#include "Camera.h" #include "Pub_Sub.h" Camera::Camera() { } Camera::Camera(sf::Vector3f position, sf::Vector2f direction, sf::RenderWindow* window) : position(position), direction(direction), window(window) { fixed = sf::Vector2i(sf::Vector2i(window->getSize().x/2, window->getSize().y/2)); } Camera::~Camera() { } int Camera::set_position(sf::Vector3f position) { this->position = position; return 1; } int Camera::add_static_impulse(sf::Vector3f impulse) { movement += impulse; return 1; } int Camera::add_relative_impulse(DIRECTION impulse_direction, float speed) { // No sense in doing fancy dot products, adding Pi's will suffice // Always add PI/2 to X initially to avoid negative case sf::Vector2f dir; switch (impulse_direction) { case DIRECTION::FORWARD: dir = sf::Vector2f(direction.y, direction.x); break; case DIRECTION::REARWARD: dir = sf::Vector2f(direction.y, direction.x + PI_F); break; case DIRECTION::LEFT: dir = sf::Vector2f(direction.y + PI_F + PI_F / 2, PI_F / 2); break; case DIRECTION::RIGHT: dir = sf::Vector2f(direction.y + PI_F / 2, PI_F / 2); break; case DIRECTION::UP: dir = sf::Vector2f(direction.y, direction.x + PI_F / 2); break; case DIRECTION::DOWN: dir = sf::Vector2f(direction.y + PI_F, (direction.x * -1) + PI_F / 2 ); break; } movement += SphereToCart(dir) * speed; return 1; } int Camera::slew_camera(sf::Vector2f input) { direction -= input; return 1; } void Camera::set_camera(sf::Vector2f input) { direction = input; } void Camera::set_camera(sf::Vector3f input) { direction = CartToNormalizedSphere(input); } int Camera::update(double delta_time) { double multiplier = 80; position.x += static_cast(movement.x * delta_time * multiplier); position.y += static_cast(movement.y * delta_time * multiplier); position.z += static_cast(movement.z * delta_time * multiplier); movement *= static_cast(friction_coefficient * delta_time * multiplier); return 1; } void Camera::recieve_event(VrEventPublisher* publisher, std::unique_ptr event) { if (event->type == vr::Event::KeyHeld) { auto held_event = static_cast(event.get()); if (held_event->code == sf::Keyboard::LShift) { default_impulse = 0.01f; } else if (held_event->code == sf::Keyboard::RShift) { default_impulse = 1.0f; } else if (held_event->code == sf::Keyboard::C) { look_at_center(); } else if (held_event->code == sf::Keyboard::Q) { add_relative_impulse(Camera::DIRECTION::DOWN, default_impulse); } else if (held_event->code == sf::Keyboard::E) { add_relative_impulse(Camera::DIRECTION::UP, default_impulse); } else if (held_event->code == sf::Keyboard::W) { add_relative_impulse(Camera::DIRECTION::FORWARD, default_impulse); } else if (held_event->code == sf::Keyboard::S) { add_relative_impulse(Camera::DIRECTION::REARWARD, default_impulse); } else if (held_event->code == sf::Keyboard::A) { add_relative_impulse(Camera::DIRECTION::LEFT, default_impulse); } else if (held_event->code == sf::Keyboard::D) { add_relative_impulse(Camera::DIRECTION::RIGHT, default_impulse); } else if (held_event->code == sf::Keyboard::T) { set_position(sf::Vector3f(50, 50, 50)); } } else if (event->type == vr::Event::KeyPressed) { vr::KeyPressed *key_event = static_cast(event.get()); if (key_event->code == sf::Keyboard::M) { if (mouse_enabled) mouse_enabled = false; else mouse_enabled = true; } } else if (event->type == vr::Event::MouseMoved) { if (mouse_enabled) { vr::MouseMoved *mouse_event = static_cast(event.get()); //deltas = fixed - sf::Mouse::getPosition(); deltas = fixed - sf::Vector2i(mouse_event->x, mouse_event->y); if (deltas != sf::Vector2i(0, 0) && mouse_enabled == true) { sf::Mouse::setPosition(fixed, *window); slew_camera(sf::Vector2f( deltas.y / 1200.0f, deltas.x / 1200.0f )); } } } else if (event->type == vr::Event::MouseButtonPressed) { vr::MouseButtonPressed *mouse_event = static_cast(event.get()); if (mouse_event->button == sf::Mouse::Middle) { mouse_enabled = !mouse_enabled; sf::Mouse::setPosition(fixed, *window); } } else if (event->type == vr::Event::JoystickMoved) { vr::JoystickMoved *joystick_event = static_cast(event.get()); if (joystick_event->axis == sf::Joystick::Axis::X) { movement.x -= joystick_event->position / 5; //add_relative_impulse(Camera::DIRECTION::FORWARD, joystick_event->position); } else if (joystick_event->axis == sf::Joystick::Axis::Y) { movement.y += joystick_event->position / 5; //add_relative_impulse(Camera::DIRECTION::RIGHT, joystick_event->position); } //else if (joystick_event->axis == sf::Joystick::Axis::Z) { // add_relative_impulse(Camera::DIRECTION::DOWN, joystick_event->position); //} } } void Camera::look_at_center() { direction = CartToNormalizedSphere(sf::Vector3f(75, 75, 75) - position); } sf::Vector2f* Camera::get_direction_pointer() { return &direction; } sf::Vector3f* Camera::get_movement_pointer() { return &movement; } sf::Vector3f* Camera::get_position_pointer() { return &position; } sf::Vector3f Camera::get_movement() { return movement; } sf::Vector3f Camera::get_position() { return position; } sf::Vector2f Camera::get_direction() { return direction; } void Camera::setSpeed(float speed) { default_impulse = speed;; } float Camera::getSpeed() { return default_impulse; }