#ifndef slic3r_Mouse3DController_hpp_ #define slic3r_Mouse3DController_hpp_ // Enabled debug output to console and extended imgui dialog #define ENABLE_3DCONNEXION_DEVICES_DEBUG_OUTPUT 0 #include "libslic3r/Point.hpp" #include "hidapi.h" #include #include #include #include #include #include namespace Slic3r { class AppConfig; namespace GUI { struct Camera; class GLCanvas3D; class Mouse3DController { // Parameters, which are configured by the ImGUI dialog when pressing Ctrl+M. // The UI thread modifies a copy of the parameters and indicates to the background thread that there was a change // to copy the parameters. struct Params { static constexpr double DefaultTranslationScale = 2.5; static constexpr double MaxTranslationDeadzone = 0.2; static constexpr double DefaultTranslationDeadzone = 0.5 * MaxTranslationDeadzone; static constexpr float DefaultRotationScale = 1.0f; static constexpr float MaxRotationDeadzone = 0.2f; static constexpr float DefaultRotationDeadzone = 0.5f * MaxRotationDeadzone; static constexpr double DefaultZoomScale = 0.1; template struct CustomParameters { Number scale; Number deadzone; }; CustomParameters translation { DefaultTranslationScale, DefaultTranslationDeadzone }; CustomParameters rotation { DefaultRotationScale, DefaultRotationDeadzone }; CustomParameters zoom { DefaultZoomScale, 0.0 }; // Do not process button presses from 3DConnexion device, let the user map the 3DConnexion keys in 3DConnexion driver. bool buttons_enabled { false }; // The default value of 15 for max_size seems to work fine on all platforms // The effects of changing this value can be tested by setting ENABLE_3DCONNEXION_DEVICES_DEBUG_OUTPUT to 1 // and playing with the imgui dialog which shows by pressing CTRL+M size_t input_queue_max_size { 15 }; // Whether to swap Y/Z axes or not. bool swap_yz{ false }; }; // Queue of the 3DConnexion input events (translations, rotations, button presses). class State { public: struct QueueItem { static QueueItem translation(const Vec3d &translation) { QueueItem out; out.vector = translation; out.type_or_buttons = TranslationType; return out; } static QueueItem rotation(const Vec3d &rotation) { QueueItem out; out.vector = rotation; out.type_or_buttons = RotationType; return out; } static QueueItem buttons(unsigned int buttons) { QueueItem out; out.type_or_buttons = buttons; return out; } bool is_translation() const { return this->type_or_buttons == TranslationType; } bool is_rotation() const { return this->type_or_buttons == RotationType; } bool is_buttons() const { return ! this->is_translation() && ! this->is_rotation(); } Vec3d vector; unsigned int type_or_buttons; static constexpr unsigned int TranslationType = std::numeric_limits::max(); static constexpr unsigned int RotationType = TranslationType - 1; }; private: // m_input_queue is accessed by the background thread and by the UI thread. Access to m_input_queue // is guarded with m_input_queue_mutex. std::deque m_input_queue; mutable tbb::mutex m_input_queue_mutex; #ifdef WIN32 // When the 3Dconnexion driver is running the system gets, by default, mouse wheel events when rotations around the X axis are detected. // We want to filter these out because we are getting the data directly from the device, bypassing the driver, and those mouse wheel events interfere // by triggering unwanted zoom in/out of the scene // The following variable is used to count the potential mouse wheel events triggered and is updated by: // Mouse3DController::collect_input() through the call to the append_rotation() method // GLCanvas3D::on_mouse_wheel() through the call to the process_mouse_wheel() method // GLCanvas3D::on_idle() through the call to the apply() method unsigned int m_mouse_wheel_counter { 0 }; #endif /* WIN32 */ public: // Called by the background thread or by by Mouse3DHandlerMac.mm when a new event is received from 3DConnexion device. void append_translation(const Vec3d& translation, size_t input_queue_max_size); void append_rotation(const Vec3f& rotation, size_t input_queue_max_size); void append_button(unsigned int id, size_t input_queue_max_size); #ifdef WIN32 // Called by GLCanvas3D::on_mouse_wheel(wxMouseEvent& evt) // to filter out spurious mouse scroll events produced by the 3DConnexion driver on Windows. bool process_mouse_wheel(); #endif /* WIN32 */ #if ENABLE_3DCONNEXION_DEVICES_DEBUG_OUTPUT Vec3d get_first_vector_of_type(unsigned int type) const { tbb::mutex::scoped_lock lock(m_input_queue_mutex); auto it = std::find_if(m_input_queue.begin(), m_input_queue.end(), [type](const QueueItem& item) { return item.type_or_buttons == type; }); return (it == m_input_queue.end()) ? Vec3d::Zero() : it->vector; } size_t input_queue_size_current() const { tbb::mutex::scoped_lock lock(m_input_queue_mutex); return m_input_queue.size(); } std::atomic input_queue_max_size_achieved; #endif // ENABLE_3DCONNEXION_DEVICES_DEBUG_OUTPUT // Apply the 3DConnexion events stored in the input queue, reset the input queue. // Returns true if any change to the camera took place. bool apply(const Params ¶ms, Camera& camera); }; // Background thread works with this copy. Params m_params; // UI thread will read / write this copy. Params m_params_ui; bool m_params_ui_changed { false }; mutable tbb::mutex m_params_ui_mutex; // This is a database of parametes of all 3DConnexion devices ever connected. // This database is loaded from AppConfig on application start and it is stored to AppConfig on application exit. // We need to do that as the AppConfig is not thread safe and we need read the parameters on device connect / disconnect, // which is now done by a background thread. std::map m_params_by_device; mutable State m_state; std::atomic m_connected { false }; std::string m_device_str; #if ! __APPLE__ // Worker thread for enumerating devices, connecting, reading data from the device and closing the device. std::thread m_thread; hid_device* m_device { nullptr }; // Using m_stop_condition_mutex to synchronize m_stop. bool m_stop { false }; #ifdef _WIN32 std::atomic m_wakeup { false }; #endif /* _WIN32 */ // Mutex and condition variable for sleeping during the detection of 3DConnexion devices by polling while allowing // cancellation before the end of the polling interval. std::mutex m_stop_condition_mutex; std::condition_variable m_stop_condition; #endif // Is the ImGUI dialog shown? Accessed from UI thread only. mutable bool m_show_settings_dialog { false }; // Set to true when ther user closes the dialog by clicking on [X] or [Close] buttons. Accessed from UI thread only. mutable bool m_settings_dialog_closed_by_user { false }; public: // Load the device parameter database from appconfig. To be called on application startup. void load_config(const AppConfig &appconfig); // Store the device parameter database back to appconfig. To be called on application closeup. void save_config(AppConfig &appconfig) const; // Start the background thread to detect and connect to a HID device (Windows and Linux). // Connect to a 3DConnextion driver (OSX). // Call load_config() before init(). void init(); // Stop the background thread (Windows and Linux). // Disconnect from a 3DConnextion driver (OSX). // Call save_config() after shutdown(). void shutdown(); bool connected() const { return m_connected; } #if __APPLE__ // Interfacing with the Objective C code (MouseHandlerMac.mm) void connected(std::string device_name); void disconnected(); typedef std::array DataPacketAxis; // Unpack a 3DConnexion packet provided by the 3DConnexion driver into m_state. Called by Mouse3DHandlerMac.mm bool handle_input(const DataPacketAxis& packet); #endif // __APPLE__ #ifdef WIN32 bool handle_raw_input_win32(const unsigned char *data, const int packet_lenght); // Called by Win32 HID enumeration callback. void device_attached(const std::string &device); // On Windows, the 3DConnexion driver sends out mouse wheel rotation events to an active application // if the application does not register at the driver. This is a workaround to ignore these superfluous // mouse wheel events. bool process_mouse_wheel() { return m_state.process_mouse_wheel(); } #endif // WIN32 // Apply the received 3DConnexion mouse events to the camera. Called from the UI rendering thread. bool apply(Camera& camera); bool is_settings_dialog_shown() const { return m_show_settings_dialog; } void show_settings_dialog(bool show) { m_show_settings_dialog = show && this->connected(); } void render_settings_dialog(GLCanvas3D& canvas) const; #if ! __APPLE__ private: bool connect_device(); void disconnect_device(); // secondary thread methods void run(); void collect_input(); typedef std::array DataPacketRaw; // Unpack raw 3DConnexion HID packet of a wired 3D mouse into m_state. Called by the worker thread. static bool handle_input(const DataPacketRaw& packet, const int packet_length, const Params ¶ms, State &state_in_out); // The following is called by handle_input() from the worker thread. static bool handle_packet(const DataPacketRaw& packet, const int packet_length, const Params ¶ms, State &state_in_out); static bool handle_packet_translation(const DataPacketRaw& packet, const Params ¶ms, State &state_in_out); static bool handle_packet_rotation(const DataPacketRaw& packet, unsigned int first_byte, const Params ¶ms, State &state_in_out); static bool handle_packet_button(const DataPacketRaw& packet, unsigned int packet_size, const Params ¶ms, State &state_in_out); #endif /* __APPLE__ */ }; } // namespace GUI } // namespace Slic3r #endif // slic3r_Mouse3DController_hpp_