#ifndef _DEVICEINTERFACE_H_ #define _DEVICEINTERFACE_H_ #include #include #include #include #include #include "Common.h" #include "Thread.h" #include "ExpressionParser.h" #include "Device.h" // enable disable sources #ifdef _WIN32 #define CIFACE_USE_XINPUT #define CIFACE_USE_DINPUT #define CIFACE_USE_SDL #endif #if defined(HAVE_X11) && HAVE_X11 #define CIFACE_USE_XLIB #define CIFACE_USE_SDL #if defined(HAVE_X11_XINPUT2) && HAVE_X11_XINPUT2 #define CIFACE_USE_X11_XINPUT2 #endif #endif #if defined(__APPLE__) #define CIFACE_USE_OSX #endif #ifdef ANDROID #define CIFACE_USE_ANDROID #endif using namespace ciface::Core; // // ControllerInterface // // some crazy shit I made to control different device inputs and outputs // from lots of different sources, hopefully more easily // class ControllerInterface : public DeviceContainer { public: // // ControlReference // // these are what you create to actually use the inputs, InputReference or OutputReference // // after being bound to devices and controls with ControllerInterface::UpdateReference, // each one can link to multiple devices and controls // when you change a ControlReference's expression, // you must use ControllerInterface::UpdateReference on it to rebind controls // class ControlReference { friend class ControllerInterface; public: virtual ControlState State(const ControlState state = 0) = 0; virtual Device::Control* Detect(const unsigned int ms, Device* const device) = 0; ControlState range; std::string expression; const bool is_input; ciface::ExpressionParser::ExpressionParseStatus parse_error; virtual ~ControlReference() { delete parsed_expression; } int BoundCount() { if (parsed_expression) return parsed_expression->num_controls; else return 0; } protected: ControlReference(const bool _is_input) : range(1), is_input(_is_input), parsed_expression(NULL) {} ciface::ExpressionParser::Expression *parsed_expression; }; // // InputReference // // control reference for inputs // class InputReference : public ControlReference { public: InputReference() : ControlReference(true) {} ControlState State(const ControlState state); Device::Control* Detect(const unsigned int ms, Device* const device); }; // // OutputReference // // control reference for outputs // class OutputReference : public ControlReference { public: OutputReference() : ControlReference(false) {} ControlState State(const ControlState state); Device::Control* Detect(const unsigned int ms, Device* const device); }; ControllerInterface() : m_is_init(false), m_hwnd(NULL) {} void SetHwnd(void* const hwnd); void Initialize(); void Shutdown(); bool IsInit() const { return m_is_init; } void UpdateReference(ControlReference* control, const DeviceQualifier& default_device) const; bool UpdateInput(const bool force = false); bool UpdateOutput(const bool force = false); std::recursive_mutex update_lock; private: bool m_is_init; void* m_hwnd; }; extern ControllerInterface g_controller_interface; #endif