/************************************************************************** * gui.cxx * * Written 1998 by Durk Talsma, started Juni, 1998. For the flight gear * project. * * Additional mouse supported added by David Megginson, 1999. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of the * License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * * $Id$ **************************************************************************/ #ifdef HAVE_CONFIG_H # include #endif #include #ifdef SG_MATH_EXCEPTION_CLASH # include #endif #ifdef HAVE_WINDOWS_H # include #endif #include #include #if defined(FX) && defined(XMESA) # include #endif #include STL_STRING #include #include #include #include #include #include #include //#include #include #include //#include #include #include #include #include #include
#include
#include
#include "gui.h" #include "gui_local.hxx" SG_USING_STD(string); #ifndef SG_HAVE_NATIVE_SGI_COMPILERS SG_USING_STD(cout); #endif /* -------------------------------------------------------------------- Mouse stuff ---------------------------------------------------------------------*/ static int _mX = 0; static int _mY = 0; static int _savedX = 0; static int _savedY = 0; static int last_buttons = 0 ; static int mouse_active = 0; static int mouse_joystick_control = 0; //static time_t mouse_off_time; //static int mouse_timed_out; // to allow returning to previous view // on second left click in MOUSE_VIEW mode // This has file scope so that it can be reset // if the little rodent is moved NHV static int _mVtoggle = 0; // we break up the glutGetModifiers return mask // once per loop and stash what we need in these static int glut_active_shift = 0; static int glut_active_ctrl = 0; static int glut_active_alt = 0; static int MOUSE_XSIZE = 0; static int MOUSE_YSIZE = 0; // uncomment following to #define RESET_VIEW_ON_LEAVING_MOUSE_VIEW /* -------------------------------------------------------------------- Support for mouse as control yoke (david@megginson.com) - right button toggles between pointer and yoke - horizontal drag with no buttons moves ailerons - vertical drag with no buttons moves elevators - horizontal drag with left button moves brakes (left=on) - vertical drag with left button moves throttle (up=more) - horizontal drag with middle button moves rudder - vertical drag with middle button moves trim For the *_sensitivity variables, a lower number means more sensitive. TODO: figure out how to keep pointer from leaving window in yoke mode. TODO: add thresholds and null zones TODO: sensitivity should be configurable at user option. TODO: allow differential braking (this will be useful if FlightGear ever supports tail-draggers like the DC-3) ---------------------------------------------------------------------*/ MouseMode mouse_mode = MOUSE_POINTER; static double aileron_sensitivity = 1.0/500.0; static double elevator_sensitivity = 1.0/500.0; static double brake_sensitivity = 1.0/250.0; static double throttle_sensitivity = 1.0/250.0; static double rudder_sensitivity = 1.0/500.0; static double trim_sensitivity = 1.0/1000.0; void guiInitMouse(int width, int height) { MOUSE_XSIZE = width; MOUSE_YSIZE = height; } static inline int guiGetMouseButton(void) { return last_buttons; } static inline void guiGetMouse(int *x, int *y) { *x = _mX; *y = _mY; }; static inline int left_button( void ) { return( last_buttons & (1 << GLUT_LEFT_BUTTON) ); } static inline int middle_button( void ) { return( last_buttons & (1 << GLUT_MIDDLE_BUTTON) ); } static inline int right_button( void ) { return( last_buttons & (1 << GLUT_RIGHT_BUTTON) ); } static inline void set_goal_view_offset( float offset ) { globals->get_current_view()->set_goal_view_offset(offset); } static inline void set_view_offset( float offset ) { globals->get_current_view()->set_view_offset(offset); } static inline float get_view_offset() { return globals->get_current_view()->get_view_offset(); } static inline float get_goal_view_offset() { return globals->get_current_view()->get_goal_view_offset(); } static inline void set_goal_view_tilt( float tilt ) { globals->get_current_view()->set_goal_view_tilt(tilt); } static inline void set_view_tilt( float tilt ) { globals->get_current_view()->set_view_tilt(tilt); } static inline float get_view_tilt() { return globals->get_current_view()->get_view_tilt(); } static inline void move_brake(float offset) { globals->get_controls()->move_brake(FGControls::ALL_WHEELS, offset); } static inline void move_throttle(float offset) { globals->get_controls()->move_throttle(FGControls::ALL_ENGINES, offset); } static inline void move_rudder(float offset) { globals->get_controls()->move_rudder(offset); } static inline void move_elevator_trim(float offset) { globals->get_controls()->move_elevator_trim(offset); } static inline void move_aileron(float offset) { globals->get_controls()->move_aileron(offset); } static inline void move_elevator(float offset) { globals->get_controls()->move_elevator(offset); } static inline float get_aileron() { return globals->get_controls()->get_aileron(); } static inline float get_elevator() { return globals->get_controls()->get_elevator(); } static inline bool AP_HeadingEnabled() { return current_autopilot->get_HeadingEnabled(); } static inline bool AP_AltitudeEnabled() { return current_autopilot->get_AltitudeEnabled(); } void TurnCursorOn( void ) { mouse_active = ~0; #if defined(WIN32) switch (mouse_mode) { case MOUSE_POINTER: glutSetCursor(GLUT_CURSOR_INHERIT); break; case MOUSE_YOKE: glutSetCursor(GLUT_CURSOR_CROSSHAIR); break; case MOUSE_VIEW: glutSetCursor(GLUT_CURSOR_LEFT_RIGHT); break; } #endif #if defined(X_CURSOR_TWEAKS) glutWarpPointer( MOUSE_XSIZE/2, MOUSE_YSIZE/2); #endif } void TurnCursorOff( void ) { mouse_active = 0; #if defined(WIN32_CURSOR_TWEAKS) glutSetCursor(GLUT_CURSOR_NONE); #elif defined(X_CURSOR_TWEAKS) glutWarpPointer( MOUSE_XSIZE, MOUSE_YSIZE); #endif } void maybeToggleMouse( void ) { #if defined(WIN32_CURSOR_TWEAKS_OFF) static int first_time = ~0; static int mouse_changed = 0; if ( first_time ) { if(!mouse_active) { mouse_changed = ~mouse_changed; TurnCursorOn(); } } else { if( mouse_mode != MOUSE_POINTER ) return; if( mouse_changed ) { mouse_changed = ~mouse_changed; if(mouse_active) { TurnCursorOff(); } } } first_time = ~first_time; #endif // #ifdef WIN32 } // Call with FALSE to init and TRUE to restore void BusyCursor( int restore ) { static GLenum cursor = (GLenum) 0; if( restore ) { glutSetCursor(cursor); } else { cursor = (GLenum) glutGet( (GLenum) GLUT_WINDOW_CURSOR ); #if defined(WIN32_CURSOR_TWEAKS) TurnCursorOn(); #endif glutSetCursor( GLUT_CURSOR_WAIT ); } } // Center the view offsets void CenterView( void ) { if( mouse_mode == MOUSE_VIEW ) { mouse_mode = MOUSE_POINTER; _savedX = MOUSE_XSIZE/2; _savedY = MOUSE_YSIZE/2; _mVtoggle = 0; Quat0(); build_rotmatrix(GuiQuat_mat, curGuiQuat); glutSetCursor(GLUT_CURSOR_INHERIT); // Is this necessary ?? if( !gui_menu_on ) TurnCursorOff(); glutWarpPointer( _savedX, _savedY ); } set_goal_view_offset(0.0); set_view_offset(0.0); } //#define TRANSLATE_HUD // temporary hack until pitch_offset is added to view pipeline void fgTranslateHud( void ) { #ifdef TRANSLATE_HUD if(mouse_mode == MOUSE_VIEW) { int ww = MOUSE_XSIZE; int wh = MOUSE_YSIZE; float y = 4*(_mY-(wh/2));// * ((wh/SGD_PI)*SG_RADIANS_TO_DEGREES); float x = get_view_offset() * SG_RADIANS_TO_DEGREES; if( x < -180 ) x += 360; else if( x > 180 ) x -= 360; x *= ww/90.0; // x *= ww/180.0; // x *= ww/360.0; // glTranslatef( x*ww/640, y*wh/480, 0 ); glTranslatef( x*640/ww, y*480/wh, 0 ); } #endif // TRANSLATE_HUD } void guiMotionFunc ( int x, int y ) { int ww, wh, need_warp = 0; float W, H; double offset; ww = MOUSE_XSIZE; wh = MOUSE_YSIZE; if (mouse_mode == MOUSE_POINTER) { // TURN MENU ON IF MOUSE AT TOP if( y < 1 ) { if( !gui_menu_on ) guiToggleMenu(); } // TURN MENU OFF IF MOUSE AT BOTTOM else if( y > wh-2 ) { if( gui_menu_on ) guiToggleMenu(); } puMouse ( x, y ) ; glutPostRedisplay () ; } else { if( x == _mX && y == _mY) return; // reset left click MOUSE_VIEW toggle feature _mVtoggle = 0; switch (mouse_mode) { case MOUSE_YOKE: if( !mouse_joystick_control ) { mouse_joystick_control = 1; fgSetString("/sim/control-mode", "mouse"); } else { if ( left_button() ) { move_brake( (_mX - x) * brake_sensitivity); move_throttle((_mY - y) * throttle_sensitivity); } else if ( right_button() ) { if( ! AP_HeadingEnabled() ) { move_rudder((x - _mX) * rudder_sensitivity); } if( ! AP_AltitudeEnabled() ) { move_elevator_trim((_mY - y) * trim_sensitivity); } } else { if( ! AP_HeadingEnabled() ) { move_aileron((x - _mX) * aileron_sensitivity); } if( ! AP_AltitudeEnabled() ) { move_elevator((_mY - y) * elevator_sensitivity); } } } // Keep the mouse in the window. if (x < 5 || x > ww-5 || y < 5 || y > wh-5) { x = ww / 2; y = wh / 2; need_warp = 1; } break; case MOUSE_VIEW: if( y <= 0 ) { y = 1; need_warp = 1; } else if( y >= wh-1) { y = wh-2; need_warp = 1; } // wrap MOUSE_VIEW mode cursor x position if ( x <= 0 ) { need_warp = 1; x = ww-2; } else if ( x >= ww-1 ) { need_warp = 1; x = 1; } { float scale = SGD_PI / MOUSE_XSIZE; float dx = (_mX - x) * scale; float dy = (_mY - y) * scale; float newOffset = get_view_offset() + dx; set_goal_view_offset(newOffset); set_view_offset(newOffset); float newTilt = get_view_tilt() + dy; set_goal_view_tilt(newTilt); set_view_tilt(newTilt); } break; } } if( need_warp) glutWarpPointer(x, y); // Record the new mouse position. _mX = x; _mY = y; } void guiMouseFunc(int button, int updown, int x, int y) { int glutModifiers; // private MOUSE_VIEW state variables // to allow alternate left clicks in MOUSE_VIEW mode // to toggle between current offsets and straight ahead // uses _mVtoggle static int _mVx, _mVy, _Vx, _Vy; static float _quat[4]; static double _view_offset; // general purpose variables double offset; glutModifiers = glutGetModifiers(); glut_active_shift = glutModifiers & GLUT_ACTIVE_SHIFT; glut_active_ctrl = glutModifiers & GLUT_ACTIVE_CTRL; glut_active_alt = glutModifiers & GLUT_ACTIVE_ALT; // Was the left button pressed? if (updown == GLUT_DOWN ) { if( button == GLUT_LEFT_BUTTON) { switch (mouse_mode) { case MOUSE_POINTER: break; case MOUSE_YOKE: break; case MOUSE_VIEW: if(_mVtoggle) { // resume previous view offsets _mX = _mVx; _mY = _mVy; x = _Vx; y = _Vy; sgCopyVec4(curGuiQuat, _quat); set_goal_view_offset(_view_offset); #ifdef NO_SMOOTH_MOUSE_VIEW set_view_offset(_view_offset); #endif } else { // center view _mVx = _mX; _mVy = _mY; _Vx = x; _Vy = y; sgCopyVec4(_quat,curGuiQuat); x = MOUSE_XSIZE/2; y = MOUSE_YSIZE/2; Quat0(); _view_offset = get_goal_view_offset(); set_goal_view_offset(0.0); #ifdef NO_SMOOTH_MOUSE_VIEW set_view_offset(0.0); #endif } glutWarpPointer( x , y); build_rotmatrix(GuiQuat_mat, curGuiQuat); _mVtoggle = ~_mVtoggle; break; } } else if ( button == GLUT_RIGHT_BUTTON) { switch (mouse_mode) { case MOUSE_POINTER: SG_LOG( SG_INPUT, SG_INFO, "Mouse in yoke mode" ); mouse_mode = MOUSE_YOKE; mouse_joystick_control = 0; _savedX = x; _savedY = y; // start with zero point in center of screen _mX = MOUSE_XSIZE/2; _mY = MOUSE_YSIZE/2; // try to have the MOUSE_YOKE position // reflect the current stick position x = _mX - (int)(get_aileron() * aileron_sensitivity); y = _mY - (int)(get_elevator() * elevator_sensitivity); glutSetCursor(GLUT_CURSOR_CROSSHAIR); break; case MOUSE_YOKE: SG_LOG( SG_INPUT, SG_INFO, "Mouse in view mode" ); mouse_mode = MOUSE_VIEW; fgSetString("/sim/control-mode", "joystick"); // recenter cursor and reset x = MOUSE_XSIZE/2; y = MOUSE_YSIZE/2; _mVtoggle = 0; // #ifndef RESET_VIEW_ON_LEAVING_MOUSE_VIEW Quat0(); build_rotmatrix(GuiQuat_mat, curGuiQuat); // #endif glutSetCursor(GLUT_CURSOR_LEFT_RIGHT); break; case MOUSE_VIEW: SG_LOG( SG_INPUT, SG_INFO, "Mouse in pointer mode" ); mouse_mode = MOUSE_POINTER; x = _savedX; y = _savedY; #ifdef RESET_VIEW_ON_LEAVING_MOUSE_VIEW Quat0(); build_rotmatrix(GuiQuat_mat, curGuiQuat); set_goal_view_offset(0.0); #ifdef NO_SMOOTH_MOUSE_VIEW set_view_offset(0.0); #endif // NO_SMOOTH_MOUSE_VIEW #endif // RESET_VIEW_ON_LEAVING_MOUSE_VIEW glutSetCursor(GLUT_CURSOR_INHERIT); #if defined(WIN32_CURSOR_TWEAKS_OFF) if(!gui_menu_on) TurnCursorOff(); #endif // WIN32_CURSOR_TWEAKS_OFF break; } // end switch (mouse_mode) glutWarpPointer( x, y ); } // END RIGHT BUTTON } // END UPDOWN == GLUT_DOWN // Note which button is pressed. if ( updown == GLUT_DOWN ) { last_buttons |= ( 1 << button ) ; } else { last_buttons &= ~( 1 << button ) ; } // If we're in pointer mode, let PUI // know what's going on. if (mouse_mode == MOUSE_POINTER) { if (!puMouse (button, updown, x,y)) { if ( current_panel != NULL ) { current_panel->doMouseAction(button, updown, x, y); } } } // Register the new position (if it // hasn't been registered already). _mX = x; _mY = y; glutPostRedisplay (); }