/////////////////////////////////////////////////////////////////////////// // Name: src/unix/displayx11.cpp // Purpose: Unix/X11 implementation of wxDisplay class // Author: Brian Victor, Vadim Zeitlin // Modified by: // Created: 12/05/02 // Copyright: (c) wxWidgets team // Licence: wxWindows licence ///////////////////////////////////////////////////////////////////////////// // ============================================================================ // declarations // ============================================================================ // ---------------------------------------------------------------------------- // headers // ---------------------------------------------------------------------------- // For compilers that support precompilation, includes "wx.h". #include "wx/wxprec.h" #ifdef __BORLANDC__ #pragma hdrstop #endif #if wxUSE_DISPLAY #include "wx/display.h" #ifndef WX_PRECOMP #include "wx/dynarray.h" #include "wx/gdicmn.h" #include "wx/string.h" #include "wx/utils.h" #include "wx/intl.h" #include "wx/log.h" #endif /* WX_PRECOMP */ #include "wx/display_impl.h" #ifdef __WXGTK20__ #include #include // define the struct with the same fields as XineramaScreenInfo (except for // screen number which we don't need) but which we can use without // including Xinerama headers struct ScreenInfo { short x_org; short y_org; short width; short height; }; #else // use raw Xinerama functions /* These must be included after the wx files. Otherwise the Data macro in * Xlibint.h conflicts with a function declaration in wx/list.h. */ extern "C" { #include #include #include } typedef XineramaScreenInfo ScreenInfo; #endif // GTK+/Xinerama // ---------------------------------------------------------------------------- // helper class storing information about all screens // ---------------------------------------------------------------------------- // the base class provides access to ScreenInfo array, derived class // initializes it using either GTK+ or Xinerama functions class ScreensInfoBase { public: operator const ScreenInfo *() const { return m_screens; } unsigned GetCount() const { return static_cast(m_num); } protected: ScreenInfo *m_screens; int m_num; }; #ifdef __WXGTK20__ class ScreensInfo : public ScreensInfoBase { public: ScreensInfo() { GdkScreen * const screen = gdk_screen_get_default(); m_num = gdk_screen_get_n_monitors(screen); m_screens = new ScreenInfo[m_num]; for ( int i = 0; i < m_num; i++ ) { GdkRectangle rect; gdk_screen_get_monitor_geometry(screen, i, &rect); m_screens[i].x_org = rect.x; m_screens[i].y_org = rect.y; m_screens[i].width = rect.width; m_screens[i].height = rect.height; } } ~ScreensInfo() { delete [] m_screens; } }; #else // Xinerama class ScreensInfo : public ScreensInfoBase { public: ScreensInfo() { m_screens = XineramaQueryScreens((Display *)wxGetDisplay(), &m_num); } ~ScreensInfo() { XFree(m_screens); } }; #endif // GTK+/Xinerama // ---------------------------------------------------------------------------- // display and display factory classes // ---------------------------------------------------------------------------- class WXDLLEXPORT wxDisplayImplX11 : public wxDisplayImpl { public: wxDisplayImplX11(unsigned n, const ScreenInfo& info) : wxDisplayImpl(n), m_rect(info.x_org, info.y_org, info.width, info.height) { } virtual wxRect GetGeometry() const { return m_rect; } virtual wxRect GetClientArea() const { // we intentionally don't cache the result here because the client // display area may change (e.g. the user resized or hid a panel) and // we don't currently react to its changes return IsPrimary() ? wxGetClientDisplayRect() : m_rect; } virtual wxString GetName() const { return wxString(); } virtual wxArrayVideoModes GetModes(const wxVideoMode& mode) const; virtual wxVideoMode GetCurrentMode() const; virtual bool ChangeMode(const wxVideoMode& mode); private: wxRect m_rect; int m_depth; wxDECLARE_NO_COPY_CLASS(wxDisplayImplX11); }; class wxDisplayFactoryX11 : public wxDisplayFactory { public: wxDisplayFactoryX11() { } virtual wxDisplayImpl *CreateDisplay(unsigned n); virtual unsigned GetCount(); virtual int GetFromPoint(const wxPoint& pt); protected: wxDECLARE_NO_COPY_CLASS(wxDisplayFactoryX11); }; // ============================================================================ // wxDisplayFactoryX11 implementation // ============================================================================ unsigned wxDisplayFactoryX11::GetCount() { return ScreensInfo().GetCount(); } int wxDisplayFactoryX11::GetFromPoint(const wxPoint& p) { ScreensInfo screens; const unsigned numscreens(screens.GetCount()); for ( unsigned i = 0; i < numscreens; ++i ) { const ScreenInfo& s = screens[i]; if ( p.x >= s.x_org && p.x < s.x_org + s.width && p.y >= s.y_org && p.y < s.y_org + s.height ) { return i; } } return wxNOT_FOUND; } wxDisplayImpl *wxDisplayFactoryX11::CreateDisplay(unsigned n) { ScreensInfo screens; return n < screens.GetCount() ? new wxDisplayImplX11(n, screens[n]) : NULL; } // ============================================================================ // wxDisplayImplX11 implementation // ============================================================================ #ifdef HAVE_X11_EXTENSIONS_XF86VMODE_H #include // // See (http://www.xfree86.org/4.2.0/XF86VidModeDeleteModeLine.3.html) for more // info about xf86 video mode extensions // //free private data common to x (usually s3) servers #define wxClearXVM(vm) if(vm.privsize) XFree(vm.c_private) // Correct res rate from GLFW #define wxCRR2(v,dc) (int) (((1000.0f * (float) dc) /*PIXELS PER SECOND */) / ((float) v.htotal * v.vtotal /*PIXELS PER FRAME*/) + 0.5f) #define wxCRR(v) wxCRR2(v,v.dotclock) #define wxCVM2(v, dc) wxVideoMode(v.hdisplay, v.vdisplay, DefaultDepth((Display*)wxGetDisplay(), DefaultScreen((Display*)wxGetDisplay())), wxCRR2(v,dc)) #define wxCVM(v) wxCVM2(v, v.dotclock) wxArrayVideoModes wxDisplayImplX11::GetModes(const wxVideoMode& mode) const { //Convenience... Display* pDisplay = (Display*) wxGetDisplay(); //default display int nScreen = DefaultScreen(pDisplay); //default screen of (default) display... //Some variables.. XF86VidModeModeInfo** ppXModes; //Enumerated Modes (Don't forget XFree() :)) int nNumModes; //Number of modes enumerated.... wxArrayVideoModes Modes; //modes to return... if (XF86VidModeGetAllModeLines(pDisplay, nScreen, &nNumModes, &ppXModes) == TRUE) { for (int i = 0; i < nNumModes; ++i) { if (mode == wxDefaultVideoMode || //According to display.h All modes valid if dafault mode... mode.Matches(wxCVM((*ppXModes[i]))) ) //...? { Modes.Add(wxCVM((*ppXModes[i]))); } wxClearXVM((*ppXModes[i])); // XFree(ppXModes[i]); //supposed to free? } XFree(ppXModes); } else //OOPS! { wxLogSysError(_("Failed to enumerate video modes")); } return Modes; } wxVideoMode wxDisplayImplX11::GetCurrentMode() const { XF86VidModeModeLine VM; int nDotClock; XF86VidModeGetModeLine((Display*)wxGetDisplay(), DefaultScreen((Display*)wxGetDisplay()), &nDotClock, &VM); wxClearXVM(VM); return wxCVM2(VM, nDotClock); } bool wxDisplayImplX11::ChangeMode(const wxVideoMode& mode) { XF86VidModeModeInfo** ppXModes; //Enumerated Modes (Don't forget XFree() :)) int nNumModes; //Number of modes enumerated.... if( !XF86VidModeGetAllModeLines((Display*)wxGetDisplay(), DefaultScreen((Display*)wxGetDisplay()), &nNumModes, &ppXModes) ) { wxLogSysError(_("Failed to change video mode")); return false; } bool bRet = false; if (mode == wxDefaultVideoMode) { bRet = XF86VidModeSwitchToMode((Display*)wxGetDisplay(), DefaultScreen((Display*)wxGetDisplay()), ppXModes[0]) == TRUE; for (int i = 0; i < nNumModes; ++i) { wxClearXVM((*ppXModes[i])); // XFree(ppXModes[i]); //supposed to free? } } else { for (int i = 0; i < nNumModes; ++i) { if (!bRet && ppXModes[i]->hdisplay == mode.GetWidth() && ppXModes[i]->vdisplay == mode.GetHeight() && wxCRR((*ppXModes[i])) == mode.GetRefresh()) { //switch! bRet = XF86VidModeSwitchToMode((Display*)wxGetDisplay(), DefaultScreen((Display*)wxGetDisplay()), ppXModes[i]) == TRUE; } wxClearXVM((*ppXModes[i])); // XFree(ppXModes[i]); //supposed to free? } } XFree(ppXModes); return bRet; } #else // !HAVE_X11_EXTENSIONS_XF86VMODE_H wxArrayVideoModes wxDisplayImplX11::GetModes(const wxVideoMode& modeMatch) const { int count_return; int* depths = XListDepths((Display*)wxGetDisplay(), 0, &count_return); wxArrayVideoModes modes; if ( depths ) { for ( int x = 0; x < count_return; ++x ) { wxVideoMode mode(m_rect.GetWidth(), m_rect.GetHeight(), depths[x]); if ( mode.Matches(modeMatch) ) { modes.Add(modeMatch); } } XFree(depths); } return modes; } wxVideoMode wxDisplayImplX11::GetCurrentMode() const { // Not implemented return wxVideoMode(); } bool wxDisplayImplX11::ChangeMode(const wxVideoMode& WXUNUSED(mode)) { // Not implemented return false; } #endif // !HAVE_X11_EXTENSIONS_XF86VMODE_H // ============================================================================ // wxDisplay::CreateFactory() // ============================================================================ /* static */ wxDisplayFactory *wxDisplay::CreateFactory() { // GTK+ screen functions are always available, no need to check for them #ifndef __WXGTK20__ if ( !XineramaIsActive((Display*)wxGetDisplay()) ) return new wxDisplayFactorySingle; #endif return new wxDisplayFactoryX11; } #endif /* wxUSE_DISPLAY */ #include "wx/utils.h" #if wxUSE_LIBHILDON || wxUSE_LIBHILDON2 || !defined(GDK_WINDOWING_X11) void wxClientDisplayRect(int *x, int *y, int *width, int *height) { // TODO: don't hardcode display size if ( x ) *x = 0; if ( y ) *y = 0; if ( width ) *width = 672; if ( height ) *height = 396; } #else // !wxUSE_LIBHILDON || !wxUSE_LIBHILDON2 #include "wx/log.h" #include #include // TODO: make this a full-fledged class and move to a public header class wxX11Ptr { public: wxX11Ptr(void *ptr = NULL) : m_ptr(ptr) { } ~wxX11Ptr() { if ( m_ptr ) XFree(m_ptr); } private: void *m_ptr; wxDECLARE_NO_COPY_CLASS(wxX11Ptr); }; // NB: this function is implemented using X11 and not GDK calls as it's shared // by wxGTK[12], wxX11 and wxMotif ports void wxClientDisplayRect(int *x, int *y, int *width, int *height) { Display * const dpy = wxGetX11Display(); wxCHECK_RET( dpy, wxT("can't be called before initializing the GUI") ); wxRect rectClient; const Atom atomWorkArea = XInternAtom(dpy, "_NET_WORKAREA", True); if ( atomWorkArea ) { long *workareas = NULL; unsigned long numItems; unsigned long bytesRemaining; Atom actualType; int format; if ( XGetWindowProperty ( dpy, XDefaultRootWindow(dpy), atomWorkArea, 0, // offset of data to retrieve 4, // number of items to retrieve False, // don't delete property XA_CARDINAL, // type of the items to get &actualType, &format, &numItems, &bytesRemaining, (unsigned char **)&workareas ) == Success && workareas ) { wxX11Ptr x11ptr(workareas); // ensure it will be freed // check that we retrieved the property of the expected type and // that we did get back 4 longs (32 is the format for long), as // requested if ( actualType != XA_CARDINAL || format != 32 || numItems != 4 ) { wxLogDebug(wxT("XGetWindowProperty(\"_NET_WORKAREA\") failed")); } else { rectClient = wxRect(workareas[0], workareas[1], workareas[2], workareas[3]); } } } // Although _NET_WORKAREA is supposed to return the client size of the // screen, not all implementations are conforming, apparently, see #14419, // so make sure we return a subset of the primary display. wxRect rectFull; #if wxUSE_DISPLAY ScreensInfo screens; const ScreenInfo& info = screens[0]; rectFull = wxRect(info.x_org, info.y_org, info.width, info.height); #else wxDisplaySize(&rectFull.width, &rectFull.height); #endif if ( !rectClient.width || !rectClient.height ) { // _NET_WORKAREA not available or didn't work, fall back to the total // display size. rectClient = rectFull; } else { rectClient = rectClient.Intersect(rectFull); } if ( x ) *x = rectClient.x; if ( y ) *y = rectClient.y; if ( width ) *width = rectClient.width; if ( height ) *height = rectClient.height; } #endif // wxUSE_LIBHILDON/!wxUSE_LIBHILDON