// // Created by Иван Ильин on 13.01.2021. // #include #include #include "World.h" #include "utils/Log.h" #include "Plane.h" #include "ResourceManager.h" using namespace std; std::shared_ptr World::addBody(std::shared_ptr body) { _objects.emplace(body->name(), body); Log::log("World::addBody(): inserted body '" + body->name().str() + "' with " + std::to_string(_objects[body->name()]->triangles().size()) + " tris."); return _objects[body->name()]; } std::shared_ptr World::loadBody(const ObjectNameTag &tag, const string &filename, const Vec3D &scale) { _objects.emplace(tag, std::make_shared(tag, filename, scale)); Log::log("World::loadBody(): inserted body from " + filename + " with title '" + tag.str() + "' with " + std::to_string(_objects[tag]->triangles().size()) + " tris."); return _objects[tag]; } IntersectionInformation World::rayCast(const Vec3D &from, const Vec3D &to, const std::string &skipTags) { // make vector of tags, that we are going to escape vector tagsToSkip; stringstream s(skipTags); std::string t; while (s >> t) { tagsToSkip.push_back(t); } bool intersected = false; Vec3D point{}; Triangle triangle; std::string bodyName; double minDistance = Consts::RAY_CAST_MAX_DISTANCE; std::shared_ptr intersectedBody = nullptr; for (auto&[name, body] : _objects) { bool escapeThisBody = false; for (auto &escapeTag : tagsToSkip) { if (name.contains(ObjectNameTag(escapeTag))) { escapeThisBody = true; break; } } if (escapeThisBody) { continue; } for (auto &tri : body->triangles()) { Matrix4x4 model = body->model(); Triangle tri_translated(model * tri[0], model * tri[1], model * tri[2], tri.color()); Plane plane(tri_translated); auto intersection = plane.intersection(from, to); double distance = (intersection.first - from).sqrAbs(); if (intersection.second > 0 && distance < minDistance && tri_translated.isPointInside(intersection.first)) { minDistance = distance; point = intersection.first; triangle = tri_translated; bodyName = name.str(); intersected = true; intersectedBody = body; } } } return IntersectionInformation{point, sqrt(minDistance), triangle, ObjectNameTag(bodyName), intersectedBody, intersected}; } void World::loadMap(const std::string &filename, const Vec3D &scale) { auto objs = ResourceManager::loadObjects(filename); for (auto &i : objs) { std::shared_ptr obj = std::make_shared(*i, false); addBody(obj); obj->scale(scale); } } void World::removeBody(const ObjectNameTag &tag) { if (_objects.erase(tag) > 0) { Log::log("World::removeBody(): removed body '" + tag.str() + "'"); } else { Log::log("World::removeBody(): cannot remove body '" + tag.str() + "': body does not exist."); } } void World::checkCollision(const ObjectNameTag &tag) { if (_objects[tag]->hasCollision()) { _objects[tag]->setInCollision(false); for (auto it = _objects.begin(); it != _objects.end();) { auto obj = it->second; ObjectNameTag name = it->first; it++; if ((name == tag) || !(obj->isCollider() || obj->isTrigger())) { continue; } std::pair gjk = _objects[tag]->checkGJKCollision(obj); if (gjk.first) { if (obj->isCollider()) { CollisionPoint epa = _objects[tag]->EPA(gjk.second, obj); _objects[tag]->solveCollision(epa); } if (_objects[tag]->collisionCallBack() != nullptr) { _objects[tag]->collisionCallBack()(name, obj); } } } } } void World::update() { for (auto &[nameTag, obj] : _objects) { obj->updatePhysicsState(); checkCollision(nameTag); } } std::shared_ptr World::body(const ObjectNameTag &tag) { if (_objects.count(tag) == 0) { return nullptr; } return _objects.find(tag)->second; }