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# include "Compositor.hpp"
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# include "helpers/Splashes.hpp"
# include <random>
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# include <unordered_set>
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# include "debug/HyprCtl.hpp"
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# include "debug/CrashReporter.hpp"
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# ifdef USES_SYSTEMD
# include <systemd/sd-daemon.h> // for sd_notify
# endif
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# include <ranges>
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int handleCritSignal ( int signo , void * data ) {
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Debug : : log ( LOG , " Hyprland received signal {} " , signo ) ;
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if ( signo = = SIGTERM | | signo = = SIGINT | | signo = = SIGKILL )
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g_pCompositor - > cleanup ( ) ;
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return 0 ;
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}
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void handleUnrecoverableSignal ( int sig ) {
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// remove our handlers
signal ( SIGABRT , SIG_DFL ) ;
signal ( SIGSEGV , SIG_DFL ) ;
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if ( g_pHookSystem - > m_bCurrentEventPlugin ) {
longjmp ( g_pHookSystem - > m_jbHookFaultJumpBuf , 1 ) ;
return ;
}
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CrashReporter : : createAndSaveCrash ( sig ) ;
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abort ( ) ;
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}
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void handleUserSignal ( int sig ) {
if ( sig = = SIGUSR1 ) {
// means we have to unwind a timed out event
throw std : : exception ( ) ;
}
}
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CCompositor : : CCompositor ( ) {
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m_iHyprlandPID = getpid ( ) ;
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m_szInstanceSignature = GIT_COMMIT_HASH + std : : string ( " _ " ) + std : : to_string ( time ( NULL ) ) ;
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setenv ( " HYPRLAND_INSTANCE_SIGNATURE " , m_szInstanceSignature . c_str ( ) , true ) ;
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if ( ! std : : filesystem : : exists ( " /tmp/hypr " ) ) {
std : : filesystem : : create_directory ( " /tmp/hypr " ) ;
std : : filesystem : : permissions ( " /tmp/hypr " , std : : filesystem : : perms : : all , std : : filesystem : : perm_options : : replace ) ;
}
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const auto INSTANCEPATH = " /tmp/hypr/ " + m_szInstanceSignature ;
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std : : filesystem : : create_directory ( INSTANCEPATH ) ;
std : : filesystem : : permissions ( INSTANCEPATH , std : : filesystem : : perms : : group_all , std : : filesystem : : perm_options : : replace ) ;
std : : filesystem : : permissions ( INSTANCEPATH , std : : filesystem : : perms : : owner_all , std : : filesystem : : perm_options : : add ) ;
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Debug : : init ( m_szInstanceSignature ) ;
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Debug : : log ( LOG , " Instance Signature: {} " , m_szInstanceSignature ) ;
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Debug : : log ( LOG , " Hyprland PID: {} " , m_iHyprlandPID ) ;
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Debug : : log ( LOG , " ===== SYSTEM INFO: ===== " ) ;
logSystemInfo ( ) ;
Debug : : log ( LOG , " ======================== " ) ;
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Debug : : log ( NONE , " \n \n " ) ; // pad
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Debug : : log ( INFO , " If you are crashing, or encounter any bugs, please consult https://wiki.hyprland.org/Crashes-and-Bugs/ \n \n " ) ;
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setRandomSplash ( ) ;
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Debug : : log ( LOG , " \n Current splash: {} \n \n " , m_szCurrentSplash ) ;
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}
CCompositor : : ~ CCompositor ( ) {
cleanup ( ) ;
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g_pPluginSystem . reset ( ) ;
g_pHyprNotificationOverlay . reset ( ) ;
g_pDebugOverlay . reset ( ) ;
g_pEventManager . reset ( ) ;
g_pSessionLockManager . reset ( ) ;
g_pProtocolManager . reset ( ) ;
g_pXWaylandManager . reset ( ) ;
g_pHyprRenderer . reset ( ) ;
g_pHyprOpenGL . reset ( ) ;
g_pInputManager . reset ( ) ;
g_pThreadManager . reset ( ) ;
g_pConfigManager . reset ( ) ;
g_pLayoutManager . reset ( ) ;
g_pHyprError . reset ( ) ;
g_pConfigManager . reset ( ) ;
g_pAnimationManager . reset ( ) ;
g_pKeybindManager . reset ( ) ;
g_pHookSystem . reset ( ) ;
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g_pWatchdog . reset ( ) ;
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}
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void CCompositor : : setRandomSplash ( ) {
std : : random_device dev ;
std : : mt19937 engine ( dev ( ) ) ;
std : : uniform_int_distribution < > distribution ( 0 , SPLASHES . size ( ) - 1 ) ;
m_szCurrentSplash = SPLASHES [ distribution ( engine ) ] ;
}
void CCompositor : : initServer ( ) {
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m_sWLDisplay = wl_display_create ( ) ;
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m_sWLEventLoop = wl_display_get_event_loop ( m_sWLDisplay ) ;
// register crit signal handler
wl_event_loop_add_signal ( m_sWLEventLoop , SIGTERM , handleCritSignal , nullptr ) ;
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signal ( SIGSEGV , handleUnrecoverableSignal ) ;
signal ( SIGABRT , handleUnrecoverableSignal ) ;
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signal ( SIGUSR1 , handleUserSignal ) ;
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//wl_event_loop_add_signal(m_sWLEventLoop, SIGINT, handleCritSignal, nullptr);
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initManagers ( STAGE_PRIORITY ) ;
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if ( const auto ENV = getenv ( " HYPRLAND_TRACE " ) ; ENV & & std : : string ( ENV ) = = " 1 " )
Debug : : trace = true ;
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wlr_log_init ( WLR_INFO , NULL ) ;
const auto LOGWLR = getenv ( " HYPRLAND_LOG_WLR " ) ;
if ( LOGWLR & & std : : string ( LOGWLR ) = = " 1 " )
wlr_log_init ( WLR_DEBUG , Debug : : wlrLog ) ;
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else
wlr_log_init ( WLR_ERROR , Debug : : wlrLog ) ;
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m_sWLRBackend = wlr_backend_autocreate ( m_sWLDisplay , & m_sWLRSession ) ;
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if ( ! m_sWLRBackend ) {
Debug : : log ( CRIT , " m_sWLRBackend was NULL! " ) ;
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throwError ( " wlr_backend_autocreate() failed! " ) ;
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}
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m_iDRMFD = wlr_backend_get_drm_fd ( m_sWLRBackend ) ;
if ( m_iDRMFD < 0 ) {
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Debug : : log ( CRIT , " Couldn't query the DRM FD! " ) ;
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throwError ( " wlr_backend_get_drm_fd() failed! " ) ;
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}
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m_sWLRRenderer = wlr_gles2_renderer_create_with_drm_fd ( m_iDRMFD ) ;
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if ( ! m_sWLRRenderer ) {
Debug : : log ( CRIT , " m_sWLRRenderer was NULL! " ) ;
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throwError ( " wlr_gles2_renderer_create_with_drm_fd() failed! " ) ;
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}
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wlr_renderer_init_wl_shm ( m_sWLRRenderer , m_sWLDisplay ) ;
if ( wlr_renderer_get_dmabuf_texture_formats ( m_sWLRRenderer ) ) {
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if ( wlr_renderer_get_drm_fd ( m_sWLRRenderer ) > = 0 )
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wlr_drm_create ( m_sWLDisplay , m_sWLRRenderer ) ;
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m_sWLRLinuxDMABuf = wlr_linux_dmabuf_v1_create_with_renderer ( m_sWLDisplay , 4 , m_sWLRRenderer ) ;
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}
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m_sWLRAllocator = wlr_allocator_autocreate ( m_sWLRBackend , m_sWLRRenderer ) ;
if ( ! m_sWLRAllocator ) {
Debug : : log ( CRIT , " m_sWLRAllocator was NULL! " ) ;
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throwError ( " wlr_allocator_autocreate() failed! " ) ;
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}
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m_sWLREGL = wlr_gles2_renderer_get_egl ( m_sWLRRenderer ) ;
if ( ! m_sWLREGL ) {
Debug : : log ( CRIT , " m_sWLREGL was NULL! " ) ;
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throwError ( " wlr_gles2_renderer_get_egl() failed! " ) ;
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}
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m_sWLRCompositor = wlr_compositor_create ( m_sWLDisplay , 6 , m_sWLRRenderer ) ;
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m_sWLRSubCompositor = wlr_subcompositor_create ( m_sWLDisplay ) ;
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m_sWLRDataDevMgr = wlr_data_device_manager_create ( m_sWLDisplay ) ;
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wlr_export_dmabuf_manager_v1_create ( m_sWLDisplay ) ;
wlr_data_control_manager_v1_create ( m_sWLDisplay ) ;
wlr_primary_selection_v1_device_manager_create ( m_sWLDisplay ) ;
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wlr_viewporter_create ( m_sWLDisplay ) ;
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m_sWLRGammaCtrlMgr = wlr_gamma_control_manager_v1_create ( m_sWLDisplay ) ;
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m_sWLROutputLayout = wlr_output_layout_create ( ) ;
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m_sWLROutputPowerMgr = wlr_output_power_manager_v1_create ( m_sWLDisplay ) ;
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m_sWLRXDGShell = wlr_xdg_shell_create ( m_sWLDisplay , 5 ) ;
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m_sWLRCursor = wlr_cursor_create ( ) ;
wlr_cursor_attach_output_layout ( m_sWLRCursor , m_sWLROutputLayout ) ;
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if ( const auto XCURSORENV = getenv ( " XCURSOR_SIZE " ) ; ! XCURSORENV | | std : : string ( XCURSORENV ) . empty ( ) )
setenv ( " XCURSOR_SIZE " , " 24 " , true ) ;
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const auto XCURSORENV = getenv ( " XCURSOR_SIZE " ) ;
int cursorSize = 24 ;
try {
cursorSize = std : : stoi ( XCURSORENV ) ;
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} catch ( std : : exception & e ) { Debug : : log ( ERR , " XCURSOR_SIZE invalid in check #2? ({}) " , XCURSORENV ) ; }
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m_sWLRXCursorMgr = wlr_xcursor_manager_create ( nullptr , cursorSize ) ;
wlr_xcursor_manager_load ( m_sWLRXCursorMgr , 1 ) ;
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m_sSeat . seat = wlr_seat_create ( m_sWLDisplay , " seat0 " ) ;
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m_sWLRPresentation = wlr_presentation_create ( m_sWLDisplay , m_sWLRBackend ) ;
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m_sWLRIdle = wlr_idle_create ( m_sWLDisplay ) ;
m_sWLRIdleNotifier = wlr_idle_notifier_v1_create ( m_sWLDisplay ) ;
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m_sWLRLayerShell = wlr_layer_shell_v1_create ( m_sWLDisplay , 4 ) ;
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m_sWLRServerDecoMgr = wlr_server_decoration_manager_create ( m_sWLDisplay ) ;
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m_sWLRXDGDecoMgr = wlr_xdg_decoration_manager_v1_create ( m_sWLDisplay ) ;
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wlr_server_decoration_manager_set_default_mode ( m_sWLRServerDecoMgr , WLR_SERVER_DECORATION_MANAGER_MODE_SERVER ) ;
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m_sWLROutputMgr = wlr_output_manager_v1_create ( m_sWLDisplay ) ;
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m_sWLRInhibitMgr = wlr_input_inhibit_manager_create ( m_sWLDisplay ) ;
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m_sWLRKbShInhibitMgr = wlr_keyboard_shortcuts_inhibit_v1_create ( m_sWLDisplay ) ;
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m_sWLRPointerConstraints = wlr_pointer_constraints_v1_create ( m_sWLDisplay ) ;
m_sWLRRelPointerMgr = wlr_relative_pointer_manager_v1_create ( m_sWLDisplay ) ;
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m_sWLRVKeyboardMgr = wlr_virtual_keyboard_manager_v1_create ( m_sWLDisplay ) ;
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m_sWLRVirtPtrMgr = wlr_virtual_pointer_manager_v1_create ( m_sWLDisplay ) ;
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m_sWLRToplevelMgr = wlr_foreign_toplevel_manager_v1_create ( m_sWLDisplay ) ;
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m_sWRLDRMLeaseMgr = wlr_drm_lease_v1_manager_create ( m_sWLDisplay , m_sWLRBackend ) ;
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if ( ! m_sWRLDRMLeaseMgr ) {
Debug : : log ( INFO , " Failed to create wlr_drm_lease_v1_manager " ) ;
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Debug : : log ( INFO , " VR will not be available " ) ;
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}
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m_sWLRTabletManager = wlr_tablet_v2_create ( m_sWLDisplay ) ;
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m_sWLRForeignRegistry = wlr_xdg_foreign_registry_create ( m_sWLDisplay ) ;
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m_sWLRIdleInhibitMgr = wlr_idle_inhibit_v1_create ( m_sWLDisplay ) ;
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wlr_xdg_foreign_v1_create ( m_sWLDisplay , m_sWLRForeignRegistry ) ;
wlr_xdg_foreign_v2_create ( m_sWLDisplay , m_sWLRForeignRegistry ) ;
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m_sWLRPointerGestures = wlr_pointer_gestures_v1_create ( m_sWLDisplay ) ;
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m_sWLRTextInputMgr = wlr_text_input_manager_v3_create ( m_sWLDisplay ) ;
m_sWLRIMEMgr = wlr_input_method_manager_v2_create ( m_sWLDisplay ) ;
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m_sWLRActivation = wlr_xdg_activation_v1_create ( m_sWLDisplay ) ;
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m_sWLRHeadlessBackend = wlr_headless_backend_create ( m_sWLDisplay ) ;
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m_sWLRSessionLockMgr = wlr_session_lock_manager_v1_create ( m_sWLDisplay ) ;
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m_sWLRCursorShapeMgr = wlr_cursor_shape_manager_v1_create ( m_sWLDisplay , 1 ) ;
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m_sWLRTearingControlMgr = wlr_tearing_control_manager_v1_create ( m_sWLDisplay , 1 ) ;
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if ( ! m_sWLRHeadlessBackend ) {
Debug : : log ( CRIT , " Couldn't create the headless backend " ) ;
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throwError ( " wlr_headless_backend_create() failed! " ) ;
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}
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wlr_single_pixel_buffer_manager_v1_create ( m_sWLDisplay ) ;
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wlr_multi_backend_add ( m_sWLRBackend , m_sWLRHeadlessBackend ) ;
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initManagers ( STAGE_LATE ) ;
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}
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void CCompositor : : initAllSignals ( ) {
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addWLSignal ( & m_sWLRBackend - > events . new_output , & Events : : listen_newOutput , m_sWLRBackend , " Backend " ) ;
addWLSignal ( & m_sWLRXDGShell - > events . new_surface , & Events : : listen_newXDGSurface , m_sWLRXDGShell , " XDG Shell " ) ;
addWLSignal ( & m_sWLRCursor - > events . motion , & Events : : listen_mouseMove , m_sWLRCursor , " WLRCursor " ) ;
addWLSignal ( & m_sWLRCursor - > events . motion_absolute , & Events : : listen_mouseMoveAbsolute , m_sWLRCursor , " WLRCursor " ) ;
addWLSignal ( & m_sWLRCursor - > events . button , & Events : : listen_mouseButton , m_sWLRCursor , " WLRCursor " ) ;
addWLSignal ( & m_sWLRCursor - > events . axis , & Events : : listen_mouseAxis , m_sWLRCursor , " WLRCursor " ) ;
addWLSignal ( & m_sWLRCursor - > events . frame , & Events : : listen_mouseFrame , m_sWLRCursor , " WLRCursor " ) ;
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addWLSignal ( & m_sWLRCursor - > events . swipe_begin , & Events : : listen_swipeBegin , m_sWLRCursor , " WLRCursor " ) ;
addWLSignal ( & m_sWLRCursor - > events . swipe_update , & Events : : listen_swipeUpdate , m_sWLRCursor , " WLRCursor " ) ;
addWLSignal ( & m_sWLRCursor - > events . swipe_end , & Events : : listen_swipeEnd , m_sWLRCursor , " WLRCursor " ) ;
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addWLSignal ( & m_sWLRCursor - > events . pinch_begin , & Events : : listen_pinchBegin , m_sWLRCursor , " WLRCursor " ) ;
addWLSignal ( & m_sWLRCursor - > events . pinch_update , & Events : : listen_pinchUpdate , m_sWLRCursor , " WLRCursor " ) ;
addWLSignal ( & m_sWLRCursor - > events . pinch_end , & Events : : listen_pinchEnd , m_sWLRCursor , " WLRCursor " ) ;
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addWLSignal ( & m_sWLRCursor - > events . touch_down , & Events : : listen_touchBegin , m_sWLRCursor , " WLRCursor " ) ;
addWLSignal ( & m_sWLRCursor - > events . touch_up , & Events : : listen_touchEnd , m_sWLRCursor , " WLRCursor " ) ;
addWLSignal ( & m_sWLRCursor - > events . touch_motion , & Events : : listen_touchUpdate , m_sWLRCursor , " WLRCursor " ) ;
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addWLSignal ( & m_sWLRCursor - > events . touch_frame , & Events : : listen_touchFrame , m_sWLRCursor , " WLRCursor " ) ;
addWLSignal ( & m_sWLRCursor - > events . hold_begin , & Events : : listen_holdBegin , m_sWLRCursor , " WLRCursor " ) ;
addWLSignal ( & m_sWLRCursor - > events . hold_end , & Events : : listen_holdEnd , m_sWLRCursor , " WLRCursor " ) ;
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addWLSignal ( & m_sWLRBackend - > events . new_input , & Events : : listen_newInput , m_sWLRBackend , " Backend " ) ;
addWLSignal ( & m_sSeat . seat - > events . request_set_cursor , & Events : : listen_requestMouse , & m_sSeat , " Seat " ) ;
addWLSignal ( & m_sSeat . seat - > events . request_set_selection , & Events : : listen_requestSetSel , & m_sSeat , " Seat " ) ;
addWLSignal ( & m_sSeat . seat - > events . request_start_drag , & Events : : listen_requestDrag , & m_sSeat , " Seat " ) ;
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addWLSignal ( & m_sSeat . seat - > events . start_drag , & Events : : listen_startDrag , & m_sSeat , " Seat " ) ;
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addWLSignal ( & m_sSeat . seat - > events . request_set_selection , & Events : : listen_requestSetSel , & m_sSeat , " Seat " ) ;
addWLSignal ( & m_sSeat . seat - > events . request_set_primary_selection , & Events : : listen_requestSetPrimarySel , & m_sSeat , " Seat " ) ;
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addWLSignal ( & m_sWLRLayerShell - > events . new_surface , & Events : : listen_newLayerSurface , m_sWLRLayerShell , " LayerShell " ) ;
addWLSignal ( & m_sWLROutputLayout - > events . change , & Events : : listen_change , m_sWLROutputLayout , " OutputLayout " ) ;
addWLSignal ( & m_sWLROutputMgr - > events . apply , & Events : : listen_outputMgrApply , m_sWLROutputMgr , " OutputMgr " ) ;
addWLSignal ( & m_sWLROutputMgr - > events . test , & Events : : listen_outputMgrTest , m_sWLROutputMgr , " OutputMgr " ) ;
addWLSignal ( & m_sWLRInhibitMgr - > events . activate , & Events : : listen_InhibitActivate , m_sWLRInhibitMgr , " InhibitMgr " ) ;
addWLSignal ( & m_sWLRInhibitMgr - > events . deactivate , & Events : : listen_InhibitDeactivate , m_sWLRInhibitMgr , " InhibitMgr " ) ;
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addWLSignal ( & m_sWLRPointerConstraints - > events . new_constraint , & Events : : listen_newConstraint , m_sWLRPointerConstraints , " PointerConstraints " ) ;
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addWLSignal ( & m_sWLRXDGDecoMgr - > events . new_toplevel_decoration , & Events : : listen_NewXDGDeco , m_sWLRXDGDecoMgr , " XDGDecoMgr " ) ;
2022-05-12 12:13:02 +02:00
addWLSignal ( & m_sWLRVirtPtrMgr - > events . new_virtual_pointer , & Events : : listen_newVirtPtr , m_sWLRVirtPtrMgr , " VirtPtrMgr " ) ;
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addWLSignal ( & m_sWLRVKeyboardMgr - > events . new_virtual_keyboard , & Events : : listen_newVirtualKeyboard , m_sWLRVKeyboardMgr , " VKeyboardMgr " ) ;
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addWLSignal ( & m_sWLRRenderer - > events . destroy , & Events : : listen_RendererDestroy , m_sWLRRenderer , " WLRRenderer " ) ;
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addWLSignal ( & m_sWLRIdleInhibitMgr - > events . new_inhibitor , & Events : : listen_newIdleInhibitor , m_sWLRIdleInhibitMgr , " WLRIdleInhibitMgr " ) ;
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addWLSignal ( & m_sWLROutputPowerMgr - > events . set_mode , & Events : : listen_powerMgrSetMode , m_sWLROutputPowerMgr , " PowerMgr " ) ;
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addWLSignal ( & m_sWLRIMEMgr - > events . input_method , & Events : : listen_newIME , m_sWLRIMEMgr , " IMEMgr " ) ;
addWLSignal ( & m_sWLRTextInputMgr - > events . text_input , & Events : : listen_newTextInput , m_sWLRTextInputMgr , " TextInputMgr " ) ;
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addWLSignal ( & m_sWLRActivation - > events . request_activate , & Events : : listen_activateXDG , m_sWLRActivation , " ActivationV1 " ) ;
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addWLSignal ( & m_sWLRSessionLockMgr - > events . new_lock , & Events : : listen_newSessionLock , m_sWLRSessionLockMgr , " SessionLockMgr " ) ;
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addWLSignal ( & m_sWLRGammaCtrlMgr - > events . set_gamma , & Events : : listen_setGamma , m_sWLRGammaCtrlMgr , " GammaCtrlMgr " ) ;
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addWLSignal ( & m_sWLRCursorShapeMgr - > events . request_set_shape , & Events : : listen_setCursorShape , m_sWLRCursorShapeMgr , " CursorShapeMgr " ) ;
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addWLSignal ( & m_sWLRTearingControlMgr - > events . new_object , & Events : : listen_newTearingHint , m_sWLRTearingControlMgr , " TearingControlMgr " ) ;
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if ( m_sWRLDRMLeaseMgr )
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addWLSignal ( & m_sWRLDRMLeaseMgr - > events . request , & Events : : listen_leaseRequest , & m_sWRLDRMLeaseMgr , " DRM " ) ;
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if ( m_sWLRSession )
addWLSignal ( & m_sWLRSession - > events . active , & Events : : listen_sessionActive , m_sWLRSession , " Session " ) ;
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}
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void CCompositor : : cleanup ( ) {
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if ( ! m_sWLDisplay | | m_bIsShuttingDown )
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return ;
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removeLockFile ( ) ;
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m_bIsShuttingDown = true ;
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# ifdef USES_SYSTEMD
if ( sd_booted ( ) > 0 )
sd_notify ( 0 , " STOPPING=1 " ) ;
# endif
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// unload all remaining plugins while the compositor is
// still in a normal working state.
g_pPluginSystem - > unloadAllPlugins ( ) ;
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m_pLastFocus = nullptr ;
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m_pLastWindow = nullptr ;
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// end threads
g_pEventManager - > m_tThread = std : : thread ( ) ;
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m_vWorkspaces . clear ( ) ;
m_vWindows . clear ( ) ;
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for ( auto & m : m_vMonitors ) {
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g_pHyprOpenGL - > destroyMonitorResources ( m . get ( ) ) ;
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wlr_output_enable ( m - > output , false ) ;
wlr_output_commit ( m - > output ) ;
}
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m_vMonitors . clear ( ) ;
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if ( g_pXWaylandManager - > m_sWLRXWayland ) {
wlr_xwayland_destroy ( g_pXWaylandManager - > m_sWLRXWayland ) ;
g_pXWaylandManager - > m_sWLRXWayland = nullptr ;
}
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wl_display_destroy_clients ( g_pCompositor - > m_sWLDisplay ) ;
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wl_display_terminate ( m_sWLDisplay ) ;
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m_sWLDisplay = nullptr ;
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}
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void CCompositor : : initManagers ( eManagersInitStage stage ) {
switch ( stage ) {
case STAGE_PRIORITY : {
Debug : : log ( LOG , " Creating the HookSystem! " ) ;
g_pHookSystem = std : : make_unique < CHookSystemManager > ( ) ;
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Debug : : log ( LOG , " Creating the KeybindManager! " ) ;
g_pKeybindManager = std : : make_unique < CKeybindManager > ( ) ;
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Debug : : log ( LOG , " Creating the AnimationManager! " ) ;
g_pAnimationManager = std : : make_unique < CAnimationManager > ( ) ;
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Debug : : log ( LOG , " Creating the ConfigManager! " ) ;
g_pConfigManager = std : : make_unique < CConfigManager > ( ) ;
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Debug : : log ( LOG , " Creating the CHyprError! " ) ;
g_pHyprError = std : : make_unique < CHyprError > ( ) ;
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Debug : : log ( LOG , " Creating the LayoutManager! " ) ;
g_pLayoutManager = std : : make_unique < CLayoutManager > ( ) ;
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g_pConfigManager - > init ( ) ;
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g_pWatchdog = std : : make_unique < CWatchdog > ( ) ; // requires config
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} break ;
case STAGE_LATE : {
Debug : : log ( LOG , " Creating the ThreadManager! " ) ;
g_pThreadManager = std : : make_unique < CThreadManager > ( ) ;
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Debug : : log ( LOG , " Creating the InputManager! " ) ;
g_pInputManager = std : : make_unique < CInputManager > ( ) ;
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Debug : : log ( LOG , " Creating the CHyprOpenGLImpl! " ) ;
g_pHyprOpenGL = std : : make_unique < CHyprOpenGLImpl > ( ) ;
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Debug : : log ( LOG , " Creating the HyprRenderer! " ) ;
g_pHyprRenderer = std : : make_unique < CHyprRenderer > ( ) ;
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Debug : : log ( LOG , " Creating the XWaylandManager! " ) ;
g_pXWaylandManager = std : : make_unique < CHyprXWaylandManager > ( ) ;
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Debug : : log ( LOG , " Creating the ProtocolManager! " ) ;
g_pProtocolManager = std : : make_unique < CProtocolManager > ( ) ;
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Debug : : log ( LOG , " Creating the SessionLockManager! " ) ;
g_pSessionLockManager = std : : make_unique < CSessionLockManager > ( ) ;
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Debug : : log ( LOG , " Creating the EventManager! " ) ;
g_pEventManager = std : : make_unique < CEventManager > ( ) ;
g_pEventManager - > startThread ( ) ;
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Debug : : log ( LOG , " Creating the HyprDebugOverlay! " ) ;
g_pDebugOverlay = std : : make_unique < CHyprDebugOverlay > ( ) ;
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Debug : : log ( LOG , " Creating the HyprNotificationOverlay! " ) ;
g_pHyprNotificationOverlay = std : : make_unique < CHyprNotificationOverlay > ( ) ;
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Debug : : log ( LOG , " Creating the PluginSystem! " ) ;
g_pPluginSystem = std : : make_unique < CPluginSystem > ( ) ;
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g_pConfigManager - > handlePluginLoads ( ) ;
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} break ;
default : UNREACHABLE ( ) ;
}
}
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void CCompositor : : createLockFile ( ) {
const auto PATH = " /tmp/hypr/ " + m_szInstanceSignature + " .lock " ;
std : : ofstream ofs ( PATH , std : : ios : : trunc ) ;
ofs < < m_iHyprlandPID < < " \n " < < m_szWLDisplaySocket < < " \n " ;
ofs . close ( ) ;
}
void CCompositor : : removeLockFile ( ) {
const auto PATH = " /tmp/hypr/ " + m_szInstanceSignature + " .lock " ;
if ( std : : filesystem : : exists ( PATH ) )
std : : filesystem : : remove ( PATH ) ;
}
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void CCompositor : : startCompositor ( ) {
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initAllSignals ( ) ;
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// get socket, avoid using 0
for ( int candidate = 1 ; candidate < = 32 ; candidate + + ) {
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const auto CANDIDATESTR = ( " wayland- " + std : : to_string ( candidate ) ) ;
const auto RETVAL = wl_display_add_socket ( m_sWLDisplay , CANDIDATESTR . c_str ( ) ) ;
if ( RETVAL > = 0 ) {
m_szWLDisplaySocket = CANDIDATESTR ;
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Debug : : log ( LOG , " wl_display_add_socket for {} succeeded with {} " , CANDIDATESTR , RETVAL ) ;
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break ;
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} else {
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Debug : : log ( WARN , " wl_display_add_socket for {} returned {}: skipping candidate {} " , CANDIDATESTR , RETVAL , candidate ) ;
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}
}
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if ( m_szWLDisplaySocket . empty ( ) ) {
Debug : : log ( WARN , " All candidates failed, trying wl_display_add_socket_auto " ) ;
const auto SOCKETSTR = wl_display_add_socket_auto ( m_sWLDisplay ) ;
if ( SOCKETSTR )
m_szWLDisplaySocket = SOCKETSTR ;
}
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if ( m_szWLDisplaySocket . empty ( ) ) {
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Debug : : log ( CRIT , " m_szWLDisplaySocket NULL! " ) ;
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wlr_backend_destroy ( m_sWLRBackend ) ;
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throwError ( " m_szWLDisplaySocket was null! (wl_display_add_socket and wl_display_add_socket_auto failed) " ) ;
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}
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setenv ( " WAYLAND_DISPLAY " , m_szWLDisplaySocket . c_str ( ) , 1 ) ;
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signal ( SIGPIPE , SIG_IGN ) ;
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if ( m_sWLRSession /* Session-less Hyprland usually means a nest, don't update the env in that case */ & & fork ( ) = = 0 )
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execl (
" /bin/sh " , " /bin/sh " , " -c " ,
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# ifdef USES_SYSTEMD
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" systemctl --user import-environment DISPLAY WAYLAND_DISPLAY HYPRLAND_INSTANCE_SIGNATURE XDG_CURRENT_DESKTOP && hash dbus-update-activation-environment 2>/dev/null && "
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# endif
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" dbus-update-activation-environment --systemd WAYLAND_DISPLAY XDG_CURRENT_DESKTOP HYPRLAND_INSTANCE_SIGNATURE " ,
nullptr ) ;
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Debug : : log ( LOG , " Running on WAYLAND_DISPLAY: {} " , m_szWLDisplaySocket ) ;
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if ( ! wlr_backend_start ( m_sWLRBackend ) ) {
Debug : : log ( CRIT , " Backend did not start! " ) ;
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wlr_backend_destroy ( m_sWLRBackend ) ;
wl_display_destroy ( m_sWLDisplay ) ;
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throwError ( " The backend could not start! " ) ;
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}
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g_pHyprRenderer - > setCursorFromName ( " left_ptr " ) ;
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2023-01-05 20:17:55 +01:00
# ifdef USES_SYSTEMD
if ( sd_booted ( ) > 0 )
// tell systemd that we are ready so it can start other bond, following, related units
sd_notify ( 0 , " READY=1 " ) ;
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else
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Debug : : log ( LOG , " systemd integration is baked in but system itself is not booted à la systemd! " ) ;
# endif
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createLockFile ( ) ;
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// This blocks until we are done.
Debug : : log ( LOG , " Hyprland is ready, running the event loop! " ) ;
wl_display_run ( m_sWLDisplay ) ;
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}
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CMonitor * CCompositor : : getMonitorFromID ( const int & id ) {
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for ( auto & m : m_vMonitors ) {
if ( m - > ID = = ( uint64_t ) id ) {
return m . get ( ) ;
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}
}
return nullptr ;
}
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CMonitor * CCompositor : : getMonitorFromName ( const std : : string & name ) {
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for ( auto & m : m_vMonitors ) {
if ( m - > szName = = name ) {
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return m . get ( ) ;
}
}
return nullptr ;
}
CMonitor * CCompositor : : getMonitorFromDesc ( const std : : string & desc ) {
for ( auto & m : m_vMonitors ) {
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if ( m - > output - > description & & std : : string ( m - > output - > description ) . find ( desc ) = = 0 )
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return m . get ( ) ;
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}
return nullptr ;
}
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CMonitor * CCompositor : : getMonitorFromCursor ( ) {
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const auto COORDS = Vector2D ( m_sWLRCursor - > x , m_sWLRCursor - > y ) ;
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return getMonitorFromVector ( COORDS ) ;
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}
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CMonitor * CCompositor : : getMonitorFromVector ( const Vector2D & point ) {
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const auto OUTPUT = wlr_output_layout_output_at ( m_sWLROutputLayout , point . x , point . y ) ;
if ( ! OUTPUT ) {
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float bestDistance = 0.f ;
CMonitor * pBestMon = nullptr ;
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for ( auto & m : m_vMonitors ) {
float dist = vecToRectDistanceSquared ( point , m - > vecPosition , m - > vecPosition + m - > vecSize ) ;
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if ( dist < bestDistance | | ! pBestMon ) {
bestDistance = dist ;
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pBestMon = m . get ( ) ;
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}
}
if ( ! pBestMon ) { // ?????
Debug : : log ( WARN , " getMonitorFromVector no close mon??? " ) ;
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return m_vMonitors . front ( ) . get ( ) ;
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}
return pBestMon ;
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}
return getMonitorFromOutput ( OUTPUT ) ;
}
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void CCompositor : : removeWindowFromVectorSafe ( CWindow * pWindow ) {
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if ( windowExists ( pWindow ) & & ! pWindow - > m_bFadingOut )
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std : : erase_if ( m_vWindows , [ & ] ( std : : unique_ptr < CWindow > & el ) { return el . get ( ) = = pWindow ; } ) ;
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}
bool CCompositor : : windowExists ( CWindow * pWindow ) {
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for ( auto & w : m_vWindows ) {
if ( w . get ( ) = = pWindow )
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return true ;
}
return false ;
}
CWindow * CCompositor : : vectorToWindow ( const Vector2D & pos ) {
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const auto PMONITOR = getMonitorFromVector ( pos ) ;
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if ( PMONITOR - > specialWorkspaceID ) {
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for ( auto & w : m_vWindows | std : : views : : reverse ) {
wlr_box box = { w - > m_vRealPosition . vec ( ) . x , w - > m_vRealPosition . vec ( ) . y , w - > m_vRealSize . vec ( ) . x , w - > m_vRealSize . vec ( ) . y } ;
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if ( w - > m_bIsFloating & & w - > m_iWorkspaceID = = PMONITOR - > specialWorkspaceID & & w - > m_bIsMapped & & wlr_box_contains_point ( & box , pos . x , pos . y ) & & ! w - > isHidden ( ) & &
! w - > m_bNoFocus )
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return w . get ( ) ;
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}
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for ( auto & w : m_vWindows ) {
wlr_box box = { w - > m_vRealPosition . vec ( ) . x , w - > m_vRealPosition . vec ( ) . y , w - > m_vRealSize . vec ( ) . x , w - > m_vRealSize . vec ( ) . y } ;
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if ( w - > m_iWorkspaceID = = PMONITOR - > specialWorkspaceID & & wlr_box_contains_point ( & box , pos . x , pos . y ) & & w - > m_bIsMapped & & ! w - > m_bIsFloating & & ! w - > isHidden ( ) & &
! w - > m_bNoFocus )
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return w . get ( ) ;
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}
}
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// pinned
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for ( auto & w : m_vWindows | std : : views : : reverse ) {
wlr_box box = { w - > m_vRealPosition . vec ( ) . x , w - > m_vRealPosition . vec ( ) . y , w - > m_vRealSize . vec ( ) . x , w - > m_vRealSize . vec ( ) . y } ;
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if ( wlr_box_contains_point ( & box , pos . x , pos . y ) & & w - > m_bIsMapped & & w - > m_bIsFloating & & ! w - > isHidden ( ) & & w - > m_bPinned & & ! w - > m_bNoFocus )
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return w . get ( ) ;
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}
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// first loop over floating cuz they're above, m_vWindows should be sorted bottom->top, for tiled it doesn't matter.
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for ( auto & w : m_vWindows | std : : views : : reverse ) {
wlr_box box = { w - > m_vRealPosition . vec ( ) . x , w - > m_vRealPosition . vec ( ) . y , w - > m_vRealSize . vec ( ) . x , w - > m_vRealSize . vec ( ) . y } ;
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if ( wlr_box_contains_point ( & box , pos . x , pos . y ) & & w - > m_bIsMapped & & w - > m_bIsFloating & & isWorkspaceVisible ( w - > m_iWorkspaceID ) & & ! w - > isHidden ( ) & & ! w - > m_bPinned & &
! w - > m_bNoFocus )
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return w . get ( ) ;
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}
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for ( auto & w : m_vWindows ) {
wlr_box box = { w - > m_vRealPosition . vec ( ) . x , w - > m_vRealPosition . vec ( ) . y , w - > m_vRealSize . vec ( ) . x , w - > m_vRealSize . vec ( ) . y } ;
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if ( wlr_box_contains_point ( & box , pos . x , pos . y ) & & w - > m_bIsMapped & & ! w - > m_bIsFloating & & PMONITOR - > activeWorkspace = = w - > m_iWorkspaceID & & ! w - > isHidden ( ) & & ! w - > m_bNoFocus )
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return w . get ( ) ;
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}
return nullptr ;
}
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CWindow * CCompositor : : vectorToWindowTiled ( const Vector2D & pos ) {
const auto PMONITOR = getMonitorFromVector ( pos ) ;
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if ( PMONITOR - > specialWorkspaceID ) {
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for ( auto & w : m_vWindows ) {
wlr_box box = { w - > m_vPosition . x , w - > m_vPosition . y , w - > m_vSize . x , w - > m_vSize . y } ;
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if ( w - > m_iWorkspaceID = = PMONITOR - > specialWorkspaceID & & wlr_box_contains_point ( & box , pos . x , pos . y ) & & ! w - > m_bIsFloating & & ! w - > isHidden ( ) & & ! w - > m_bNoFocus )
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return w . get ( ) ;
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}
}
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for ( auto & w : m_vWindows ) {
wlr_box box = { w - > m_vPosition . x , w - > m_vPosition . y , w - > m_vSize . x , w - > m_vSize . y } ;
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if ( w - > m_bIsMapped & & wlr_box_contains_point ( & box , pos . x , pos . y ) & & w - > m_iWorkspaceID = = PMONITOR - > activeWorkspace & & ! w - > m_bIsFloating & & ! w - > isHidden ( ) & & ! w - > m_bNoFocus )
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return w . get ( ) ;
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}
return nullptr ;
}
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CWindow * CCompositor : : vectorToWindowIdeal ( const Vector2D & pos ) {
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const auto PMONITOR = getMonitorFromVector ( pos ) ;
static auto * const PRESIZEONBORDER = & g_pConfigManager - > getConfigValuePtr ( " general:resize_on_border " ) - > intValue ;
static auto * const PBORDERSIZE = & g_pConfigManager - > getConfigValuePtr ( " general:border_size " ) - > intValue ;
static auto * const PBORDERGRABEXTEND = & g_pConfigManager - > getConfigValuePtr ( " general:extend_border_grab_area " ) - > intValue ;
const auto BORDER_GRAB_AREA = * PRESIZEONBORDER ? * PBORDERSIZE + * PBORDERGRABEXTEND : 0 ;
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// special workspace
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if ( PMONITOR - > specialWorkspaceID ) {
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for ( auto & w : m_vWindows | std : : views : : reverse ) {
const auto BB = w - > getWindowInputBox ( ) ;
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wlr_box box = { BB . x - BORDER_GRAB_AREA , BB . y - BORDER_GRAB_AREA , BB . width + 2 * BORDER_GRAB_AREA , BB . height + 2 * BORDER_GRAB_AREA } ;
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if ( w - > m_bIsFloating & & w - > m_iWorkspaceID = = PMONITOR - > specialWorkspaceID & & w - > m_bIsMapped & & wlr_box_contains_point ( & box , pos . x , pos . y ) & & ! w - > isHidden ( ) & &
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! w - > m_bX11ShouldntFocus & & ! w - > m_bNoFocus )
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return w . get ( ) ;
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}
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for ( auto & w : m_vWindows ) {
wlr_box box = { w - > m_vPosition . x , w - > m_vPosition . y , w - > m_vSize . x , w - > m_vSize . y } ;
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if ( ! w - > m_bIsFloating & & w - > m_iWorkspaceID = = PMONITOR - > specialWorkspaceID & & w - > m_bIsMapped & & wlr_box_contains_point ( & box , pos . x , pos . y ) & & ! w - > isHidden ( ) & &
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! w - > m_bX11ShouldntFocus & & ! w - > m_bNoFocus )
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return w . get ( ) ;
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}
}
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// pinned windows on top of floating regardless
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for ( auto & w : m_vWindows | std : : views : : reverse ) {
const auto BB = w - > getWindowInputBox ( ) ;
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wlr_box box = { BB . x - BORDER_GRAB_AREA , BB . y - BORDER_GRAB_AREA , BB . width + 2 * BORDER_GRAB_AREA , BB . height + 2 * BORDER_GRAB_AREA } ;
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if ( w - > m_bIsFloating & & w - > m_bIsMapped & & ! w - > isHidden ( ) & & ! w - > m_bX11ShouldntFocus & & w - > m_bPinned & & ! w - > m_bNoFocus ) {
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if ( wlr_box_contains_point ( & box , m_sWLRCursor - > x , m_sWLRCursor - > y ) )
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return w . get ( ) ;
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if ( ! w - > m_bIsX11 ) {
if ( w - > hasPopupAt ( pos ) )
return w . get ( ) ;
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}
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}
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}
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// first loop over floating cuz they're above, m_lWindows should be sorted bottom->top, for tiled it doesn't matter.
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for ( auto & w : m_vWindows | std : : views : : reverse ) {
const auto BB = w - > getWindowInputBox ( ) ;
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wlr_box box = { BB . x - BORDER_GRAB_AREA , BB . y - BORDER_GRAB_AREA , BB . width + 2 * BORDER_GRAB_AREA , BB . height + 2 * BORDER_GRAB_AREA } ;
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if ( w - > m_bIsFloating & & w - > m_bIsMapped & & isWorkspaceVisible ( w - > m_iWorkspaceID ) & & ! w - > isHidden ( ) & & ! w - > m_bPinned & & ! w - > m_bNoFocus ) {
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// OR windows should add focus to parent
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if ( w - > m_bX11ShouldntFocus & & w - > m_iX11Type ! = 2 )
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continue ;
if ( wlr_box_contains_point ( & box , m_sWLRCursor - > x , m_sWLRCursor - > y ) ) {
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if ( w - > m_bIsX11 & & w - > m_iX11Type = = 2 & & ! wlr_xwayland_or_surface_wants_focus ( w - > m_uSurface . xwayland ) ) {
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// Override Redirect
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return g_pCompositor - > m_pLastWindow ; // we kinda trick everything here.
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// TODO: this is wrong, we should focus the parent, but idk how to get it considering it's nullptr in most cases.
}
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return w . get ( ) ;
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}
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if ( ! w - > m_bIsX11 ) {
if ( w - > hasPopupAt ( pos ) )
return w . get ( ) ;
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}
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}
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}
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// for windows, we need to check their extensions too, first.
for ( auto & w : m_vWindows ) {
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if ( ! w - > m_bIsX11 & & ! w - > m_bIsFloating & & w - > m_bIsMapped & & w - > m_iWorkspaceID = = PMONITOR - > activeWorkspace & & ! w - > isHidden ( ) & & ! w - > m_bX11ShouldntFocus & & ! w - > m_bNoFocus ) {
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if ( ( w ) - > hasPopupAt ( pos ) )
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return w . get ( ) ;
}
}
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for ( auto & w : m_vWindows ) {
wlr_box box = { w - > m_vPosition . x , w - > m_vPosition . y , w - > m_vSize . x , w - > m_vSize . y } ;
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if ( ! w - > m_bIsFloating & & w - > m_bIsMapped & & wlr_box_contains_point ( & box , pos . x , pos . y ) & & w - > m_iWorkspaceID = = PMONITOR - > activeWorkspace & & ! w - > isHidden ( ) & &
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! w - > m_bX11ShouldntFocus & & ! w - > m_bNoFocus )
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return w . get ( ) ;
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}
return nullptr ;
}
CWindow * CCompositor : : windowFromCursor ( ) {
const auto PMONITOR = getMonitorFromCursor ( ) ;
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if ( PMONITOR - > specialWorkspaceID ) {
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for ( auto & w : m_vWindows | std : : views : : reverse ) {
wlr_box box = { w - > m_vRealPosition . vec ( ) . x , w - > m_vRealPosition . vec ( ) . y , w - > m_vRealSize . vec ( ) . x , w - > m_vRealSize . vec ( ) . y } ;
if ( w - > m_bIsFloating & & w - > m_iWorkspaceID = = PMONITOR - > specialWorkspaceID & & w - > m_bIsMapped & & wlr_box_contains_point ( & box , m_sWLRCursor - > x , m_sWLRCursor - > y ) & &
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! w - > isHidden ( ) & & ! w - > m_bNoFocus )
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return w . get ( ) ;
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}
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for ( auto & w : m_vWindows ) {
wlr_box box = { w - > m_vPosition . x , w - > m_vPosition . y , w - > m_vSize . x , w - > m_vSize . y } ;
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if ( w - > m_iWorkspaceID = = PMONITOR - > specialWorkspaceID & & wlr_box_contains_point ( & box , m_sWLRCursor - > x , m_sWLRCursor - > y ) & & w - > m_bIsMapped & & ! w - > m_bNoFocus )
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return w . get ( ) ;
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}
}
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// pinned
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for ( auto & w : m_vWindows | std : : views : : reverse ) {
wlr_box box = { w - > m_vRealPosition . vec ( ) . x , w - > m_vRealPosition . vec ( ) . y , w - > m_vRealSize . vec ( ) . x , w - > m_vRealSize . vec ( ) . y } ;
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if ( wlr_box_contains_point ( & box , m_sWLRCursor - > x , m_sWLRCursor - > y ) & & w - > m_bIsMapped & & w - > m_bIsFloating & & w - > m_bPinned & & ! w - > m_bNoFocus )
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return w . get ( ) ;
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}
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// first loop over floating cuz they're above, m_lWindows should be sorted bottom->top, for tiled it doesn't matter.
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for ( auto & w : m_vWindows | std : : views : : reverse ) {
wlr_box box = { w - > m_vRealPosition . vec ( ) . x , w - > m_vRealPosition . vec ( ) . y , w - > m_vRealSize . vec ( ) . x , w - > m_vRealSize . vec ( ) . y } ;
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if ( wlr_box_contains_point ( & box , m_sWLRCursor - > x , m_sWLRCursor - > y ) & & w - > m_bIsMapped & & w - > m_bIsFloating & & isWorkspaceVisible ( w - > m_iWorkspaceID ) & & ! w - > m_bPinned & &
! w - > m_bNoFocus )
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return w . get ( ) ;
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}
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for ( auto & w : m_vWindows ) {
wlr_box box = { w - > m_vPosition . x , w - > m_vPosition . y , w - > m_vSize . x , w - > m_vSize . y } ;
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if ( wlr_box_contains_point ( & box , m_sWLRCursor - > x , m_sWLRCursor - > y ) & & w - > m_bIsMapped & & w - > m_iWorkspaceID = = PMONITOR - > activeWorkspace & & ! w - > m_bNoFocus )
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return w . get ( ) ;
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}
return nullptr ;
}
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CWindow * CCompositor : : windowFloatingFromCursor ( ) {
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for ( auto & w : m_vWindows | std : : views : : reverse ) {
wlr_box box = { w - > m_vRealPosition . vec ( ) . x , w - > m_vRealPosition . vec ( ) . y , w - > m_vRealSize . vec ( ) . x , w - > m_vRealSize . vec ( ) . y } ;
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if ( wlr_box_contains_point ( & box , m_sWLRCursor - > x , m_sWLRCursor - > y ) & & w - > m_bIsMapped & & w - > m_bIsFloating & & ! w - > isHidden ( ) & & w - > m_bPinned & & ! w - > m_bNoFocus )
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return w . get ( ) ;
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}
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for ( auto & w : m_vWindows | std : : views : : reverse ) {
wlr_box box = { w - > m_vRealPosition . vec ( ) . x , w - > m_vRealPosition . vec ( ) . y , w - > m_vRealSize . vec ( ) . x , w - > m_vRealSize . vec ( ) . y } ;
if ( wlr_box_contains_point ( & box , m_sWLRCursor - > x , m_sWLRCursor - > y ) & & w - > m_bIsMapped & & w - > m_bIsFloating & & isWorkspaceVisible ( w - > m_iWorkspaceID ) & & ! w - > isHidden ( ) & &
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! w - > m_bPinned & & ! w - > m_bNoFocus )
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return w . get ( ) ;
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}
return nullptr ;
}
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wlr_surface * CCompositor : : vectorWindowToSurface ( const Vector2D & pos , CWindow * pWindow , Vector2D & sl ) {
if ( ! windowValidMapped ( pWindow ) )
return nullptr ;
RASSERT ( ! pWindow - > m_bIsX11 , " Cannot call vectorWindowToSurface on an X11 window! " ) ;
const auto PSURFACE = pWindow - > m_uSurface . xdg ;
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double subx , suby ;
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// calc for oversized windows... fucking bullshit, again.
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wlr_box geom ;
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wlr_xdg_surface_get_geometry ( pWindow - > m_uSurface . xdg , & geom ) ;
const auto PFOUND = wlr_xdg_surface_surface_at ( PSURFACE , pos . x - pWindow - > m_vRealPosition . vec ( ) . x + geom . x , pos . y - pWindow - > m_vRealPosition . vec ( ) . y + geom . y , & subx , & suby ) ;
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if ( PFOUND ) {
sl . x = subx ;
sl . y = suby ;
return PFOUND ;
}
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sl . x = pos . x - pWindow - > m_vRealPosition . vec ( ) . x ;
sl . y = pos . y - pWindow - > m_vRealPosition . vec ( ) . y ;
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sl . x + = geom . x ;
sl . y + = geom . y ;
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return PSURFACE - > surface ;
}
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Vector2D CCompositor : : vectorToSurfaceLocal ( const Vector2D & vec , CWindow * pWindow , wlr_surface * pSurface ) {
if ( ! windowValidMapped ( pWindow ) )
return { } ;
if ( pWindow - > m_bIsX11 )
return vec - pWindow - > m_vRealPosition . goalv ( ) ;
const auto PSURFACE = pWindow - > m_uSurface . xdg ;
std : : tuple < wlr_surface * , int , int > iterData = { pSurface , - 1337 , - 1337 } ;
wlr_xdg_surface_for_each_surface (
PSURFACE ,
[ ] ( wlr_surface * surf , int x , int y , void * data ) {
const auto PDATA = ( std : : tuple < wlr_surface * , int , int > * ) data ;
if ( surf = = std : : get < 0 > ( * PDATA ) ) {
std : : get < 1 > ( * PDATA ) = x ;
std : : get < 2 > ( * PDATA ) = y ;
}
} ,
& iterData ) ;
if ( std : : get < 1 > ( iterData ) = = - 1337 & & std : : get < 2 > ( iterData ) = = - 1337 )
return vec - pWindow - > m_vRealPosition . goalv ( ) ;
return vec - pWindow - > m_vRealPosition . goalv ( ) - Vector2D { std : : get < 1 > ( iterData ) , std : : get < 2 > ( iterData ) } ;
}
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CMonitor * CCompositor : : getMonitorFromOutput ( wlr_output * out ) {
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for ( auto & m : m_vMonitors ) {
if ( m - > output = = out ) {
return m . get ( ) ;
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}
}
return nullptr ;
}
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void CCompositor : : focusWindow ( CWindow * pWindow , wlr_surface * pSurface ) {
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if ( g_pCompositor - > m_sSeat . exclusiveClient ) {
Debug : : log ( LOG , " Disallowing setting focus to a window due to there being an active input inhibitor layer. " ) ;
return ;
}
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g_pLayoutManager - > getCurrentLayout ( ) - > bringWindowToTop ( pWindow ) ;
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if ( ! pWindow | | ! windowValidMapped ( pWindow ) ) {
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if ( ! m_pLastWindow & & ! pWindow )
return ;
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const auto PLASTWINDOW = m_pLastWindow ;
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m_pLastWindow = nullptr ;
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if ( windowValidMapped ( PLASTWINDOW ) ) {
updateWindowAnimatedDecorationValues ( PLASTWINDOW ) ;
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g_pXWaylandManager - > activateWindow ( PLASTWINDOW , false ) ;
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if ( PLASTWINDOW - > m_phForeignToplevel )
wlr_foreign_toplevel_handle_v1_set_activated ( PLASTWINDOW - > m_phForeignToplevel , false ) ;
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}
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wlr_seat_keyboard_notify_clear_focus ( m_sSeat . seat ) ;
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g_pEventManager - > postEvent ( SHyprIPCEvent { " activewindow " , " , " } ) ;
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g_pEventManager - > postEvent ( SHyprIPCEvent { " activewindowv2 " , " , " } ) ;
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EMIT_HOOK_EVENT ( " activeWindow " , ( CWindow * ) nullptr ) ;
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g_pLayoutManager - > getCurrentLayout ( ) - > onWindowFocusChange ( nullptr ) ;
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m_pLastFocus = nullptr ;
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g_pInputManager - > recheckIdleInhibitorStatus ( ) ;
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return ;
}
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if ( pWindow - > m_bNoFocus ) {
Debug : : log ( LOG , " Ignoring focus to nofocus window! " ) ;
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return ;
}
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if ( m_pLastWindow = = pWindow & & m_sSeat . seat - > keyboard_state . focused_surface = = pSurface )
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return ;
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if ( pWindow - > m_bPinned )
pWindow - > m_iWorkspaceID = m_pLastMonitor - > activeWorkspace ;
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if ( ! isWorkspaceVisible ( pWindow - > m_iWorkspaceID ) ) {
// This is to fix incorrect feedback on the focus history.
const auto PWORKSPACE = getWorkspaceByID ( pWindow - > m_iWorkspaceID ) ;
PWORKSPACE - > m_pLastFocusedWindow = pWindow ;
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PWORKSPACE - > rememberPrevWorkspace ( getWorkspaceByID ( m_pLastMonitor - > activeWorkspace ) ) ;
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const auto PMONITOR = getMonitorFromID ( PWORKSPACE - > m_iMonitorID ) ;
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PMONITOR - > changeWorkspace ( PWORKSPACE , false , true ) ;
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// changeworkspace already calls focusWindow
return ;
}
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const auto PLASTWINDOW = m_pLastWindow ;
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m_pLastWindow = pWindow ;
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// we need to make the PLASTWINDOW not equal to m_pLastWindow so that RENDERDATA is correct for an unfocused window
if ( windowValidMapped ( PLASTWINDOW ) ) {
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updateWindowAnimatedDecorationValues ( PLASTWINDOW ) ;
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if ( ! pWindow - > m_bIsX11 | | pWindow - > m_iX11Type = = 1 )
g_pXWaylandManager - > activateWindow ( PLASTWINDOW , false ) ;
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if ( PLASTWINDOW - > m_phForeignToplevel )
wlr_foreign_toplevel_handle_v1_set_activated ( PLASTWINDOW - > m_phForeignToplevel , false ) ;
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}
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m_pLastWindow = PLASTWINDOW ;
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const auto PWINDOWSURFACE = pSurface ? pSurface : pWindow - > m_pWLSurface . wlr ( ) ;
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focusSurface ( PWINDOWSURFACE , pWindow ) ;
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g_pXWaylandManager - > activateWindow ( pWindow , true ) ; // sets the m_pLastWindow
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updateWindowAnimatedDecorationValues ( pWindow ) ;
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if ( pWindow - > m_bIsUrgent )
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pWindow - > m_bIsUrgent = false ;
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// Send an event
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g_pEventManager - > postEvent ( SHyprIPCEvent { " activewindow " , g_pXWaylandManager - > getAppIDClass ( pWindow ) + " , " + pWindow - > m_szTitle } ) ;
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g_pEventManager - > postEvent ( SHyprIPCEvent { " activewindowv2 " , std : : format ( " {:x} " , ( uintptr_t ) pWindow ) } ) ;
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EMIT_HOOK_EVENT ( " activeWindow " , pWindow ) ;
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g_pLayoutManager - > getCurrentLayout ( ) - > onWindowFocusChange ( pWindow ) ;
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// TODO: implement this better
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if ( ! PLASTWINDOW & & pWindow - > m_sGroupData . pNextWindow ) {
for ( auto curr = pWindow - > m_sGroupData . pNextWindow ; curr ! = pWindow ; curr = curr - > m_sGroupData . pNextWindow ) {
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if ( curr - > m_phForeignToplevel )
wlr_foreign_toplevel_handle_v1_set_activated ( curr - > m_phForeignToplevel , false ) ;
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}
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}
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if ( pWindow - > m_phForeignToplevel )
wlr_foreign_toplevel_handle_v1_set_activated ( pWindow - > m_phForeignToplevel , true ) ;
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if ( ! pWindow - > m_bIsX11 ) {
const auto PCONSTRAINT = wlr_pointer_constraints_v1_constraint_for_surface ( m_sWLRPointerConstraints , pWindow - > m_uSurface . xdg - > surface , m_sSeat . seat ) ;
if ( PCONSTRAINT )
g_pInputManager - > constrainMouse ( m_sSeat . mouse , PCONSTRAINT ) ;
}
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g_pInputManager - > recheckIdleInhibitorStatus ( ) ;
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// move to front of the window history
const auto HISTORYPIVOT = std : : find_if ( m_vWindowFocusHistory . begin ( ) , m_vWindowFocusHistory . end ( ) , [ & ] ( const auto & other ) { return other = = pWindow ; } ) ;
if ( HISTORYPIVOT = = m_vWindowFocusHistory . end ( ) ) {
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Debug : : log ( ERR , " BUG THIS: {} has no pivot in history " , pWindow ) ;
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} else {
std : : rotate ( m_vWindowFocusHistory . begin ( ) , HISTORYPIVOT , HISTORYPIVOT + 1 ) ;
}
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}
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void CCompositor : : focusSurface ( wlr_surface * pSurface , CWindow * pWindowOwner ) {
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if ( m_sSeat . seat - > keyboard_state . focused_surface = = pSurface | | ( pWindowOwner & & m_sSeat . seat - > keyboard_state . focused_surface = = pWindowOwner - > m_pWLSurface . wlr ( ) ) )
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return ; // Don't focus when already focused on this.
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if ( g_pSessionLockManager - > isSessionLocked ( ) ) {
wlr_seat_keyboard_clear_focus ( m_sSeat . seat ) ;
m_pLastFocus = nullptr ;
}
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// Unfocus last surface if should
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if ( m_pLastFocus & & ! pWindowOwner )
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g_pXWaylandManager - > activateSurface ( m_pLastFocus , false ) ;
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if ( ! pSurface ) {
wlr_seat_keyboard_clear_focus ( m_sSeat . seat ) ;
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g_pEventManager - > postEvent ( SHyprIPCEvent { " activewindow " , " , " } ) ; // unfocused
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g_pEventManager - > postEvent ( SHyprIPCEvent { " activewindowv2 " , " , " } ) ;
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EMIT_HOOK_EVENT ( " keyboardFocus " , ( wlr_surface * ) nullptr ) ;
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m_pLastFocus = nullptr ;
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return ;
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}
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const auto KEYBOARD = wlr_seat_get_keyboard ( m_sSeat . seat ) ;
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if ( ! KEYBOARD )
return ;
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uint32_t keycodes [ WLR_KEYBOARD_KEYS_CAP ] = { 0 } ; // TODO: maybe send valid, non-keybind codes?
wlr_seat_keyboard_notify_enter ( m_sSeat . seat , pSurface , keycodes , 0 , & KEYBOARD - > modifiers ) ;
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wlr_seat_keyboard_focus_change_event event = {
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. seat = m_sSeat . seat ,
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. old_surface = m_pLastFocus ,
. new_surface = pSurface ,
} ;
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wl_signal_emit_mutable ( & m_sSeat . seat - > keyboard_state . events . focus_change , & event ) ;
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if ( pWindowOwner )
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Debug : : log ( LOG , " Set keyboard focus to surface {:x}, with {} " , ( uintptr_t ) pSurface , pWindowOwner ) ;
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else
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Debug : : log ( LOG , " Set keyboard focus to surface {:x} " , ( uintptr_t ) pSurface ) ;
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g_pXWaylandManager - > activateSurface ( pSurface , true ) ;
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m_pLastFocus = pSurface ;
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EMIT_HOOK_EVENT ( " keyboardFocus " , pSurface ) ;
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}
bool CCompositor : : windowValidMapped ( CWindow * pWindow ) {
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if ( ! pWindow )
return false ;
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if ( ! windowExists ( pWindow ) )
return false ;
if ( pWindow - > m_bIsX11 & & ! pWindow - > m_bMappedX11 )
return false ;
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if ( ! pWindow - > m_bIsMapped )
return false ;
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if ( pWindow - > isHidden ( ) )
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return false ;
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return true ;
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}
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CWindow * CCompositor : : getWindowForPopup ( wlr_xdg_popup * popup ) {
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for ( auto & p : m_vXDGPopups ) {
if ( p - > popup = = popup )
return p - > parentWindow ;
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}
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return nullptr ;
}
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wlr_surface * CCompositor : : vectorToLayerSurface ( const Vector2D & pos , std : : vector < std : : unique_ptr < SLayerSurface > > * layerSurfaces , Vector2D * sCoords ,
SLayerSurface * * ppLayerSurfaceFound ) {
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for ( auto & ls : * layerSurfaces | std : : views : : reverse ) {
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if ( ls - > fadingOut | | ! ls - > layerSurface | | ( ls - > layerSurface & & ! ls - > layerSurface - > surface - > mapped ) | | ls - > alpha . fl ( ) = = 0.f )
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continue ;
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auto SURFACEAT = wlr_layer_surface_v1_surface_at ( ls - > layerSurface , pos . x - ls - > geometry . x , pos . y - ls - > geometry . y , & sCoords - > x , & sCoords - > y ) ;
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if ( ls - > layerSurface - > current . keyboard_interactive & & ls - > layer > = ZWLR_LAYER_SHELL_V1_LAYER_TOP ) {
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if ( ! SURFACEAT )
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SURFACEAT = ls - > layerSurface - > surface ;
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* ppLayerSurfaceFound = ls . get ( ) ;
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return SURFACEAT ;
}
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if ( SURFACEAT ) {
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if ( ! pixman_region32_not_empty ( & SURFACEAT - > input_region ) )
continue ;
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* ppLayerSurfaceFound = ls . get ( ) ;
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return SURFACEAT ;
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}
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}
return nullptr ;
}
CWindow * CCompositor : : getWindowFromSurface ( wlr_surface * pSurface ) {
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for ( auto & w : m_vWindows ) {
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if ( ! w - > m_bIsMapped | | w - > m_bFadingOut | | ! w - > m_bMappedX11 )
continue ;
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if ( w - > m_pWLSurface . wlr ( ) = = pSurface )
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return w . get ( ) ;
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}
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return nullptr ;
}
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CWindow * CCompositor : : getWindowFromHandle ( uint32_t handle ) {
for ( auto & w : m_vWindows ) {
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if ( ( uint32_t ) ( ( ( uint64_t ) w . get ( ) ) & 0xFFFFFFFF ) = = handle ) {
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return w . get ( ) ;
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}
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}
return nullptr ;
}
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CWindow * CCompositor : : getWindowFromZWLRHandle ( wl_resource * handle ) {
for ( auto & w : m_vWindows ) {
if ( ! w - > m_bIsMapped | | w - > isHidden ( ) | | ! w - > m_phForeignToplevel )
continue ;
wl_resource * current ;
wl_list_for_each ( current , & w - > m_phForeignToplevel - > resources , link ) {
if ( current = = handle ) {
return w . get ( ) ;
}
}
}
return nullptr ;
}
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CWindow * CCompositor : : getFullscreenWindowOnWorkspace ( const int & ID ) {
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for ( auto & w : m_vWindows ) {
if ( w - > m_iWorkspaceID = = ID & & w - > m_bIsFullscreen )
return w . get ( ) ;
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}
return nullptr ;
}
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bool CCompositor : : isWorkspaceVisible ( const int & w ) {
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for ( auto & m : m_vMonitors ) {
if ( m - > activeWorkspace = = w )
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return true ;
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if ( m - > specialWorkspaceID = = w )
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return true ;
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}
return false ;
}
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CWorkspace * CCompositor : : getWorkspaceByID ( const int & id ) {
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for ( auto & w : m_vWorkspaces ) {
if ( w - > m_iID = = id )
return w . get ( ) ;
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}
return nullptr ;
}
void CCompositor : : sanityCheckWorkspaces ( ) {
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auto it = m_vWorkspaces . begin ( ) ;
while ( it ! = m_vWorkspaces . end ( ) ) {
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if ( ( * it ) - > m_bIndestructible )
continue ;
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const auto WINDOWSONWORKSPACE = getWindowsOnWorkspace ( ( * it ) - > m_iID ) ;
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if ( ( WINDOWSONWORKSPACE = = 0 & & ! isWorkspaceVisible ( ( * it ) - > m_iID ) ) ) {
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if ( ( * it ) - > m_bIsSpecialWorkspace ) {
if ( ( * it ) - > m_fAlpha . fl ( ) > 0.f /* don't abruptly end the fadeout */ ) {
+ + it ;
continue ;
}
const auto PMONITOR = getMonitorFromID ( ( * it ) - > m_iMonitorID ) ;
if ( PMONITOR & & PMONITOR - > specialWorkspaceID = = ( * it ) - > m_iID )
PMONITOR - > setSpecialWorkspace ( nullptr ) ;
}
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it = m_vWorkspaces . erase ( it ) ;
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continue ;
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}
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+ + it ;
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}
}
int CCompositor : : getWindowsOnWorkspace ( const int & id ) {
int no = 0 ;
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for ( auto & w : m_vWindows ) {
if ( w - > m_iWorkspaceID = = id & & w - > m_bIsMapped )
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no + + ;
}
return no ;
}
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CWindow * CCompositor : : getUrgentWindow ( ) {
for ( auto & w : m_vWindows ) {
if ( w - > m_bIsMapped & & w - > m_bIsUrgent )
return w . get ( ) ;
}
return nullptr ;
}
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bool CCompositor : : hasUrgentWindowOnWorkspace ( const int & id ) {
for ( auto & w : m_vWindows ) {
if ( w - > m_iWorkspaceID = = id & & w - > m_bIsMapped & & w - > m_bIsUrgent )
return true ;
}
return false ;
}
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CWindow * CCompositor : : getFirstWindowOnWorkspace ( const int & id ) {
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for ( auto & w : m_vWindows ) {
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if ( w - > m_iWorkspaceID = = id & & w - > m_bIsMapped & & ! w - > isHidden ( ) )
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return w . get ( ) ;
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}
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return nullptr ;
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}
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CWindow * CCompositor : : getTopLeftWindowOnWorkspace ( const int & id ) {
const auto PWORKSPACE = getWorkspaceByID ( id ) ;
if ( ! PWORKSPACE )
return nullptr ;
const auto PMONITOR = getMonitorFromID ( PWORKSPACE - > m_iMonitorID ) ;
for ( auto & w : m_vWindows ) {
if ( w - > m_iWorkspaceID ! = id | | ! w - > m_bIsMapped | | w - > isHidden ( ) )
continue ;
const auto WINDOWIDEALBB = w - > getWindowIdealBoundingBoxIgnoreReserved ( ) ;
if ( WINDOWIDEALBB . x < = PMONITOR - > vecPosition . x + 1 & & WINDOWIDEALBB . y < = PMONITOR - > vecPosition . y + 1 )
return w . get ( ) ;
}
return nullptr ;
}
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bool CCompositor : : doesSeatAcceptInput ( wlr_surface * surface ) {
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if ( g_pSessionLockManager - > isSessionLocked ( ) ) {
if ( g_pSessionLockManager - > isSurfaceSessionLock ( surface ) )
return true ;
if ( surface & & m_sSeat . exclusiveClient = = wl_resource_get_client ( surface - > resource ) )
return true ;
return false ;
}
if ( m_sSeat . exclusiveClient ) {
if ( surface & & m_sSeat . exclusiveClient = = wl_resource_get_client ( surface - > resource ) )
return true ;
return false ;
}
return true ;
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}
bool CCompositor : : isWindowActive ( CWindow * pWindow ) {
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if ( ! m_pLastWindow & & ! m_pLastFocus )
return false ;
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if ( ! windowValidMapped ( pWindow ) )
return false ;
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const auto PSURFACE = pWindow - > m_pWLSurface . wlr ( ) ;
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return PSURFACE = = m_pLastFocus | | pWindow = = m_pLastWindow ;
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}
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void CCompositor : : changeWindowZOrder ( CWindow * pWindow , bool top ) {
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if ( ! windowValidMapped ( pWindow ) )
return ;
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auto moveToZ = [ & ] ( CWindow * pw , bool top ) - > void {
if ( top ) {
for ( auto it = m_vWindows . begin ( ) ; it ! = m_vWindows . end ( ) ; + + it ) {
if ( it - > get ( ) = = pw ) {
std : : rotate ( it , it + 1 , m_vWindows . end ( ) ) ;
break ;
}
}
} else {
for ( auto it = m_vWindows . rbegin ( ) ; it ! = m_vWindows . rend ( ) ; + + it ) {
if ( it - > get ( ) = = pw ) {
std : : rotate ( it , it + 1 , m_vWindows . rend ( ) ) ;
break ;
}
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}
}
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if ( pw - > m_bIsMapped )
g_pHyprRenderer - > damageMonitor ( getMonitorFromID ( pw - > m_iMonitorID ) ) ;
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} ;
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if ( top )
pWindow - > m_bCreatedOverFullscreen = true ;
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if ( ! pWindow - > m_bIsX11 ) {
moveToZ ( pWindow , top ) ;
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return ;
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} else {
// move X11 window stack
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std : : deque < CWindow * > toMove ;
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auto x11Stack = [ & ] ( CWindow * pw , bool top , auto & & x11Stack ) - > void {
if ( top )
toMove . emplace_back ( pw ) ;
else
toMove . emplace_front ( pw ) ;
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for ( auto & w : m_vWindows ) {
if ( w - > m_bIsMapped & & w - > m_bMappedX11 & & ! w - > isHidden ( ) & & w - > m_bIsX11 & & w - > X11TransientFor ( ) = = pw ) {
x11Stack ( w . get ( ) , top , x11Stack ) ;
}
}
} ;
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x11Stack ( pWindow , top , x11Stack ) ;
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for ( auto it : toMove ) {
moveToZ ( it , top ) ;
}
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}
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}
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void CCompositor : : cleanupFadingOut ( const int & monid ) {
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for ( auto & w : m_vWindowsFadingOut ) {
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if ( w - > m_iMonitorID ! = ( long unsigned int ) monid )
continue ;
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bool valid = windowExists ( w ) ;
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if ( ! valid | | ! w - > m_bFadingOut | | w - > m_fAlpha . fl ( ) = = 0.f ) {
if ( valid & & ! w - > m_bReadyToDelete )
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continue ;
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std : : erase_if ( g_pHyprOpenGL - > m_mWindowFramebuffers , [ & ] ( const auto & other ) { return other . first = = w ; } ) ;
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w - > m_bFadingOut = false ;
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removeWindowFromVectorSafe ( w ) ;
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std : : erase ( m_vWindowsFadingOut , w ) ;
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Debug : : log ( LOG , " Cleanup: destroyed a window " ) ;
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glFlush ( ) ; // to free mem NOW.
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return ;
}
}
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for ( auto & ls : m_vSurfacesFadingOut ) {
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// sometimes somehow fucking happens wtf
bool exists = false ;
for ( auto & m : m_vMonitors ) {
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for ( auto & lsl : m - > m_aLayerSurfaceLayers ) {
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for ( auto & lsp : lsl ) {
if ( lsp . get ( ) = = ls ) {
exists = true ;
break ;
}
}
if ( exists )
break ;
}
if ( exists )
break ;
}
if ( ! exists ) {
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std : : erase ( m_vSurfacesFadingOut , ls ) ;
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Debug : : log ( LOG , " Fading out a non-existent LS?? " ) ;
return ;
}
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if ( ls - > monitorID ! = monid )
continue ;
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// mark blur for recalc
if ( ls - > layer = = ZWLR_LAYER_SHELL_V1_LAYER_BACKGROUND | | ls - > layer = = ZWLR_LAYER_SHELL_V1_LAYER_BOTTOM )
g_pHyprOpenGL - > markBlurDirtyForMonitor ( getMonitorFromID ( monid ) ) ;
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if ( ls - > fadingOut & & ls - > readyToDelete & & ! ls - > alpha . isBeingAnimated ( ) ) {
g_pHyprOpenGL - > m_mLayerFramebuffers [ ls ] . release ( ) ;
g_pHyprOpenGL - > m_mLayerFramebuffers . erase ( ls ) ;
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for ( auto & m : m_vMonitors ) {
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for ( auto & lsl : m - > m_aLayerSurfaceLayers ) {
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if ( ! lsl . empty ( ) & & std : : find_if ( lsl . begin ( ) , lsl . end ( ) , [ & ] ( std : : unique_ptr < SLayerSurface > & other ) { return other . get ( ) = = ls ; } ) ! = lsl . end ( ) ) {
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std : : erase_if ( lsl , [ & ] ( std : : unique_ptr < SLayerSurface > & other ) { return other . get ( ) = = ls ; } ) ;
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}
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}
}
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std : : erase ( m_vSurfacesFadingOut , ls ) ;
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Debug : : log ( LOG , " Cleanup: destroyed a layersurface " ) ;
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glFlush ( ) ; // to free mem NOW.
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return ;
}
}
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}
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void CCompositor : : addToFadingOutSafe ( SLayerSurface * pLS ) {
const auto FOUND = std : : find_if ( m_vSurfacesFadingOut . begin ( ) , m_vSurfacesFadingOut . end ( ) , [ & ] ( SLayerSurface * other ) { return other = = pLS ; } ) ;
if ( FOUND ! = m_vSurfacesFadingOut . end ( ) )
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return ; // if it's already added, don't add it.
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m_vSurfacesFadingOut . emplace_back ( pLS ) ;
}
void CCompositor : : addToFadingOutSafe ( CWindow * pWindow ) {
const auto FOUND = std : : find_if ( m_vWindowsFadingOut . begin ( ) , m_vWindowsFadingOut . end ( ) , [ & ] ( CWindow * other ) { return other = = pWindow ; } ) ;
if ( FOUND ! = m_vWindowsFadingOut . end ( ) )
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return ; // if it's already added, don't add it.
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m_vWindowsFadingOut . emplace_back ( pWindow ) ;
}
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CWindow * CCompositor : : getWindowInDirection ( CWindow * pWindow , char dir ) {
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// 0 -> history, 1 -> shared length
static auto * const PMETHOD = & g_pConfigManager - > getConfigValuePtr ( " binds:focus_preferred_method " ) - > intValue ;
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const auto WINDOWIDEALBB = pWindow - > getWindowIdealBoundingBoxIgnoreReserved ( ) ;
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const auto POSA = Vector2D ( WINDOWIDEALBB . x , WINDOWIDEALBB . y ) ;
const auto SIZEA = Vector2D ( WINDOWIDEALBB . width , WINDOWIDEALBB . height ) ;
auto leaderValue = - 1 ;
CWindow * leaderWindow = nullptr ;
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for ( auto & w : m_vWindows ) {
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if ( w . get ( ) = = pWindow | | ! w - > m_bIsMapped | | w - > isHidden ( ) | | w - > m_bIsFloating | | ! isWorkspaceVisible ( w - > m_iWorkspaceID ) )
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continue ;
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const auto PWORKSPACE = g_pCompositor - > getWorkspaceByID ( w - > m_iWorkspaceID ) ;
if ( PWORKSPACE - > m_bHasFullscreenWindow & & ! w - > m_bIsFullscreen & & ! w - > m_bCreatedOverFullscreen )
continue ;
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const auto BWINDOWIDEALBB = w - > getWindowIdealBoundingBoxIgnoreReserved ( ) ;
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const auto POSB = Vector2D ( BWINDOWIDEALBB . x , BWINDOWIDEALBB . y ) ;
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const auto SIZEB = Vector2D ( BWINDOWIDEALBB . width , BWINDOWIDEALBB . height ) ;
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double intersectLength = - 1 ;
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switch ( dir ) {
case ' l ' :
if ( STICKS ( POSA . x , POSB . x + SIZEB . x ) ) {
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intersectLength = std : : max ( 0.0 , std : : min ( POSA . y + SIZEA . y , POSB . y + SIZEB . y ) - std : : max ( POSA . y , POSB . y ) ) ;
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}
break ;
case ' r ' :
if ( STICKS ( POSA . x + SIZEA . x , POSB . x ) ) {
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intersectLength = std : : max ( 0.0 , std : : min ( POSA . y + SIZEA . y , POSB . y + SIZEB . y ) - std : : max ( POSA . y , POSB . y ) ) ;
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}
break ;
case ' t ' :
case ' u ' :
if ( STICKS ( POSA . y , POSB . y + SIZEB . y ) ) {
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intersectLength = std : : max ( 0.0 , std : : min ( POSA . x + SIZEA . x , POSB . x + SIZEB . x ) - std : : max ( POSA . x , POSB . x ) ) ;
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}
break ;
case ' b ' :
case ' d ' :
if ( STICKS ( POSA . y + SIZEA . y , POSB . y ) ) {
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intersectLength = std : : max ( 0.0 , std : : min ( POSA . x + SIZEA . x , POSB . x + SIZEB . x ) - std : : max ( POSA . x , POSB . x ) ) ;
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}
break ;
}
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if ( * PMETHOD = = 0 /* history */ ) {
if ( intersectLength > 0 ) {
// get idx
int windowIDX = - 1 ;
for ( size_t i = 0 ; i < g_pCompositor - > m_vWindowFocusHistory . size ( ) ; + + i ) {
if ( g_pCompositor - > m_vWindowFocusHistory [ i ] = = w . get ( ) ) {
windowIDX = i ;
break ;
}
}
windowIDX = g_pCompositor - > m_vWindowFocusHistory . size ( ) - windowIDX ;
if ( windowIDX > leaderValue ) {
leaderValue = windowIDX ;
leaderWindow = w . get ( ) ;
}
}
} else /* length */ {
if ( intersectLength > leaderValue ) {
leaderValue = intersectLength ;
leaderWindow = w . get ( ) ;
}
}
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}
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if ( leaderValue ! = - 1 )
return leaderWindow ;
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return nullptr ;
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}
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CWindow * CCompositor : : getNextWindowOnWorkspace ( CWindow * pWindow , bool focusableOnly ) {
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bool gotToWindow = false ;
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for ( auto & w : m_vWindows ) {
if ( w . get ( ) ! = pWindow & & ! gotToWindow )
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continue ;
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if ( w . get ( ) = = pWindow ) {
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gotToWindow = true ;
continue ;
}
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if ( w - > m_iWorkspaceID = = pWindow - > m_iWorkspaceID & & w - > m_bIsMapped & & ! w - > isHidden ( ) & & ( ! focusableOnly | | ! w - > m_bNoFocus ) )
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return w . get ( ) ;
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}
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for ( auto & w : m_vWindows ) {
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if ( w . get ( ) ! = pWindow & & w - > m_iWorkspaceID = = pWindow - > m_iWorkspaceID & & w - > m_bIsMapped & & ! w - > isHidden ( ) & & ( ! focusableOnly | | ! w - > m_bNoFocus ) )
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return w . get ( ) ;
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}
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return nullptr ;
}
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CWindow * CCompositor : : getPrevWindowOnWorkspace ( CWindow * pWindow , bool focusableOnly ) {
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bool gotToWindow = false ;
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for ( auto & w : m_vWindows | std : : views : : reverse ) {
if ( w . get ( ) ! = pWindow & & ! gotToWindow )
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continue ;
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if ( w . get ( ) = = pWindow ) {
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gotToWindow = true ;
continue ;
}
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if ( w - > m_iWorkspaceID = = pWindow - > m_iWorkspaceID & & w - > m_bIsMapped & & ! w - > isHidden ( ) & & ( ! focusableOnly | | ! w - > m_bNoFocus ) )
return w . get ( ) ;
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}
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for ( auto & w : m_vWindows | std : : views : : reverse ) {
if ( w . get ( ) ! = pWindow & & w - > m_iWorkspaceID = = pWindow - > m_iWorkspaceID & & w - > m_bIsMapped & & ! w - > isHidden ( ) & & ( ! focusableOnly | | ! w - > m_bNoFocus ) )
return w . get ( ) ;
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}
return nullptr ;
}
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int CCompositor : : getNextAvailableNamedWorkspace ( ) {
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int lowest = - 1337 + 1 ;
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for ( auto & w : m_vWorkspaces ) {
if ( w - > m_iID < - 1 & & w - > m_iID < lowest )
lowest = w - > m_iID ;
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}
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return lowest - 1 ;
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}
CWorkspace * CCompositor : : getWorkspaceByName ( const std : : string & name ) {
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for ( auto & w : m_vWorkspaces ) {
if ( w - > m_szName = = name )
return w . get ( ) ;
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}
return nullptr ;
}
CWorkspace * CCompositor : : getWorkspaceByString ( const std : : string & str ) {
if ( str . find ( " name: " ) = = 0 ) {
return getWorkspaceByName ( str . substr ( str . find_first_of ( ' : ' ) + 1 ) ) ;
}
try {
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std : : string name = " " ;
return getWorkspaceByID ( getWorkspaceIDFromString ( str , name ) ) ;
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} catch ( std : : exception & e ) { Debug : : log ( ERR , " Error in getWorkspaceByString, invalid id " ) ; }
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return nullptr ;
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}
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bool CCompositor : : isPointOnAnyMonitor ( const Vector2D & point ) {
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for ( auto & m : m_vMonitors ) {
if ( VECINRECT ( point , m - > vecPosition . x , m - > vecPosition . y , m - > vecSize . x + m - > vecPosition . x , m - > vecSize . y + m - > vecPosition . y ) )
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return true ;
}
return false ;
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}
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void checkFocusSurfaceIter ( wlr_surface * pSurface , int x , int y , void * data ) {
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auto pair = ( std : : pair < wlr_surface * , bool > * ) data ;
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pair - > second = pair - > second | | pSurface = = pair - > first ;
}
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CWindow * CCompositor : : getConstraintWindow ( SMouse * pMouse ) {
if ( ! pMouse - > currentConstraint )
return nullptr ;
const auto PSURFACE = pMouse - > currentConstraint - > surface ;
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for ( auto & w : m_vWindows ) {
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if ( w - > isHidden ( ) | | ! w - > m_bMappedX11 | | ! w - > m_bIsMapped | | ! w - > m_pWLSurface . exists ( ) )
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continue ;
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if ( w - > m_bIsX11 ) {
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if ( PSURFACE = = w - > m_pWLSurface . wlr ( ) )
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return w . get ( ) ;
} else {
std : : pair < wlr_surface * , bool > check = { PSURFACE , false } ;
wlr_surface_for_each_surface ( w - > m_uSurface . xdg - > surface , checkFocusSurfaceIter , & check ) ;
if ( check . second )
return w . get ( ) ;
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}
}
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return nullptr ;
}
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CMonitor * CCompositor : : getMonitorInDirection ( const char & dir ) {
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const auto POSA = m_pLastMonitor - > vecPosition ;
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const auto SIZEA = m_pLastMonitor - > vecSize ;
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auto longestIntersect = - 1 ;
CMonitor * longestIntersectMonitor = nullptr ;
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for ( auto & m : m_vMonitors ) {
if ( m . get ( ) = = m_pLastMonitor )
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continue ;
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const auto POSB = m - > vecPosition ;
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const auto SIZEB = m - > vecSize ;
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switch ( dir ) {
case ' l ' :
if ( STICKS ( POSA . x , POSB . x + SIZEB . x ) ) {
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const auto INTERSECTLEN = std : : max ( 0.0 , std : : min ( POSA . y + SIZEA . y , POSB . y + SIZEB . y ) - std : : max ( POSA . y , POSB . y ) ) ;
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if ( INTERSECTLEN > longestIntersect ) {
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longestIntersect = INTERSECTLEN ;
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longestIntersectMonitor = m . get ( ) ;
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}
}
break ;
case ' r ' :
if ( STICKS ( POSA . x + SIZEA . x , POSB . x ) ) {
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const auto INTERSECTLEN = std : : max ( 0.0 , std : : min ( POSA . y + SIZEA . y , POSB . y + SIZEB . y ) - std : : max ( POSA . y , POSB . y ) ) ;
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if ( INTERSECTLEN > longestIntersect ) {
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longestIntersect = INTERSECTLEN ;
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longestIntersectMonitor = m . get ( ) ;
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}
}
break ;
case ' t ' :
case ' u ' :
if ( STICKS ( POSA . y , POSB . y + SIZEB . y ) ) {
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const auto INTERSECTLEN = std : : max ( 0.0 , std : : min ( POSA . x + SIZEA . x , POSB . x + SIZEB . x ) - std : : max ( POSA . x , POSB . x ) ) ;
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if ( INTERSECTLEN > longestIntersect ) {
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longestIntersect = INTERSECTLEN ;
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longestIntersectMonitor = m . get ( ) ;
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}
}
break ;
case ' b ' :
case ' d ' :
if ( STICKS ( POSA . y + SIZEA . y , POSB . y ) ) {
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const auto INTERSECTLEN = std : : max ( 0.0 , std : : min ( POSA . x + SIZEA . x , POSB . x + SIZEB . x ) - std : : max ( POSA . x , POSB . x ) ) ;
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if ( INTERSECTLEN > longestIntersect ) {
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longestIntersect = INTERSECTLEN ;
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longestIntersectMonitor = m . get ( ) ;
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}
}
break ;
}
}
if ( longestIntersect ! = - 1 )
return longestIntersectMonitor ;
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return nullptr ;
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}
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void CCompositor : : updateAllWindowsAnimatedDecorationValues ( ) {
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for ( auto & w : m_vWindows ) {
if ( ! w - > m_bIsMapped )
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continue ;
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updateWindowAnimatedDecorationValues ( w . get ( ) ) ;
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}
}
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void CCompositor : : updateWindowAnimatedDecorationValues ( CWindow * pWindow ) {
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// optimization
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static auto * const ACTIVECOL = ( CGradientValueData * ) g_pConfigManager - > getConfigValuePtr ( " general:col.active_border " ) - > data . get ( ) ;
static auto * const INACTIVECOL = ( CGradientValueData * ) g_pConfigManager - > getConfigValuePtr ( " general:col.inactive_border " ) - > data . get ( ) ;
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static auto * const NOGROUPACTIVECOL = ( CGradientValueData * ) g_pConfigManager - > getConfigValuePtr ( " general:col.nogroup_border_active " ) - > data . get ( ) ;
static auto * const NOGROUPINACTIVECOL = ( CGradientValueData * ) g_pConfigManager - > getConfigValuePtr ( " general:col.nogroup_border " ) - > data . get ( ) ;
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static auto * const GROUPACTIVECOL = ( CGradientValueData * ) g_pConfigManager - > getConfigValuePtr ( " general:col.group_border_active " ) - > data . get ( ) ;
static auto * const GROUPINACTIVECOL = ( CGradientValueData * ) g_pConfigManager - > getConfigValuePtr ( " general:col.group_border " ) - > data . get ( ) ;
static auto * const GROUPACTIVELOCKEDCOL = ( CGradientValueData * ) g_pConfigManager - > getConfigValuePtr ( " general:col.group_border_locked_active " ) - > data . get ( ) ;
static auto * const GROUPINACTIVELOCKEDCOL = ( CGradientValueData * ) g_pConfigManager - > getConfigValuePtr ( " general:col.group_border_locked " ) - > data . get ( ) ;
static auto * const PINACTIVEALPHA = & g_pConfigManager - > getConfigValuePtr ( " decoration:inactive_opacity " ) - > floatValue ;
static auto * const PACTIVEALPHA = & g_pConfigManager - > getConfigValuePtr ( " decoration:active_opacity " ) - > floatValue ;
static auto * const PFULLSCREENALPHA = & g_pConfigManager - > getConfigValuePtr ( " decoration:fullscreen_opacity " ) - > floatValue ;
static auto * const PSHADOWCOL = & g_pConfigManager - > getConfigValuePtr ( " decoration:col.shadow " ) - > intValue ;
static auto * const PSHADOWCOLINACTIVE = & g_pConfigManager - > getConfigValuePtr ( " decoration:col.shadow_inactive " ) - > intValue ;
static auto * const PDIMSTRENGTH = & g_pConfigManager - > getConfigValuePtr ( " decoration:dim_strength " ) - > floatValue ;
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static auto * const PDIMENABLED = & g_pConfigManager - > getConfigValuePtr ( " decoration:dim_inactive " ) - > intValue ;
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auto setBorderColor = [ & ] ( CGradientValueData grad ) - > void {
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if ( grad = = pWindow - > m_cRealBorderColor )
return ;
pWindow - > m_cRealBorderColorPrevious = pWindow - > m_cRealBorderColor ;
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pWindow - > m_cRealBorderColor = grad ;
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pWindow - > m_fBorderFadeAnimationProgress . setValueAndWarp ( 0.f ) ;
pWindow - > m_fBorderFadeAnimationProgress = 1.f ;
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} ;
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// border
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const auto RENDERDATA = g_pLayoutManager - > getCurrentLayout ( ) - > requestRenderHints ( pWindow ) ;
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if ( RENDERDATA . isBorderGradient )
setBorderColor ( * RENDERDATA . borderGradient ) ;
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else {
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const bool GROUPLOCKED = pWindow - > m_sGroupData . pNextWindow ? pWindow - > getGroupHead ( ) - > m_sGroupData . locked : false ;
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if ( pWindow = = m_pLastWindow ) {
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const auto * const ACTIVECOLOR =
! pWindow - > m_sGroupData . pNextWindow ? ( ! pWindow - > m_sGroupData . deny ? ACTIVECOL : NOGROUPACTIVECOL ) : ( GROUPLOCKED ? GROUPACTIVELOCKEDCOL : GROUPACTIVECOL ) ;
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setBorderColor ( pWindow - > m_sSpecialRenderData . activeBorderColor . toUnderlying ( ) > = 0 ?
CGradientValueData ( CColor ( pWindow - > m_sSpecialRenderData . activeBorderColor . toUnderlying ( ) ) ) :
* ACTIVECOLOR ) ;
} else {
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const auto * const INACTIVECOLOR =
! pWindow - > m_sGroupData . pNextWindow ? ( ! pWindow - > m_sGroupData . deny ? INACTIVECOL : NOGROUPINACTIVECOL ) : ( GROUPLOCKED ? GROUPINACTIVELOCKEDCOL : GROUPINACTIVECOL ) ;
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setBorderColor ( pWindow - > m_sSpecialRenderData . inactiveBorderColor . toUnderlying ( ) > = 0 ?
CGradientValueData ( CColor ( pWindow - > m_sSpecialRenderData . inactiveBorderColor . toUnderlying ( ) ) ) :
* INACTIVECOLOR ) ;
}
}
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// tick angle if it's not running (aka dead)
if ( ! pWindow - > m_fBorderAngleAnimationProgress . isBeingAnimated ( ) )
pWindow - > m_fBorderAngleAnimationProgress . setValueAndWarp ( 0.f ) ;
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// opacity
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const auto PWORKSPACE = g_pCompositor - > getWorkspaceByID ( pWindow - > m_iWorkspaceID ) ;
if ( pWindow - > m_bIsFullscreen & & PWORKSPACE - > m_efFullscreenMode = = FULLSCREEN_FULL ) {
pWindow - > m_fActiveInactiveAlpha = * PFULLSCREENALPHA ;
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} else {
if ( pWindow = = m_pLastWindow )
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pWindow - > m_fActiveInactiveAlpha = pWindow - > m_sSpecialRenderData . alphaOverride . toUnderlying ( ) ? pWindow - > m_sSpecialRenderData . alpha . toUnderlying ( ) :
pWindow - > m_sSpecialRenderData . alpha . toUnderlying ( ) * * PACTIVEALPHA ;
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else
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pWindow - > m_fActiveInactiveAlpha = pWindow - > m_sSpecialRenderData . alphaInactive . toUnderlying ( ) ! = - 1 ?
( pWindow - > m_sSpecialRenderData . alphaInactiveOverride . toUnderlying ( ) ? pWindow - > m_sSpecialRenderData . alphaInactive . toUnderlying ( ) :
pWindow - > m_sSpecialRenderData . alphaInactive . toUnderlying ( ) * * PINACTIVEALPHA ) :
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* PINACTIVEALPHA ;
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}
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// dim
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if ( pWindow = = m_pLastWindow | | pWindow - > m_sAdditionalConfigData . forceNoDim | | ! * PDIMENABLED ) {
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pWindow - > m_fDimPercent = 0 ;
} else {
pWindow - > m_fDimPercent = * PDIMSTRENGTH ;
}
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// shadow
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if ( pWindow - > m_iX11Type ! = 2 & & ! pWindow - > m_bX11DoesntWantBorders ) {
if ( pWindow = = m_pLastWindow ) {
pWindow - > m_cRealShadowColor = CColor ( * PSHADOWCOL ) ;
} else {
pWindow - > m_cRealShadowColor = CColor ( * PSHADOWCOLINACTIVE ! = INT_MAX ? * PSHADOWCOLINACTIVE : * PSHADOWCOL ) ;
}
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} else {
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pWindow - > m_cRealShadowColor . setValueAndWarp ( CColor ( 0 , 0 , 0 , 0 ) ) ; // no shadow
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}
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for ( auto & d : pWindow - > m_dWindowDecorations )
d - > updateWindow ( pWindow ) ;
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}
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int CCompositor : : getNextAvailableMonitorID ( std : : string const & name ) {
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// reuse ID if it's already in the map, and the monitor with that ID is not being used by another monitor
if ( m_mMonitorIDMap . contains ( name ) & & ! std : : any_of ( m_vRealMonitors . begin ( ) , m_vRealMonitors . end ( ) , [ & ] ( auto m ) { return m - > ID = = m_mMonitorIDMap [ name ] ; } ) )
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return m_mMonitorIDMap [ name ] ;
// otherwise, find minimum available ID that is not in the map
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std : : unordered_set < uint64_t > usedIDs ;
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for ( auto const & monitor : m_vRealMonitors ) {
usedIDs . insert ( monitor - > ID ) ;
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}
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uint64_t nextID = 0 ;
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while ( usedIDs . count ( nextID ) > 0 ) {
nextID + + ;
}
m_mMonitorIDMap [ name ] = nextID ;
return nextID ;
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}
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void CCompositor : : swapActiveWorkspaces ( CMonitor * pMonitorA , CMonitor * pMonitorB ) {
const auto PWORKSPACEA = g_pCompositor - > getWorkspaceByID ( pMonitorA - > activeWorkspace ) ;
const auto PWORKSPACEB = g_pCompositor - > getWorkspaceByID ( pMonitorB - > activeWorkspace ) ;
PWORKSPACEA - > m_iMonitorID = pMonitorB - > ID ;
PWORKSPACEA - > moveToMonitor ( pMonitorB - > ID ) ;
for ( auto & w : m_vWindows ) {
if ( w - > m_iWorkspaceID = = PWORKSPACEA - > m_iID ) {
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if ( w - > m_bPinned ) {
w - > m_iWorkspaceID = PWORKSPACEB - > m_iID ;
continue ;
}
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w - > m_iMonitorID = pMonitorB - > ID ;
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// additionally, move floating and fs windows manually
if ( w - > m_bIsFloating )
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w - > m_vRealPosition = w - > m_vRealPosition . vec ( ) - pMonitorA - > vecPosition + pMonitorB - > vecPosition ;
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if ( w - > m_bIsFullscreen ) {
w - > m_vRealPosition = pMonitorB - > vecPosition ;
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w - > m_vRealSize = pMonitorB - > vecSize ;
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}
w - > updateToplevel ( ) ;
}
}
PWORKSPACEB - > m_iMonitorID = pMonitorA - > ID ;
PWORKSPACEB - > moveToMonitor ( pMonitorA - > ID ) ;
for ( auto & w : m_vWindows ) {
if ( w - > m_iWorkspaceID = = PWORKSPACEB - > m_iID ) {
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if ( w - > m_bPinned ) {
w - > m_iWorkspaceID = PWORKSPACEA - > m_iID ;
continue ;
}
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w - > m_iMonitorID = pMonitorA - > ID ;
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// additionally, move floating and fs windows manually
if ( w - > m_bIsFloating )
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w - > m_vRealPosition = w - > m_vRealPosition . vec ( ) - pMonitorB - > vecPosition + pMonitorA - > vecPosition ;
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if ( w - > m_bIsFullscreen ) {
w - > m_vRealPosition = pMonitorA - > vecPosition ;
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w - > m_vRealSize = pMonitorA - > vecSize ;
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}
w - > updateToplevel ( ) ;
}
}
pMonitorA - > activeWorkspace = PWORKSPACEB - > m_iID ;
pMonitorB - > activeWorkspace = PWORKSPACEA - > m_iID ;
g_pLayoutManager - > getCurrentLayout ( ) - > recalculateMonitor ( pMonitorA - > ID ) ;
g_pLayoutManager - > getCurrentLayout ( ) - > recalculateMonitor ( pMonitorB - > ID ) ;
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updateFullscreenFadeOnWorkspace ( PWORKSPACEB ) ;
updateFullscreenFadeOnWorkspace ( PWORKSPACEA ) ;
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g_pInputManager - > simulateMouseMovement ( ) ;
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// event
g_pEventManager - > postEvent ( SHyprIPCEvent { " moveworkspace " , PWORKSPACEA - > m_szName + " , " + pMonitorB - > szName } ) ;
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EMIT_HOOK_EVENT ( " moveWorkspace " , ( std : : vector < void * > { PWORKSPACEA , pMonitorB } ) ) ;
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g_pEventManager - > postEvent ( SHyprIPCEvent { " moveworkspace " , PWORKSPACEB - > m_szName + " , " + pMonitorA - > szName } ) ;
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EMIT_HOOK_EVENT ( " moveWorkspace " , ( std : : vector < void * > { PWORKSPACEB , pMonitorA } ) ) ;
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}
CMonitor * CCompositor : : getMonitorFromString ( const std : : string & name ) {
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if ( name [ 0 ] = = ' + ' | | name [ 0 ] = = ' - ' ) {
// relative
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if ( m_vMonitors . size ( ) = = 1 )
return m_vMonitors . begin ( ) - > get ( ) ;
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const auto OFFSET = name [ 0 ] = = ' - ' ? name : name . substr ( 1 ) ;
if ( ! isNumber ( OFFSET ) ) {
Debug : : log ( ERR , " Error in getMonitorFromString: Not a number in relative. " ) ;
return nullptr ;
}
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int offsetLeft = std : : stoi ( OFFSET ) ;
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offsetLeft = offsetLeft < 0 ? - ( ( - offsetLeft ) % m_vMonitors . size ( ) ) : offsetLeft % m_vMonitors . size ( ) ;
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int currentPlace = 0 ;
for ( int i = 0 ; i < ( int ) m_vMonitors . size ( ) ; i + + ) {
if ( m_vMonitors [ i ] . get ( ) = = m_pLastMonitor ) {
currentPlace = i ;
break ;
}
}
currentPlace + = offsetLeft ;
if ( currentPlace < 0 ) {
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currentPlace = m_vMonitors . size ( ) + currentPlace ;
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} else {
currentPlace = currentPlace % m_vMonitors . size ( ) ;
}
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if ( currentPlace ! = std : : clamp ( currentPlace , 0 , ( int ) m_vMonitors . size ( ) - 1 ) ) {
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Debug : : log ( WARN , " Error in getMonitorFromString: Vaxry's code sucks. " ) ;
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currentPlace = std : : clamp ( currentPlace , 0 , ( int ) m_vMonitors . size ( ) - 1 ) ;
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}
return m_vMonitors [ currentPlace ] . get ( ) ;
} else if ( isNumber ( name ) ) {
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// change by ID
int monID = - 1 ;
try {
monID = std : : stoi ( name ) ;
} catch ( std : : exception & e ) {
// shouldn't happen but jic
Debug : : log ( ERR , " Error in getMonitorFromString: invalid num " ) ;
return nullptr ;
}
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if ( monID > - 1 & & monID < ( int ) m_vMonitors . size ( ) ) {
return getMonitorFromID ( monID ) ;
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} else {
Debug : : log ( ERR , " Error in getMonitorFromString: invalid arg 1 " ) ;
return nullptr ;
}
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} else if ( name . find ( " desc: " ) = = 0 ) {
const auto DESCRIPTION = name . substr ( 5 ) ;
for ( auto & m : m_vMonitors ) {
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if ( ! m - > output )
continue ;
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if ( m - > output - > description & & std : : string ( m - > output - > description ) . find ( DESCRIPTION ) = = 0 ) {
return m . get ( ) ;
}
}
return nullptr ;
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} else {
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if ( name = = " current " )
return g_pCompositor - > m_pLastMonitor ;
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if ( isDirection ( name ) ) {
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const auto PMONITOR = getMonitorInDirection ( name [ 0 ] ) ;
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return PMONITOR ;
} else {
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for ( auto & m : m_vMonitors ) {
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if ( m - > szName = = name ) {
return m . get ( ) ;
}
}
}
}
return nullptr ;
}
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void CCompositor : : moveWorkspaceToMonitor ( CWorkspace * pWorkspace , CMonitor * pMonitor ) {
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// We trust the workspace and monitor to be correct.
if ( pWorkspace - > m_iMonitorID = = pMonitor - > ID )
return ;
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Debug : : log ( LOG , " moveWorkspaceToMonitor: Moving {} to monitor {} " , pWorkspace - > m_iID , pMonitor - > ID ) ;
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const auto POLDMON = getMonitorFromID ( pWorkspace - > m_iMonitorID ) ;
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const bool SWITCHINGISACTIVE = POLDMON ? POLDMON - > activeWorkspace = = pWorkspace - > m_iID : false ;
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// fix old mon
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int nextWorkspaceOnMonitorID = - 1 ;
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if ( ! SWITCHINGISACTIVE )
nextWorkspaceOnMonitorID = pWorkspace - > m_iID ;
else {
for ( auto & w : m_vWorkspaces ) {
if ( w - > m_iMonitorID = = POLDMON - > ID & & w - > m_iID ! = pWorkspace - > m_iID & & ! w - > m_bIsSpecialWorkspace ) {
nextWorkspaceOnMonitorID = w - > m_iID ;
break ;
}
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}
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if ( nextWorkspaceOnMonitorID = = - 1 ) {
nextWorkspaceOnMonitorID = 1 ;
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while ( getWorkspaceByID ( nextWorkspaceOnMonitorID ) | | [ & ] ( ) - > bool {
const auto B = g_pConfigManager - > getBoundMonitorForWS ( std : : to_string ( nextWorkspaceOnMonitorID ) ) ;
return B & & B ! = POLDMON ;
} ( ) )
nextWorkspaceOnMonitorID + + ;
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Debug : : log ( LOG , " moveWorkspaceToMonitor: Plugging gap with new {} " , nextWorkspaceOnMonitorID ) ;
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g_pCompositor - > createNewWorkspace ( nextWorkspaceOnMonitorID , POLDMON - > ID ) ;
}
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Debug : : log ( LOG , " moveWorkspaceToMonitor: Plugging gap with existing {} " , nextWorkspaceOnMonitorID ) ;
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POLDMON - > changeWorkspace ( nextWorkspaceOnMonitorID ) ;
}
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// move the workspace
pWorkspace - > m_iMonitorID = pMonitor - > ID ;
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pWorkspace - > moveToMonitor ( pMonitor - > ID ) ;
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for ( auto & w : m_vWindows ) {
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if ( w - > m_iWorkspaceID = = pWorkspace - > m_iID ) {
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if ( w - > m_bPinned ) {
w - > m_iWorkspaceID = nextWorkspaceOnMonitorID ;
continue ;
}
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w - > m_iMonitorID = pMonitor - > ID ;
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// additionally, move floating and fs windows manually
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if ( w - > m_bIsMapped & & ! w - > isHidden ( ) ) {
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if ( POLDMON ) {
if ( w - > m_bIsFloating )
w - > m_vRealPosition = w - > m_vRealPosition . vec ( ) - POLDMON - > vecPosition + pMonitor - > vecPosition ;
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if ( w - > m_bIsFullscreen ) {
w - > m_vRealPosition = pMonitor - > vecPosition ;
w - > m_vRealSize = pMonitor - > vecSize ;
}
} else {
w - > m_vRealPosition = Vector2D { ( int ) w - > m_vRealPosition . goalv ( ) . x % ( int ) pMonitor - > vecSize . x , ( int ) w - > m_vRealPosition . goalv ( ) . y % ( int ) pMonitor - > vecSize . y } ;
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}
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}
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w - > updateToplevel ( ) ;
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}
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}
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if ( SWITCHINGISACTIVE & & POLDMON = = g_pCompositor - > m_pLastMonitor ) { // if it was active, preserve its' status. If it wasn't, don't.
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Debug : : log ( LOG , " moveWorkspaceToMonitor: SWITCHINGISACTIVE, active {} -> {} " , pMonitor - > activeWorkspace , pWorkspace - > m_iID ) ;
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if ( const auto PWORKSPACE = getWorkspaceByID ( pMonitor - > activeWorkspace ) ; PWORKSPACE )
getWorkspaceByID ( pMonitor - > activeWorkspace ) - > startAnim ( false , false ) ;
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pMonitor - > activeWorkspace = pWorkspace - > m_iID ;
g_pLayoutManager - > getCurrentLayout ( ) - > recalculateMonitor ( pMonitor - > ID ) ;
pWorkspace - > startAnim ( true , true , true ) ;
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wlr_cursor_warp ( m_sWLRCursor , nullptr , pMonitor - > vecPosition . x + pMonitor - > vecTransformedSize . x / 2 , pMonitor - > vecPosition . y + pMonitor - > vecTransformedSize . y / 2 ) ;
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g_pInputManager - > simulateMouseMovement ( ) ;
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}
// finalize
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if ( POLDMON ) {
g_pLayoutManager - > getCurrentLayout ( ) - > recalculateMonitor ( POLDMON - > ID ) ;
updateFullscreenFadeOnWorkspace ( getWorkspaceByID ( POLDMON - > activeWorkspace ) ) ;
}
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updateFullscreenFadeOnWorkspace ( pWorkspace ) ;
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// event
g_pEventManager - > postEvent ( SHyprIPCEvent { " moveworkspace " , pWorkspace - > m_szName + " , " + pMonitor - > szName } ) ;
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EMIT_HOOK_EVENT ( " moveWorkspace " , ( std : : vector < void * > { pWorkspace , pMonitor } ) ) ;
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}
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bool CCompositor : : workspaceIDOutOfBounds ( const int64_t & id ) {
int64_t lowestID = INT64_MAX ;
int64_t highestID = INT64_MIN ;
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for ( auto & w : m_vWorkspaces ) {
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if ( w - > m_bIsSpecialWorkspace )
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continue ;
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if ( w - > m_iID < lowestID )
lowestID = w - > m_iID ;
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if ( w - > m_iID > highestID )
highestID = w - > m_iID ;
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}
return std : : clamp ( id , lowestID , highestID ) ! = id ;
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}
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void CCompositor : : updateFullscreenFadeOnWorkspace ( CWorkspace * pWorkspace ) {
const auto FULLSCREEN = pWorkspace - > m_bHasFullscreenWindow ;
for ( auto & w : g_pCompositor - > m_vWindows ) {
if ( w - > m_iWorkspaceID = = pWorkspace - > m_iID ) {
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if ( w - > m_bFadingOut | | w - > m_bPinned | | w - > m_bIsFullscreen )
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continue ;
if ( ! FULLSCREEN )
w - > m_fAlpha = 1.f ;
else if ( ! w - > m_bIsFullscreen )
w - > m_fAlpha = ! w - > m_bCreatedOverFullscreen ? 0.f : 1.f ;
}
}
const auto PMONITOR = getMonitorFromID ( pWorkspace - > m_iMonitorID ) ;
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if ( pWorkspace - > m_iID = = PMONITOR - > activeWorkspace ) {
for ( auto & ls : PMONITOR - > m_aLayerSurfaceLayers [ ZWLR_LAYER_SHELL_V1_LAYER_TOP ] ) {
if ( ! ls - > fadingOut )
ls - > alpha = FULLSCREEN & & pWorkspace - > m_efFullscreenMode = = FULLSCREEN_FULL ? 0.f : 1.f ;
}
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}
}
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void CCompositor : : setWindowFullscreen ( CWindow * pWindow , bool on , eFullscreenMode mode ) {
if ( ! windowValidMapped ( pWindow ) )
return ;
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if ( pWindow - > m_bPinned ) {
Debug : : log ( LOG , " Pinned windows cannot be fullscreen'd " ) ;
return ;
}
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const auto PMONITOR = getMonitorFromID ( pWindow - > m_iMonitorID ) ;
const auto PWORKSPACE = getWorkspaceByID ( pWindow - > m_iWorkspaceID ) ;
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const auto MODE = mode = = FULLSCREEN_INVALID ? PWORKSPACE - > m_efFullscreenMode : mode ;
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if ( PWORKSPACE - > m_bHasFullscreenWindow & & on ) {
Debug : : log ( LOG , " Rejecting fullscreen ON on a fullscreen workspace " ) ;
return ;
}
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g_pLayoutManager - > getCurrentLayout ( ) - > fullscreenRequestForWindow ( pWindow , MODE , on ) ;
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g_pXWaylandManager - > setWindowFullscreen ( pWindow , pWindow - > m_bIsFullscreen & & MODE = = FULLSCREEN_FULL ) ;
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pWindow - > updateDynamicRules ( ) ;
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updateWindowAnimatedDecorationValues ( pWindow ) ;
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// make all windows on the same workspace under the fullscreen window
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for ( auto & w : m_vWindows ) {
if ( w - > m_iWorkspaceID = = PWORKSPACE - > m_iID & & ! w - > m_bIsFullscreen & & ! w - > m_bFadingOut & & ! w - > m_bPinned )
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w - > m_bCreatedOverFullscreen = false ;
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}
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updateFullscreenFadeOnWorkspace ( PWORKSPACE ) ;
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g_pXWaylandManager - > setWindowSize ( pWindow , pWindow - > m_vRealSize . goalv ( ) , true ) ;
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forceReportSizesToWindowsOnWorkspace ( pWindow - > m_iWorkspaceID ) ;
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g_pInputManager - > recheckIdleInhibitorStatus ( ) ;
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// DMAbuf stuff for direct scanout
g_pHyprRenderer - > setWindowScanoutMode ( pWindow ) ;
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g_pConfigManager - > ensureVRR ( PMONITOR ) ;
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}
CWindow * CCompositor : : getX11Parent ( CWindow * pWindow ) {
if ( ! pWindow - > m_bIsX11 )
return nullptr ;
for ( auto & w : m_vWindows ) {
if ( ! w - > m_bIsX11 )
continue ;
if ( w - > m_uSurface . xwayland = = pWindow - > m_uSurface . xwayland - > parent )
return w . get ( ) ;
}
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return nullptr ;
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}
void CCompositor : : updateWorkspaceWindowDecos ( const int & id ) {
for ( auto & w : m_vWindows ) {
if ( w - > m_iWorkspaceID ! = id )
continue ;
w - > updateWindowDecos ( ) ;
}
}
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void CCompositor : : scheduleFrameForMonitor ( CMonitor * pMonitor ) {
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if ( ( m_sWLRSession & & ! m_sWLRSession - > active ) | | ! m_bSessionActive )
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return ;
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if ( ! pMonitor - > m_bEnabled )
return ;
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if ( pMonitor - > renderingActive )
pMonitor - > pendingFrame = true ;
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wlr_output_schedule_frame ( pMonitor - > output ) ;
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}
CWindow * CCompositor : : getWindowByRegex ( const std : : string & regexp ) {
eFocusWindowMode mode = MODE_CLASS_REGEX ;
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std : : regex regexCheck ( regexp ) ;
std : : string matchCheck ;
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if ( regexp . find ( " title: " ) = = 0 ) {
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mode = MODE_TITLE_REGEX ;
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regexCheck = std : : regex ( regexp . substr ( 6 ) ) ;
} else if ( regexp . find ( " address: " ) = = 0 ) {
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mode = MODE_ADDRESS ;
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matchCheck = regexp . substr ( 8 ) ;
} else if ( regexp . find ( " pid: " ) = = 0 ) {
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mode = MODE_PID ;
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matchCheck = regexp . substr ( 4 ) ;
}
for ( auto & w : g_pCompositor - > m_vWindows ) {
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if ( ! w - > m_bIsMapped | | ( w - > isHidden ( ) & & ! g_pLayoutManager - > getCurrentLayout ( ) - > isWindowReachable ( w . get ( ) ) ) )
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continue ;
switch ( mode ) {
case MODE_CLASS_REGEX : {
const auto windowClass = g_pXWaylandManager - > getAppIDClass ( w . get ( ) ) ;
if ( ! std : : regex_search ( g_pXWaylandManager - > getAppIDClass ( w . get ( ) ) , regexCheck ) )
continue ;
break ;
}
case MODE_TITLE_REGEX : {
const auto windowTitle = g_pXWaylandManager - > getTitle ( w . get ( ) ) ;
if ( ! std : : regex_search ( windowTitle , regexCheck ) )
continue ;
break ;
}
case MODE_ADDRESS : {
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std : : string addr = std : : format ( " 0x{:x} " , ( uintptr_t ) w . get ( ) ) ;
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if ( matchCheck ! = addr )
continue ;
break ;
}
case MODE_PID : {
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std : : string pid = std : : format ( " {} " , w - > getPID ( ) ) ;
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if ( matchCheck ! = pid )
continue ;
break ;
}
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default : break ;
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}
return w . get ( ) ;
}
return nullptr ;
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}
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void CCompositor : : warpCursorTo ( const Vector2D & pos , bool force ) {
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// warpCursorTo should only be used for warps that
// should be disabled with no_cursor_warps
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static auto * const PNOWARPS = & g_pConfigManager - > getConfigValuePtr ( " general:no_cursor_warps " ) - > intValue ;
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if ( * PNOWARPS & & ! force )
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return ;
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if ( ! m_sSeat . mouse )
return ;
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wlr_cursor_warp ( m_sWLRCursor , m_sSeat . mouse - > mouse , pos . x , pos . y ) ;
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const auto PMONITORNEW = getMonitorFromVector ( pos ) ;
if ( PMONITORNEW ! = m_pLastMonitor )
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setActiveMonitor ( PMONITORNEW ) ;
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}
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SLayerSurface * CCompositor : : getLayerSurfaceFromWlr ( wlr_layer_surface_v1 * pLS ) {
for ( auto & m : m_vMonitors ) {
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for ( auto & lsl : m - > m_aLayerSurfaceLayers ) {
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for ( auto & ls : lsl ) {
if ( ls - > layerSurface = = pLS )
return ls . get ( ) ;
}
}
}
return nullptr ;
}
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void CCompositor : : closeWindow ( CWindow * pWindow ) {
if ( pWindow & & windowValidMapped ( pWindow ) ) {
g_pXWaylandManager - > sendCloseWindow ( pWindow ) ;
}
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}
SLayerSurface * CCompositor : : getLayerSurfaceFromSurface ( wlr_surface * pSurface ) {
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std : : pair < wlr_surface * , bool > result = { pSurface , false } ;
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for ( auto & m : m_vMonitors ) {
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for ( auto & lsl : m - > m_aLayerSurfaceLayers ) {
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for ( auto & ls : lsl ) {
if ( ls - > layerSurface & & ls - > layerSurface - > surface = = pSurface )
return ls . get ( ) ;
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static auto iter = [ ] ( wlr_surface * surf , int x , int y , void * data ) - > void {
if ( surf = = ( ( std : : pair < wlr_surface * , bool > * ) data ) - > first ) {
* ( bool * ) data = true ;
return ;
}
} ;
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if ( ! ls - > layerSurface | | ! ls - > mapped )
continue ;
wlr_surface_for_each_surface ( ls - > layerSurface - > surface , iter , & result ) ;
if ( result . second )
return ls . get ( ) ;
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}
}
}
return nullptr ;
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}
// returns a delta
Vector2D CCompositor : : parseWindowVectorArgsRelative ( const std : : string & args , const Vector2D & relativeTo ) {
if ( ! args . contains ( ' ' ) )
return relativeTo ;
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const auto PMONITOR = m_pLastMonitor ;
bool xIsPercent = false ;
bool yIsPercent = false ;
bool isExact = false ;
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std : : string x = args . substr ( 0 , args . find_first_of ( ' ' ) ) ;
std : : string y = args . substr ( args . find_first_of ( ' ' ) + 1 ) ;
if ( x = = " exact " ) {
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x = y . substr ( 0 , y . find_first_of ( ' ' ) ) ;
y = y . substr ( y . find_first_of ( ' ' ) + 1 ) ;
isExact = true ;
}
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if ( x . contains ( ' % ' ) ) {
xIsPercent = true ;
x = x . substr ( 0 , x . length ( ) - 1 ) ;
}
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if ( y . contains ( ' % ' ) ) {
yIsPercent = true ;
y = y . substr ( 0 , y . length ( ) - 1 ) ;
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}
if ( ! isNumber ( x ) | | ! isNumber ( y ) ) {
Debug : : log ( ERR , " parseWindowVectorArgsRelative: args not numbers " ) ;
return relativeTo ;
}
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int X = 0 ;
int Y = 0 ;
if ( isExact ) {
X = xIsPercent ? std : : stof ( x ) * 0.01 * PMONITOR - > vecSize . x : std : : stoi ( x ) ;
Y = yIsPercent ? std : : stof ( y ) * 0.01 * PMONITOR - > vecSize . y : std : : stoi ( y ) ;
} else {
X = xIsPercent ? std : : stof ( x ) * 0.01 * relativeTo . x + relativeTo . x : std : : stoi ( x ) + relativeTo . x ;
Y = yIsPercent ? std : : stof ( y ) * 0.01 * relativeTo . y + relativeTo . y : std : : stoi ( y ) + relativeTo . y ;
}
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return Vector2D ( X , Y ) ;
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}
void CCompositor : : forceReportSizesToWindowsOnWorkspace ( const int & wid ) {
for ( auto & w : m_vWindows ) {
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if ( w - > m_iWorkspaceID = = wid & & w - > m_bIsMapped & & ! w - > isHidden ( ) ) {
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g_pXWaylandManager - > setWindowSize ( w . get ( ) , w - > m_vRealSize . vec ( ) , true ) ;
}
}
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}
bool CCompositor : : cursorOnReservedArea ( ) {
const auto PMONITOR = getMonitorFromCursor ( ) ;
const auto XY1 = PMONITOR - > vecPosition + PMONITOR - > vecReservedTopLeft ;
const auto XY2 = PMONITOR - > vecPosition + PMONITOR - > vecSize - PMONITOR - > vecReservedBottomRight ;
const auto CURSORPOS = g_pInputManager - > getMouseCoordsInternal ( ) ;
return ! VECINRECT ( CURSORPOS , XY1 . x , XY1 . y , XY2 . x , XY2 . y ) ;
}
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CWorkspace * CCompositor : : createNewWorkspace ( const int & id , const int & monid , const std : : string & name ) {
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const auto NAME = name = = " " ? std : : to_string ( id ) : name ;
auto monID = monid ;
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// check if bound
if ( const auto PMONITOR = g_pConfigManager - > getBoundMonitorForWS ( NAME ) ; PMONITOR ) {
monID = PMONITOR - > ID ;
}
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const bool SPECIAL = id > = SPECIAL_WORKSPACE_START & & id < = - 2 ;
const auto PWORKSPACE = m_vWorkspaces . emplace_back ( std : : make_unique < CWorkspace > ( monID , NAME , SPECIAL ) ) . get ( ) ;
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PWORKSPACE - > m_iID = id ;
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PWORKSPACE - > m_iMonitorID = monID ;
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return PWORKSPACE ;
}
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void CCompositor : : renameWorkspace ( const int & id , const std : : string & name ) {
const auto PWORKSPACE = getWorkspaceByID ( id ) ;
if ( ! PWORKSPACE )
return ;
if ( isWorkspaceSpecial ( id ) )
return ;
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Debug : : log ( LOG , " renameWorkspace: Renaming workspace {} to '{}' " , id , name ) ;
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PWORKSPACE - > m_szName = name ;
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g_pEventManager - > postEvent ( { " renameworkspace " , std : : to_string ( PWORKSPACE - > m_iID ) + " , " + PWORKSPACE - > m_szName } ) ;
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}
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void CCompositor : : setActiveMonitor ( CMonitor * pMonitor ) {
if ( m_pLastMonitor = = pMonitor )
return ;
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if ( ! pMonitor ) {
m_pLastMonitor = nullptr ;
return ;
}
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const auto PWORKSPACE = getWorkspaceByID ( pMonitor - > activeWorkspace ) ;
g_pEventManager - > postEvent ( SHyprIPCEvent { " focusedmon " , pMonitor - > szName + " , " + PWORKSPACE - > m_szName } ) ;
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EMIT_HOOK_EVENT ( " focusedMon " , pMonitor ) ;
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m_pLastMonitor = pMonitor ;
}
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bool CCompositor : : isWorkspaceSpecial ( const int & id ) {
return id > = SPECIAL_WORKSPACE_START & & id < = - 2 ;
}
int CCompositor : : getNewSpecialID ( ) {
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int highest = SPECIAL_WORKSPACE_START ;
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for ( auto & ws : m_vWorkspaces ) {
if ( ws - > m_bIsSpecialWorkspace & & ws - > m_iID > highest ) {
highest = ws - > m_iID ;
}
}
return highest + 1 ;
}
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void CCompositor : : performUserChecks ( ) {
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const auto atomicEnv = getenv ( " WLR_DRM_NO_ATOMIC " ) ;
const auto atomicEnvStr = std : : string ( atomicEnv ? atomicEnv : " " ) ;
if ( g_pConfigManager - > getInt ( " general:allow_tearing " ) = = 1 & & atomicEnvStr ! = " 1 " ) {
g_pHyprNotificationOverlay - > addNotification ( " You have enabled tearing, but immediate presentations are not available on your configuration. Try adding "
" env = WLR_DRM_NO_ATOMIC,1 to your config. " ,
CColor ( 0 ) , 15000 , ICON_WARNING ) ;
}
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}
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void CCompositor : : moveWindowToWorkspaceSafe ( CWindow * pWindow , CWorkspace * pWorkspace ) {
if ( ! pWindow | | ! pWorkspace )
return ;
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if ( pWindow - > m_bPinned & & pWorkspace - > m_bIsSpecialWorkspace )
return ;
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const bool FULLSCREEN = pWindow - > m_bIsFullscreen ;
const auto FULLSCREENMODE = getWorkspaceByID ( pWindow - > m_iWorkspaceID ) - > m_efFullscreenMode ;
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if ( FULLSCREEN )
setWindowFullscreen ( pWindow , false , FULLSCREEN_FULL ) ;
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pWindow - > moveToWorkspace ( pWorkspace - > m_iID ) ;
pWindow - > updateToplevel ( ) ;
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pWindow - > updateDynamicRules ( ) ;
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if ( ! pWindow - > m_bIsFloating ) {
g_pLayoutManager - > getCurrentLayout ( ) - > onWindowRemovedTiling ( pWindow ) ;
pWindow - > m_iWorkspaceID = pWorkspace - > m_iID ;
pWindow - > m_iMonitorID = pWorkspace - > m_iMonitorID ;
g_pLayoutManager - > getCurrentLayout ( ) - > onWindowCreatedTiling ( pWindow ) ;
} else {
const auto PWINDOWMONITOR = g_pCompositor - > getMonitorFromID ( pWindow - > m_iMonitorID ) ;
const auto POSTOMON = pWindow - > m_vRealPosition . goalv ( ) - PWINDOWMONITOR - > vecPosition ;
const auto PWORKSPACEMONITOR = g_pCompositor - > getMonitorFromID ( pWorkspace - > m_iMonitorID ) ;
pWindow - > m_iWorkspaceID = pWorkspace - > m_iID ;
pWindow - > m_iMonitorID = pWorkspace - > m_iMonitorID ;
pWindow - > m_vRealPosition = POSTOMON + PWORKSPACEMONITOR - > vecPosition ;
}
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if ( pWindow - > m_sGroupData . pNextWindow ) {
CWindow * next = pWindow - > m_sGroupData . pNextWindow ;
while ( next ! = pWindow ) {
next - > moveToWorkspace ( pWorkspace - > m_iID ) ;
next - > updateToplevel ( ) ;
next = next - > m_sGroupData . pNextWindow ;
}
}
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if ( FULLSCREEN )
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setWindowFullscreen ( pWindow , true , FULLSCREENMODE ) ;
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}
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CWindow * CCompositor : : getForceFocus ( ) {
for ( auto & w : m_vWindows ) {
if ( ! w - > m_bIsMapped | | w - > isHidden ( ) | | ! isWorkspaceVisible ( w - > m_iWorkspaceID ) )
continue ;
if ( ! w - > m_bStayFocused )
continue ;
return w . get ( ) ;
}
return nullptr ;
}
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void CCompositor : : notifyIdleActivity ( ) {
wlr_idle_notify_activity ( g_pCompositor - > m_sWLRIdle , g_pCompositor - > m_sSeat . seat ) ;
wlr_idle_notifier_v1_notify_activity ( g_pCompositor - > m_sWLRIdleNotifier , g_pCompositor - > m_sSeat . seat ) ;
}
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void CCompositor : : setIdleActivityInhibit ( bool enabled ) {
wlr_idle_set_enabled ( g_pCompositor - > m_sWLRIdle , g_pCompositor - > m_sSeat . seat , enabled ) ;
wlr_idle_notifier_v1_set_inhibited ( g_pCompositor - > m_sWLRIdleNotifier , ! enabled ) ;
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}
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void CCompositor : : arrangeMonitors ( ) {
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static auto * const PXWLFORCESCALEZERO = & g_pConfigManager - > getConfigValuePtr ( " xwayland:force_zero_scaling " ) - > intValue ;
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std : : vector < CMonitor * > toArrange ;
std : : vector < CMonitor * > arranged ;
for ( auto & m : m_vMonitors )
toArrange . push_back ( m . get ( ) ) ;
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Debug : : log ( LOG , " arrangeMonitors: {} to arrange " , toArrange . size ( ) ) ;
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for ( auto it = toArrange . begin ( ) ; it ! = toArrange . end ( ) ; ) {
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auto m = * it ;
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if ( m - > activeMonitorRule . offset ! = Vector2D { - INT32_MAX , - INT32_MAX } ) {
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// explicit.
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Debug : : log ( LOG , " arrangeMonitors: {} explicit {:j2} " , m - > szName , m - > activeMonitorRule . offset ) ;
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m - > moveTo ( m - > activeMonitorRule . offset ) ;
arranged . push_back ( m ) ;
it = toArrange . erase ( it ) ;
if ( it = = toArrange . end ( ) )
break ;
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continue ;
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}
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+ + it ;
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}
// auto left
int maxOffset = 0 ;
for ( auto & m : arranged ) {
if ( m - > vecPosition . x + m - > vecSize . x > maxOffset )
maxOffset = m - > vecPosition . x + m - > vecSize . x ;
}
for ( auto & m : toArrange ) {
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Debug : : log ( LOG , " arrangeMonitors: {} auto [{}, {:.2f}] " , m - > szName , maxOffset , 0.f ) ;
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m - > moveTo ( { maxOffset , 0 } ) ;
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maxOffset + = m - > vecSize . x ;
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}
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// reset maxOffset (reuse)
// and set xwayland positions aka auto for all
maxOffset = 0 ;
for ( auto & m : m_vMonitors ) {
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Debug : : log ( LOG , " arrangeMonitors: {} xwayland [{}, {:.2f}] " , m - > szName , maxOffset , 0.f ) ;
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m - > vecXWaylandPosition = { maxOffset , 0 } ;
maxOffset + = ( * PXWLFORCESCALEZERO ? m - > vecTransformedSize . x : m - > vecSize . x ) ;
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if ( * PXWLFORCESCALEZERO )
m - > xwaylandScale = m - > scale ;
else
m - > xwaylandScale = 1.f ;
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}
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}
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void CCompositor : : enterUnsafeState ( ) {
if ( m_bUnsafeState )
return ;
Debug : : log ( LOG , " Entering unsafe state " ) ;
m_bUnsafeState = true ;
// create a backup monitor
wlr_backend * headless = nullptr ;
wlr_multi_for_each_backend (
m_sWLRBackend ,
[ ] ( wlr_backend * b , void * data ) {
if ( wlr_backend_is_headless ( b ) )
* ( ( wlr_backend * * ) data ) = b ;
} ,
& headless ) ;
if ( ! headless ) {
Debug : : log ( WARN , " Entering an unsafe state without a headless backend " ) ;
return ;
}
m_pUnsafeOutput = wlr_headless_add_output ( headless , 1920 , 1080 ) ;
}
void CCompositor : : leaveUnsafeState ( ) {
if ( ! m_bUnsafeState )
return ;
Debug : : log ( LOG , " Leaving unsafe state " ) ;
m_bUnsafeState = false ;
if ( m_pUnsafeOutput )
wlr_output_destroy ( m_pUnsafeOutput ) ;
m_pUnsafeOutput = nullptr ;
}