for (int i = 0; i < closeObjects->size(); ++i) {
AABBTree* aabbTree = NULL;
SceneObject* scno = cast<SceneObject*>(closeObjects->get(i).get());
try {
aabbTree = getAABBTree(scno, 255);
if (aabbTree == NULL)
continue;
} catch (Exception& e) {
aabbTree = NULL;
} catch (...) {
// zone->runlock();
throw;
}
if (aabbTree != NULL) {
//moving ray to model space
// zone->runlock();
try {
Ray ray = convertToModelSpace(rayOrigin, rayEnd, scno);
//structure->info("checking ray with building dir" + String::valueOf(structure->getDirectionAngle()), true);
if (aabbTree->intersects(ray, dist, intersectionDistance, triangle, true)) {
return false;
}
} catch (...) {
throw;
}
// zone->rlock();
}
}
} catch (Exception& e) {
Logger::console.error("unreported exception caught in bool CollisionManager::checkLineOfSight(SceneObject* object1, SceneObject* object2) ");
Logger::console.error(e.getMessage());
}
// zone->runlock();
ManagedReference<SceneObject*> parent1 = object1->getParent();
ManagedReference<SceneObject*> parent2 = object2->getParent();
if (parent1 != NULL || parent2 != NULL) {
CellObject* cell = NULL;
if (parent1 != NULL && parent1->isCellObject()) {
cell = cast<CellObject*>(parent1.get());
} else if (parent2 != NULL && parent2->isCellObject()) {
cell = cast<CellObject*>(parent2.get());
}
if (cell != NULL) {
return checkLineOfSightWorldToCell(rayOrigin, rayEnd, dist, cell);
}
}
return true;
}
float CollisionManager::getWorldFloorCollision(float x, float y, Zone* zone, bool testWater) {
SortedVector<ManagedReference<QuadTreeEntry*> > closeObjects;
zone->getInRangeObjects(x, y, 128, &closeObjects, true);
PlanetManager* planetManager = zone->getPlanetManager();
if (planetManager == NULL)
return 0.f;
float height = 0;
TerrainManager* terrainManager = planetManager->getTerrainManager();
//need to include exclude affectors in the terrain calcs
height = terrainManager->getHeight(x, y);
Vector3 rayStart(x, 16384.f, y);
Vector3 rayEnd(x, -16384.f, y);
Triangle* triangle = NULL;
if (testWater) {
float waterHeight;
if (terrainManager->getWaterHeight(x, y, waterHeight))
if (waterHeight > height)
height = waterHeight;
}
float intersectionDistance;
for (int i = 0; i < closeObjects.size(); ++i) {
BuildingObject* building = dynamic_cast<BuildingObject*>(closeObjects.get(i).get());
if (building == NULL)
continue;
//building->getObjectTemplate()->get
SharedObjectTemplate* templateObject = building->getObjectTemplate();
if (templateObject == NULL)
continue;
PortalLayout* portalLayout = templateObject->getPortalLayout();
if (portalLayout == NULL)
continue;
if (portalLayout->getFloorMeshNumber() == 0)
continue;
//find nearest entrance
FloorMesh* exteriorFloorMesh = portalLayout->getFloorMesh(0); // get outside layout
AABBTree* aabbTree = exteriorFloorMesh->getAABBTree();
if (aabbTree == NULL)
continue;
Ray ray = convertToModelSpace(rayStart, rayEnd, building);
if (aabbTree->intersects(ray, 16384 * 2, intersectionDistance, triangle, true)) {
float floorHeight = 16384 - intersectionDistance;
if (floorHeight > height)
height = floorHeight;
}
}
return height;
}
