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# include "windowManager.hpp"
# include "./events/events.hpp"
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# include <string.h>
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xcb_visualtype_t * CWindowManager : : setupColors ( const int & desiredDepth ) {
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auto depthIter = xcb_screen_allowed_depths_iterator ( Screen ) ;
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if ( depthIter . data ) {
for ( ; depthIter . rem ; xcb_depth_next ( & depthIter ) ) {
if ( desiredDepth = = 0 | | desiredDepth = = depthIter . data - > depth ) {
for ( auto it = xcb_depth_visuals_iterator ( depthIter . data ) ; it . rem ; xcb_visualtype_next ( & it ) ) {
return it . data ;
}
}
}
if ( desiredDepth > 0 ) {
return setupColors ( 0 ) ;
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}
}
return nullptr ;
}
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void CWindowManager : : setupDepth ( ) {
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Depth = 24 ;
VisualType = setupColors ( Depth ) ;
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}
void CWindowManager : : createAndOpenAllPipes ( ) {
system ( " mkdir -p /tmp/hypr " ) ;
system ( " cat \" \" > /tmp/hypr/hyprbarin " ) ;
system ( " cat \" \" > /tmp/hypr/hyprbarout " ) ;
system ( " cat \" \" > /tmp/hypr/hyprbarind " ) ;
system ( " cat \" \" > /tmp/hypr/hyprbaroutd " ) ;
}
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void CWindowManager : : updateRootCursor ( ) {
if ( xcb_cursor_context_new ( DisplayConnection , Screen , & pointerContext ) < 0 ) {
Debug : : log ( ERR , " Creating a cursor context failed! " ) ;
return ;
}
pointerCursor = xcb_cursor_load_cursor ( pointerContext , " left_ptr " ) ;
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Debug : : log ( LOG , " Cursor created with ID " + std : : to_string ( pointerCursor ) ) ;
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// Set the cursor
uint32_t values [ 1 ] = { pointerCursor } ;
xcb_change_window_attributes ( DisplayConnection , Screen - > root , XCB_CW_CURSOR , values ) ;
}
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void CWindowManager : : setupColormapAndStuff ( ) {
VisualType = xcb_aux_find_visual_by_attrs ( Screen , - 1 , 32 ) ; // Transparency by default
Depth = xcb_aux_get_depth_of_visual ( Screen , VisualType - > visual_id ) ;
Colormap = xcb_generate_id ( DisplayConnection ) ;
const auto COOKIE = xcb_create_colormap ( DisplayConnection , XCB_COLORMAP_ALLOC_NONE , Colormap , Screen - > root , VisualType - > visual_id ) ;
const auto XERR = xcb_request_check ( DisplayConnection , COOKIE ) ;
if ( XERR ! = NULL ) {
Debug : : log ( ERR , " Error in setupColormapAndStuff! Code: " + std : : to_string ( XERR - > error_code ) ) ;
}
free ( XERR ) ;
}
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void CWindowManager : : setupRandrMonitors ( ) {
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XCBQUERYCHECK ( RANDRVER , xcb_randr_query_version_reply (
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DisplayConnection , xcb_randr_query_version ( DisplayConnection , XCB_RANDR_MAJOR_VERSION , XCB_RANDR_MINOR_VERSION ) , & errorRANDRVER ) , " RandR query failed! " ) ;
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free ( RANDRVER ) ;
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Debug : : log ( LOG , " Setting up RandR! Query: v1.5. " ) ;
XCBQUERYCHECK ( MONITORS , xcb_randr_get_monitors_reply ( DisplayConnection , xcb_randr_get_monitors ( DisplayConnection , Screen - > root , true ) , & errorMONITORS ) , " Couldn't get monitors. " + std : : to_string ( errorMONITORS - > error_code ) ) ;
const auto MONITORNUM = xcb_randr_get_monitors_monitors_length ( MONITORS ) ;
Debug : : log ( LOG , " Found " + std : : to_string ( MONITORNUM ) + " Monitors! " ) ;
if ( MONITORNUM < 1 ) {
// TODO: RandR 1.4 maybe for people with ancient hardware?
Debug : : log ( ERR , " RandR returned an invalid amount of monitors. Falling back to 1 monitor. " ) ;
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return ;
}
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for ( xcb_randr_monitor_info_iterator_t iterator = xcb_randr_get_monitors_monitors_iterator ( MONITORS ) ; iterator . rem ; xcb_randr_monitor_info_next ( & iterator ) ) {
const auto MONITORINFO = iterator . data ;
// basically an XCBQUERYCHECK but with continue; as its not fatal
xcb_generic_error_t * error ;
const auto ATOMNAME = xcb_get_atom_name_reply ( DisplayConnection , xcb_get_atom_name ( DisplayConnection , MONITORINFO - > name ) , & error ) ;
if ( error ! = NULL ) {
Debug : : log ( ERR , " Failed to get monitor info... " ) ;
free ( error ) ;
free ( ATOMNAME ) ;
continue ;
}
free ( error ) ;
monitors . push_back ( SMonitor ( ) ) ;
const auto NAMELEN = xcb_get_atom_name_name_length ( ATOMNAME ) ;
const auto NAME = xcb_get_atom_name_name ( ATOMNAME ) ;
free ( ATOMNAME ) ;
for ( int j = 0 ; j < NAMELEN ; + + j ) {
monitors [ monitors . size ( ) - 1 ] . szName + = NAME [ j ] ;
}
monitors [ monitors . size ( ) - 1 ] . vecPosition = Vector2D ( MONITORINFO - > x , MONITORINFO - > y ) ;
monitors [ monitors . size ( ) - 1 ] . vecSize = Vector2D ( MONITORINFO - > width , MONITORINFO - > height ) ;
monitors [ monitors . size ( ) - 1 ] . primary = MONITORINFO - > primary ;
monitors [ monitors . size ( ) - 1 ] . ID = monitors . size ( ) - 1 ;
Debug : : log ( NONE , " Monitor " + monitors [ monitors . size ( ) - 1 ] . szName + " : " + std : : to_string ( monitors [ monitors . size ( ) - 1 ] . vecSize . x ) + " x " + std : : to_string ( monitors [ monitors . size ( ) - 1 ] . vecSize . y ) +
" , at " + std : : to_string ( monitors [ monitors . size ( ) - 1 ] . vecPosition . x ) + " , " + std : : to_string ( monitors [ monitors . size ( ) - 1 ] . vecPosition . y ) + " , ID: " + std : : to_string ( monitors [ monitors . size ( ) - 1 ] . ID ) ) ;
}
free ( MONITORS ) ;
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const auto EXTENSIONREPLY = xcb_get_extension_data ( DisplayConnection , & xcb_randr_id ) ;
if ( ! EXTENSIONREPLY - > present )
Debug : : log ( ERR , " RandR extension missing " ) ;
else {
//listen for screen change events
xcb_randr_select_input ( DisplayConnection , Screen - > root , XCB_RANDR_NOTIFY_MASK_SCREEN_CHANGE ) ;
}
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xcb_flush ( DisplayConnection ) ;
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if ( monitors . size ( ) = = 0 ) {
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// RandR failed!
Debug : : log ( WARN , " RandR failed! " ) ;
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monitors . clear ( ) ;
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# define TESTING_MON_AMOUNT 3
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for ( int i = 0 ; i < TESTING_MON_AMOUNT /* Testing on 3 monitors, RandR shouldnt fail on a real desktop */ ; + + i ) {
monitors . push_back ( SMonitor ( ) ) ;
monitors [ i ] . vecPosition = Vector2D ( i * Screen - > width_in_pixels / TESTING_MON_AMOUNT , 0 ) ;
monitors [ i ] . vecSize = Vector2D ( Screen - > width_in_pixels / TESTING_MON_AMOUNT , Screen - > height_in_pixels ) ;
monitors [ i ] . ID = i ;
monitors [ i ] . szName = " Screen " + std : : to_string ( i ) ;
}
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}
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}
void CWindowManager : : setupManager ( ) {
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setupColormapAndStuff ( ) ;
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EWMH : : setupInitEWMH ( ) ;
setupRandrMonitors ( ) ;
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Debug : : log ( LOG , " RandR done. " ) ;
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Values [ 0 ] = XCB_EVENT_MASK_SUBSTRUCTURE_REDIRECT | XCB_EVENT_MASK_STRUCTURE_NOTIFY | XCB_EVENT_MASK_SUBSTRUCTURE_NOTIFY | XCB_EVENT_MASK_PROPERTY_CHANGE ;
xcb_change_window_attributes_checked ( DisplayConnection , Screen - > root ,
XCB_CW_EVENT_MASK , Values ) ;
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ConfigManager : : init ( ) ;
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Debug : : log ( LOG , " Keys done. " ) ;
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// Add workspaces to the monitors
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for ( long unsigned int i = 0 ; i < monitors . size ( ) ; + + i ) {
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CWorkspace protoWorkspace ;
protoWorkspace . setID ( i + 1 ) ;
protoWorkspace . setMonitor ( i ) ;
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protoWorkspace . setHasFullscreenWindow ( false ) ;
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workspaces . push_back ( protoWorkspace ) ;
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activeWorkspaces . push_back ( workspaces [ i ] . getID ( ) ) ;
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}
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Debug : : log ( LOG , " Workspace protos done. " ) ;
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//
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// ---- INIT THE THREAD FOR ANIM & CONFIG ---- //
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// start its' update thread
Events : : setThread ( ) ;
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Debug : : log ( LOG , " Thread (Parent) done. " ) ;
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ConfigManager : : loadConfigLoadVars ( ) ;
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updateRootCursor ( ) ;
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Debug : : log ( LOG , " Finished setup! " ) ;
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// TODO: EWMH
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}
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bool CWindowManager : : handleEvent ( ) {
if ( xcb_connection_has_error ( DisplayConnection ) )
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return false ;
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xcb_flush ( DisplayConnection ) ;
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const auto ev = xcb_wait_for_event ( DisplayConnection ) ;
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if ( ev ! = NULL ) {
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while ( animationUtilBusy ) {
; // wait for it to finish
}
// Set thread state, halt animations until done.
mainThreadBusy = true ;
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// Read from the bar
IPCRecieveMessageM ( m_sIPCBarPipeOut . szPipeName ) ;
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switch ( ev - > response_type & ~ 0x80 ) {
case XCB_ENTER_NOTIFY :
Events : : eventEnter ( ev ) ;
Debug : : log ( LOG , " Event dispatched ENTER " ) ;
break ;
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case XCB_LEAVE_NOTIFY :
Events : : eventLeave ( ev ) ;
Debug : : log ( LOG , " Event dispatched LEAVE " ) ;
break ;
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case XCB_DESTROY_NOTIFY :
Events : : eventDestroy ( ev ) ;
Debug : : log ( LOG , " Event dispatched DESTROY " ) ;
break ;
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case XCB_UNMAP_NOTIFY :
Events : : eventUnmapWindow ( ev ) ;
Debug : : log ( LOG , " Event dispatched UNMAP " ) ;
break ;
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case XCB_MAP_REQUEST :
Events : : eventMapWindow ( ev ) ;
Debug : : log ( LOG , " Event dispatched MAP " ) ;
break ;
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case XCB_BUTTON_PRESS :
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Events : : eventButtonPress ( ev ) ;
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Debug : : log ( LOG , " Event dispatched BUTTON_PRESS " ) ;
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break ;
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case XCB_BUTTON_RELEASE :
Events : : eventButtonRelease ( ev ) ;
Debug : : log ( LOG , " Event dispatched BUTTON_RELEASE " ) ;
break ;
case XCB_MOTION_NOTIFY :
Events : : eventMotionNotify ( ev ) ;
//Debug::log(LOG, "Event dispatched MOTION_NOTIFY"); // Spam!!
break ;
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case XCB_EXPOSE :
Events : : eventExpose ( ev ) ;
Debug : : log ( LOG , " Event dispatched EXPOSE " ) ;
break ;
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case XCB_KEY_PRESS :
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Events : : eventKeyPress ( ev ) ;
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Debug : : log ( LOG , " Event dispatched KEY_PRESS " ) ;
break ;
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default :
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if ( ev - > response_type & ~ 0x80 ! = 14 )
Debug : : log ( WARN , " Unknown event: " + std : : to_string ( ev - > response_type & ~ 0x80 ) ) ;
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break ;
}
free ( ev ) ;
}
// refresh and apply the parameters of all dirty windows.
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refreshDirtyWindows ( ) ;
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// Sanity checks
for ( const auto active : activeWorkspaces ) {
sanityCheckOnWorkspace ( active ) ;
}
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// remove unused workspaces
cleanupUnusedWorkspaces ( ) ;
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// Update last window name
updateActiveWindowName ( ) ;
// Update the bar with the freshest stuff
updateBarInfo ( ) ;
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xcb_flush ( DisplayConnection ) ;
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// Restore thread state
mainThreadBusy = false ;
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return true ;
}
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void CWindowManager : : cleanupUnusedWorkspaces ( ) {
std : : vector < CWorkspace > temp = workspaces ;
workspaces . clear ( ) ;
for ( auto & work : temp ) {
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if ( ! isWorkspaceVisible ( work . getID ( ) ) ) {
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// check if it has any children
bool hasChildren = false ;
for ( auto & window : windows ) {
if ( window . getWorkspaceID ( ) = = work . getID ( ) ) {
hasChildren = true ;
break ;
}
}
if ( hasChildren ) {
// Has windows opened on it.
workspaces . push_back ( work ) ;
}
} else {
// Foreground workspace
workspaces . push_back ( work ) ;
}
}
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// Update bar info
updateBarInfo ( ) ;
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}
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void CWindowManager : : refreshDirtyWindows ( ) {
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for ( auto & window : windows ) {
if ( window . getDirty ( ) ) {
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window . setDirty ( false ) ;
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// Check if the window isn't a node or has the noInterventions prop
if ( window . getChildNodeAID ( ) ! = 0 | | window . getNoInterventions ( ) )
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continue ;
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setEffectiveSizePosUsingConfig ( & window ) ;
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// Fullscreen flag
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bool bHasFullscreenWindow = getWorkspaceByID ( window . getWorkspaceID ( ) ) - > getHasFullscreenWindow ( ) ;
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// first and foremost, let's check if the window isn't on a hidden workspace
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// or that it is not a non-fullscreen window in a fullscreen workspace
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if ( ! isWorkspaceVisible ( window . getWorkspaceID ( ) )
| | ( bHasFullscreenWindow & & ! window . getFullscreen ( ) ) ) {
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// Move it to hades
Values [ 0 ] = ( int ) 1500000 ; // hmu when monitors actually have that many pixels
Values [ 1 ] = ( int ) 1500000 ; // and we are still using xorg =)
xcb_configure_window ( DisplayConnection , window . getDrawable ( ) , XCB_CONFIG_WINDOW_X | XCB_CONFIG_WINDOW_Y , Values ) ;
// Set the size JIC.
Values [ 0 ] = ( int ) window . getEffectiveSize ( ) . x ;
Values [ 1 ] = ( int ) window . getEffectiveSize ( ) . y ;
xcb_configure_window ( DisplayConnection , window . getDrawable ( ) , XCB_CONFIG_WINDOW_WIDTH | XCB_CONFIG_WINDOW_HEIGHT , Values ) ;
continue ;
}
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// Fullscreen window. No border, all screen.
if ( window . getFullscreen ( ) ) {
Values [ 0 ] = 0 ;
xcb_configure_window ( DisplayConnection , window . getDrawable ( ) , XCB_CONFIG_WINDOW_BORDER_WIDTH , Values ) ;
Values [ 0 ] = 0x555555 ; // GRAY :)
xcb_change_window_attributes ( DisplayConnection , window . getDrawable ( ) , XCB_CW_BORDER_PIXEL , Values ) ;
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const auto MONITOR = getMonitorFromWindow ( & window ) ;
Values [ 0 ] = ( int ) MONITOR - > vecSize . x ;
Values [ 1 ] = ( int ) MONITOR - > vecSize . y ;
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xcb_configure_window ( DisplayConnection , window . getDrawable ( ) , XCB_CONFIG_WINDOW_WIDTH | XCB_CONFIG_WINDOW_HEIGHT , Values ) ;
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Values [ 0 ] = ( int ) MONITOR - > vecPosition . x ;
Values [ 1 ] = ( int ) MONITOR - > vecPosition . y ;
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xcb_configure_window ( DisplayConnection , window . getDrawable ( ) , XCB_CONFIG_WINDOW_X | XCB_CONFIG_WINDOW_Y , Values ) ;
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// Apply rounded corners, does all the checks inside
applyRoundedCornersToWindow ( & window ) ;
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continue ;
}
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Values [ 0 ] = ( int ) window . getRealSize ( ) . x ;
Values [ 1 ] = ( int ) window . getRealSize ( ) . y ;
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xcb_configure_window ( DisplayConnection , window . getDrawable ( ) , XCB_CONFIG_WINDOW_WIDTH | XCB_CONFIG_WINDOW_HEIGHT , Values ) ;
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// Update the position because the border makes the window jump
// I have added the bordersize vec2d before in the setEffectiveSizePosUsingConfig function.
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Values [ 0 ] = ( int ) window . getRealPosition ( ) . x - ConfigManager : : getInt ( " border_size " ) ;
Values [ 1 ] = ( int ) window . getRealPosition ( ) . y - ConfigManager : : getInt ( " border_size " ) ;
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xcb_configure_window ( DisplayConnection , window . getDrawable ( ) , XCB_CONFIG_WINDOW_X | XCB_CONFIG_WINDOW_Y , Values ) ;
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Values [ 0 ] = ( int ) ConfigManager : : getInt ( " border_size " ) ;
xcb_configure_window ( DisplayConnection , window . getDrawable ( ) , XCB_CONFIG_WINDOW_BORDER_WIDTH , Values ) ;
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// Focused special border.
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if ( window . getDrawable ( ) = = LastWindow ) {
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Values [ 0 ] = ConfigManager : : getInt ( " col.active_border " ) ;
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xcb_change_window_attributes ( DisplayConnection , window . getDrawable ( ) , XCB_CW_BORDER_PIXEL , Values ) ;
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} else {
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Values [ 0 ] = ConfigManager : : getInt ( " col.inactive_border " ) ;
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xcb_change_window_attributes ( DisplayConnection , window . getDrawable ( ) , XCB_CW_BORDER_PIXEL , Values ) ;
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}
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// Apply rounded corners, does all the checks inside
applyRoundedCornersToWindow ( & window ) ;
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Debug : : log ( LOG , " Refreshed dirty window, with an ID of " + std : : to_string ( window . getDrawable ( ) ) ) ;
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}
}
}
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void CWindowManager : : setFocusedWindow ( xcb_drawable_t window ) {
if ( window & & window ! = Screen - > root ) {
xcb_set_input_focus ( DisplayConnection , XCB_INPUT_FOCUS_POINTER_ROOT , window , XCB_CURRENT_TIME ) ;
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// Fix border from the old window that was in focus.
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Values [ 0 ] = ConfigManager : : getInt ( " col.inactive_border " ) ;
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xcb_change_window_attributes ( DisplayConnection , LastWindow , XCB_CW_BORDER_PIXEL , Values ) ;
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Values [ 0 ] = ConfigManager : : getInt ( " col.active_border " ) ;
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xcb_change_window_attributes ( DisplayConnection , window , XCB_CW_BORDER_PIXEL , Values ) ;
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float values [ 1 ] ;
if ( g_pWindowManager - > getWindowFromDrawable ( window ) & & g_pWindowManager - > getWindowFromDrawable ( window ) - > getIsFloating ( ) ) {
values [ 0 ] = XCB_STACK_MODE_ABOVE ;
xcb_configure_window ( g_pWindowManager - > DisplayConnection , window , XCB_CONFIG_WINDOW_STACK_MODE , values ) ;
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// Apply rounded corners, does all the checks inside.
// The border changed so let's not make it rectangular maybe
applyRoundedCornersToWindow ( g_pWindowManager - > getWindowFromDrawable ( window ) ) ;
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}
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LastWindow = window ;
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}
}
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// TODO: make this executed less. It's too often imo.
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void CWindowManager : : sanityCheckOnWorkspace ( int workspaceID ) {
for ( auto & w : windows ) {
if ( w . getWorkspaceID ( ) = = workspaceID ) {
// Check #1: Parent has 2 identical children (happens!)
if ( w . getDrawable ( ) < 0 ) {
const auto CHILDA = w . getChildNodeAID ( ) ;
const auto CHILDB = w . getChildNodeBID ( ) ;
if ( CHILDA = = CHILDB ) {
// Fix. Remove this parent, replace with child.
Debug : : log ( LOG , " Sanity check A triggered for window ID " + std : : to_string ( w . getDrawable ( ) ) ) ;
const auto PCHILD = getWindowFromDrawable ( CHILDA ) ;
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if ( ! PCHILD ) {
// Means both children are 0 (dead)
removeWindowFromVectorSafe ( w . getDrawable ( ) ) ;
continue ;
}
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PCHILD - > setPosition ( w . getPosition ( ) ) ;
PCHILD - > setSize ( w . getSize ( ) ) ;
// make the sibling replace the parent
PCHILD - > setParentNodeID ( w . getParentNodeID ( ) ) ;
if ( w . getParentNodeID ( ) ! = 0 & & getWindowFromDrawable ( w . getParentNodeID ( ) ) ) {
if ( getWindowFromDrawable ( w . getParentNodeID ( ) ) - > getChildNodeAID ( ) = = w . getDrawable ( ) ) {
getWindowFromDrawable ( w . getParentNodeID ( ) ) - > setChildNodeAID ( w . getDrawable ( ) ) ;
} else {
getWindowFromDrawable ( w . getParentNodeID ( ) ) - > setChildNodeBID ( w . getDrawable ( ) ) ;
}
}
// Make the sibling eat the closed window
PCHILD - > setDirtyRecursive ( true ) ;
PCHILD - > recalcSizePosRecursive ( ) ;
// Remove the parent
removeWindowFromVectorSafe ( w . getDrawable ( ) ) ;
if ( findWindowAtCursor ( ) )
setFocusedWindow ( findWindowAtCursor ( ) - > getDrawable ( ) ) ; // Set focus. :)
Debug : : log ( LOG , " Sanity check A finished successfully. " ) ;
}
}
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// Hypothetical check #2: Check if children are present and tiled. (for nodes)
// I have not found this occurring but I have had some issues with... stuff.
if ( w . getDrawable ( ) < 0 ) {
const auto CHILDA = getWindowFromDrawable ( w . getChildNodeAID ( ) ) ;
const auto CHILDB = getWindowFromDrawable ( w . getChildNodeBID ( ) ) ;
if ( CHILDA & & CHILDB ) {
if ( CHILDA - > getIsFloating ( ) ) {
g_pWindowManager - > fixWindowOnClose ( CHILDA ) ;
g_pWindowManager - > calculateNewWindowParams ( CHILDA ) ;
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Debug : : log ( LOG , " Found an invalid tiled window, ID: " + std : : to_string ( CHILDA - > getDrawable ( ) ) + " , untiling it. " ) ;
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}
if ( CHILDB - > getIsFloating ( ) ) {
g_pWindowManager - > fixWindowOnClose ( CHILDB ) ;
g_pWindowManager - > calculateNewWindowParams ( CHILDB ) ;
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Debug : : log ( LOG , " Found an invalid tiled window, ID: " + std : : to_string ( CHILDB - > getDrawable ( ) ) + " , untiling it. " ) ;
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}
} else {
Debug : : log ( ERR , " Malformed node ID " + std : : to_string ( w . getDrawable ( ) ) + " with 2 children but one or both are nullptr. " ) ;
}
}
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// Check #3: Check if the window exists with xcb
// Some windows do not report they are dead for w/e reason
if ( w . getDrawable ( ) > 0 ) {
const auto GEOMETRYCOOKIE = xcb_get_geometry ( g_pWindowManager - > DisplayConnection , w . getDrawable ( ) ) ;
const auto GEOMETRY = xcb_get_geometry_reply ( g_pWindowManager - > DisplayConnection , GEOMETRYCOOKIE , 0 ) ;
if ( ! GEOMETRY | | ( GEOMETRY - > width < 1 | | GEOMETRY - > height < 1 ) ) {
Debug : : log ( LOG , " Found a dead window, ID: " + std : : to_string ( w . getDrawable ( ) ) + " , removing it. " ) ;
closeWindowAllChecks ( w . getDrawable ( ) ) ;
continue ;
}
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// Type 2: is hidden.
const auto window = w . getDrawable ( ) ;
PROP ( wm_type_cookie , HYPRATOMS [ " _NET_WM_WINDOW_TYPE " ] , UINT32_MAX ) ;
if ( wm_type_cookiereply = = NULL | | xcb_get_property_value_length ( wm_type_cookiereply ) < 1 ) {
Debug : : log ( LOG , " No preferred type found. " ) ;
} else {
const auto ATOMS = ( xcb_atom_t * ) xcb_get_property_value ( wm_type_cookiereply ) ;
if ( ! ATOMS ) {
Debug : : log ( ERR , " Atoms not found in preferred type! " ) ;
} else {
if ( xcbContainsAtom ( wm_type_cookiereply , HYPRATOMS [ " _NET_WM_STATE_HIDDEN " ] ) ) {
// delete it
// NOTE: this is NOT the cause of windows in tray not being able
// to open.
free ( wm_type_cookiereply ) ;
Debug : : log ( LOG , " Found a dead window, ID: " + std : : to_string ( w . getDrawable ( ) ) + " , removing it. " ) ;
closeWindowAllChecks ( w . getDrawable ( ) ) ;
continue ;
}
}
}
free ( wm_type_cookiereply ) ;
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}
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}
}
}
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CWindow * CWindowManager : : getWindowFromDrawable ( int64_t window ) {
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if ( ! window )
return nullptr ;
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for ( auto & w : windows ) {
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if ( w . getDrawable ( ) = = window ) {
return & w ;
}
}
return nullptr ;
}
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void CWindowManager : : addWindowToVectorSafe ( CWindow window ) {
for ( auto & w : windows ) {
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if ( w . getDrawable ( ) = = window . getDrawable ( ) )
return ; // Do not add if already present.
}
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windows . push_back ( window ) ;
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}
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void CWindowManager : : removeWindowFromVectorSafe ( int64_t window ) {
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if ( ! window )
return ;
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std : : vector < CWindow > temp = windows ;
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windows . clear ( ) ;
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for ( auto p : temp ) {
if ( p . getDrawable ( ) ! = window ) {
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windows . push_back ( p ) ;
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continue ;
}
}
}
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void CWindowManager : : applyRoundedCornersToWindow ( CWindow * pWindow ) {
if ( ! pWindow )
return ;
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const auto ROUNDING = pWindow - > getFullscreen ( ) ? 0 : ConfigManager : : getInt ( " rounding " ) ;
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const auto SHAPEQUERY = xcb_get_extension_data ( DisplayConnection , & xcb_shape_id ) ;
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if ( ! SHAPEQUERY | | ! SHAPEQUERY - > present | | pWindow - > getNoInterventions ( ) )
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return ;
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// Prepare values
const auto MONITOR = getMonitorFromWindow ( pWindow ) ;
const uint16_t W = pWindow - > getFullscreen ( ) ? MONITOR - > vecSize . x : pWindow - > getRealSize ( ) . x ;
const uint16_t H = pWindow - > getFullscreen ( ) ? MONITOR - > vecSize . y : pWindow - > getRealSize ( ) . y ;
const uint16_t BORDER = pWindow - > getFullscreen ( ) ? 0 : ConfigManager : : getInt ( " border_size " ) ;
const uint16_t TOTALW = W + 2 * BORDER ;
const uint16_t TOTALH = H + 2 * BORDER ;
const auto RADIUS = ROUNDING + BORDER ;
const auto DIAMETER = RADIUS = = 0 ? 0 : RADIUS * 2 - 1 ;
const xcb_arc_t BOUNDINGARCS [ ] = {
{ - 1 , - 1 , DIAMETER , DIAMETER , 0 , 360 < < 6 } ,
{ - 1 , TOTALH - DIAMETER , DIAMETER , DIAMETER , 0 , 360 < < 6 } ,
{ TOTALW - DIAMETER , - 1 , DIAMETER , DIAMETER , 0 , 360 < < 6 } ,
{ TOTALW - DIAMETER , TOTALH - DIAMETER , DIAMETER , DIAMETER , 0 , 360 < < 6 } ,
} ;
const xcb_rectangle_t BOUNDINGRECTS [ ] = {
{ RADIUS , 0 , TOTALW - DIAMETER , TOTALH } ,
{ 0 , RADIUS , TOTALW , TOTALH - DIAMETER } ,
} ;
const auto DIAMETERC = ROUNDING = = 0 ? 0 : 2 * ROUNDING - 1 ;
xcb_arc_t CLIPPINGARCS [ ] = {
{ - 1 , - 1 , DIAMETERC , DIAMETERC , 0 , 360 < < 6 } ,
{ - 1 , H - DIAMETERC , DIAMETERC , DIAMETERC , 0 , 360 < < 6 } ,
{ W - DIAMETERC , - 1 , DIAMETERC , DIAMETERC , 0 , 360 < < 6 } ,
{ W - DIAMETERC , H - DIAMETERC , DIAMETERC , DIAMETERC , 0 , 360 < < 6 } ,
} ;
xcb_rectangle_t CLIPPINGRECTS [ ] = {
{ ROUNDING , 0 , W - DIAMETERC , H } ,
{ 0 , ROUNDING , W , H - DIAMETERC } ,
} ;
// Values done
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// XCB
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const xcb_pixmap_t PIXMAP1 = xcb_generate_id ( DisplayConnection ) ;
const xcb_pixmap_t PIXMAP2 = xcb_generate_id ( DisplayConnection ) ;
const xcb_gcontext_t BLACK = xcb_generate_id ( DisplayConnection ) ;
const xcb_gcontext_t WHITE = xcb_generate_id ( DisplayConnection ) ;
xcb_create_pixmap ( DisplayConnection , 1 , PIXMAP1 , pWindow - > getDrawable ( ) , TOTALW , TOTALH ) ;
xcb_create_pixmap ( DisplayConnection , 1 , PIXMAP2 , pWindow - > getDrawable ( ) , W , H ) ;
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Values [ 0 ] = 0 ;
Values [ 1 ] = 0 ;
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xcb_create_gc ( DisplayConnection , BLACK , PIXMAP1 , XCB_GC_FOREGROUND , Values ) ;
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Values [ 0 ] = 1 ;
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xcb_create_gc ( DisplayConnection , WHITE , PIXMAP1 , XCB_GC_FOREGROUND , Values ) ;
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// XCB done
// Draw
xcb_rectangle_t BOUNDINGRECT = { 0 , 0 , W + 2 * BORDER , H + 2 * BORDER } ;
xcb_poly_fill_rectangle ( DisplayConnection , PIXMAP1 , BLACK , 1 , & BOUNDINGRECT ) ;
xcb_poly_fill_rectangle ( DisplayConnection , PIXMAP1 , WHITE , 2 , BOUNDINGRECTS ) ;
xcb_poly_fill_arc ( DisplayConnection , PIXMAP1 , WHITE , 4 , BOUNDINGARCS ) ;
xcb_rectangle_t CLIPPINGRECT = { 0 , 0 , W , H } ;
xcb_poly_fill_rectangle ( DisplayConnection , PIXMAP2 , BLACK , 1 , & CLIPPINGRECT ) ;
xcb_poly_fill_rectangle ( DisplayConnection , PIXMAP2 , WHITE , 2 , CLIPPINGRECTS ) ;
xcb_poly_fill_arc ( DisplayConnection , PIXMAP2 , WHITE , 4 , CLIPPINGARCS ) ;
// Draw done
// Shape
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xcb_shape_mask ( DisplayConnection , XCB_SHAPE_SO_SET , XCB_SHAPE_SK_BOUNDING , pWindow - > getDrawable ( ) , - BORDER , - BORDER , PIXMAP1 ) ;
xcb_shape_mask ( DisplayConnection , XCB_SHAPE_SO_SET , XCB_SHAPE_SK_CLIP , pWindow - > getDrawable ( ) , 0 , 0 , PIXMAP2 ) ;
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// Shape done
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// Cleanup
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xcb_free_pixmap ( DisplayConnection , PIXMAP1 ) ;
xcb_free_pixmap ( DisplayConnection , PIXMAP2 ) ;
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}
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void CWindowManager : : setEffectiveSizePosUsingConfig ( CWindow * pWindow ) {
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if ( ! pWindow | | pWindow - > getIsFloating ( ) )
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return ;
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const auto MONITOR = getMonitorFromWindow ( pWindow ) ;
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// set some flags.
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const bool DISPLAYLEFT = STICKS ( pWindow - > getPosition ( ) . x , MONITOR - > vecPosition . x ) ;
const bool DISPLAYRIGHT = STICKS ( pWindow - > getPosition ( ) . x + pWindow - > getSize ( ) . x , MONITOR - > vecPosition . x + MONITOR - > vecSize . x ) ;
const bool DISPLAYTOP = STICKS ( pWindow - > getPosition ( ) . y , MONITOR - > vecPosition . y ) ;
const bool DISPLAYBOTTOM = STICKS ( pWindow - > getPosition ( ) . y + pWindow - > getSize ( ) . y , MONITOR - > vecPosition . y + MONITOR - > vecSize . y ) ;
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pWindow - > setEffectivePosition ( pWindow - > getPosition ( ) + Vector2D ( ConfigManager : : getInt ( " border_size " ) , ConfigManager : : getInt ( " border_size " ) ) ) ;
pWindow - > setEffectiveSize ( pWindow - > getSize ( ) - ( Vector2D ( ConfigManager : : getInt ( " border_size " ) , ConfigManager : : getInt ( " border_size " ) ) * 2 ) ) ;
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// do gaps, set top left
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pWindow - > setEffectivePosition ( pWindow - > getEffectivePosition ( ) + Vector2D ( DISPLAYLEFT ? ConfigManager : : getInt ( " gaps_out " ) : ConfigManager : : getInt ( " gaps_in " ) , DISPLAYTOP ? ConfigManager : : getInt ( " gaps_out " ) + ( MONITOR - > ID = = ConfigManager : : getInt ( " bar:monitor " ) ? ConfigManager : : getInt ( " bar:height " ) : 0 ) : ConfigManager : : getInt ( " gaps_in " ) ) ) ;
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// fix to old size bottom right
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pWindow - > setEffectiveSize ( pWindow - > getEffectiveSize ( ) - Vector2D ( DISPLAYLEFT ? ConfigManager : : getInt ( " gaps_out " ) : ConfigManager : : getInt ( " gaps_in " ) , DISPLAYTOP ? ConfigManager : : getInt ( " gaps_out " ) + ( MONITOR - > ID = = ConfigManager : : getInt ( " bar:monitor " ) ? ConfigManager : : getInt ( " bar:height " ) : 0 ) : ConfigManager : : getInt ( " gaps_in " ) ) ) ;
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// set bottom right
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pWindow - > setEffectiveSize ( pWindow - > getEffectiveSize ( ) - Vector2D ( DISPLAYRIGHT ? ConfigManager : : getInt ( " gaps_out " ) : ConfigManager : : getInt ( " gaps_in " ) , DISPLAYBOTTOM ? ConfigManager : : getInt ( " gaps_out " ) : ConfigManager : : getInt ( " gaps_in " ) ) ) ;
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}
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CWindow * CWindowManager : : findWindowAtCursor ( ) {
const auto POINTERCOOKIE = xcb_query_pointer ( DisplayConnection , Screen - > root ) ;
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Vector2D cursorPos = getCursorPos ( ) ;
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const auto WORKSPACE = activeWorkspaces [ getMonitorFromCursor ( ) - > ID ] ;
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for ( auto & window : windows ) {
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if ( window . getWorkspaceID ( ) = = WORKSPACE & & ! window . getIsFloating ( ) & & window . getDrawable ( ) > 0 ) {
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if ( cursorPos . x > = window . getPosition ( ) . x
& & cursorPos . x < = window . getPosition ( ) . x + window . getSize ( ) . x
& & cursorPos . y > = window . getPosition ( ) . y
& & cursorPos . y < = window . getPosition ( ) . y + window . getSize ( ) . y ) {
return & window ;
}
}
}
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return nullptr ;
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}
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void CWindowManager : : calculateNewTileSetOldTile ( CWindow * pWindow ) {
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// Get the parent and both children, one of which will be pWindow
const auto PPARENT = getWindowFromDrawable ( pWindow - > getParentNodeID ( ) ) ;
if ( ! PPARENT ) {
// New window on this workspace.
// Open a fullscreen window.
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const auto MONITOR = getMonitorFromWindow ( pWindow ) ;
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if ( ! MONITOR ) {
Debug : : log ( ERR , " Monitor was nullptr! (calculateNewTileSetOldTile) " ) ;
return ;
}
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pWindow - > setSize ( Vector2D ( MONITOR - > vecSize . x , MONITOR - > vecSize . y ) ) ;
pWindow - > setPosition ( Vector2D ( MONITOR - > vecPosition . x , MONITOR - > vecPosition . y ) ) ;
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return ;
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}
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// Get the sibling
const auto PSIBLING = getWindowFromDrawable ( PPARENT - > getChildNodeAID ( ) = = pWindow - > getDrawable ( ) ? PPARENT - > getChildNodeBID ( ) : PPARENT - > getChildNodeAID ( ) ) ;
// Should NEVER be null
if ( PSIBLING ) {
const auto PLASTSIZE = PPARENT - > getSize ( ) ;
const auto PLASTPOS = PPARENT - > getPosition ( ) ;
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if ( PLASTSIZE . x > PLASTSIZE . y ) {
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PSIBLING - > setPosition ( Vector2D ( PLASTPOS . x , PLASTPOS . y ) ) ;
PSIBLING - > setSize ( Vector2D ( PLASTSIZE . x / 2.f , PLASTSIZE . y ) ) ;
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pWindow - > setSize ( Vector2D ( PLASTSIZE . x / 2.f , PLASTSIZE . y ) ) ;
pWindow - > setPosition ( Vector2D ( PLASTPOS . x + PLASTSIZE . x / 2.f , PLASTPOS . y ) ) ;
} else {
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PSIBLING - > setPosition ( Vector2D ( PLASTPOS . x , PLASTPOS . y ) ) ;
PSIBLING - > setSize ( Vector2D ( PLASTSIZE . x , PLASTSIZE . y / 2.f ) ) ;
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pWindow - > setSize ( Vector2D ( PLASTSIZE . x , PLASTSIZE . y / 2.f ) ) ;
pWindow - > setPosition ( Vector2D ( PLASTPOS . x , PLASTPOS . y + PLASTSIZE . y / 2.f ) ) ;
}
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PSIBLING - > setDirty ( true ) ;
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} else {
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Debug : : log ( ERR , " Sibling node was null?? pWindow x,y,w,h: " + std : : to_string ( pWindow - > getPosition ( ) . x ) + " "
+ std : : to_string ( pWindow - > getPosition ( ) . y ) + " " + std : : to_string ( pWindow - > getSize ( ) . x ) + " "
+ std : : to_string ( pWindow - > getSize ( ) . y ) ) ;
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}
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Values [ 0 ] = XCB_STACK_MODE_BELOW ;
xcb_configure_window ( DisplayConnection , pWindow - > getDrawable ( ) , XCB_CONFIG_WINDOW_STACK_MODE , Values ) ;
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}
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void CWindowManager : : calculateNewFloatingWindow ( CWindow * pWindow ) {
if ( ! pWindow )
return ;
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if ( ! pWindow - > getNoInterventions ( ) ) {
pWindow - > setPosition ( pWindow - > getDefaultPosition ( ) ) ;
pWindow - > setSize ( pWindow - > getDefaultSize ( ) ) ;
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pWindow - > setEffectivePosition ( pWindow - > getPosition ( ) + Vector2D ( 10 , 10 ) ) ;
pWindow - > setEffectiveSize ( pWindow - > getDefaultSize ( ) ) ;
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pWindow - > setRealPosition ( pWindow - > getPosition ( ) ) ;
pWindow - > setRealSize ( pWindow - > getSize ( ) ) ;
}
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Values [ 0 ] = XCB_STACK_MODE_ABOVE ;
xcb_configure_window ( DisplayConnection , pWindow - > getDrawable ( ) , XCB_CONFIG_WINDOW_STACK_MODE , Values ) ;
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}
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void CWindowManager : : calculateNewWindowParams ( CWindow * pWindow ) {
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// And set old one's if needed.
if ( ! pWindow )
return ;
if ( ! pWindow - > getIsFloating ( ) ) {
calculateNewTileSetOldTile ( pWindow ) ;
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} else {
calculateNewFloatingWindow ( pWindow ) ;
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}
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setEffectiveSizePosUsingConfig ( pWindow ) ;
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pWindow - > setDirty ( true ) ;
}
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bool CWindowManager : : isNeighbor ( CWindow * a , CWindow * b ) {
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if ( a - > getWorkspaceID ( ) ! = b - > getWorkspaceID ( ) )
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return false ; // Different workspaces
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const auto POSA = a - > getPosition ( ) ;
const auto POSB = b - > getPosition ( ) ;
const auto SIZEA = a - > getSize ( ) ;
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const auto SIZEB = b - > getSize ( ) ;
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if ( POSA . x ! = 0 ) {
if ( STICKS ( POSA . x , ( POSB . x + SIZEB . x ) ) ) {
return true ;
}
}
if ( POSA . y ! = 0 ) {
if ( STICKS ( POSA . y , ( POSB . y + SIZEB . y ) ) ) {
return true ;
}
}
if ( POSB . x ! = 0 ) {
if ( STICKS ( POSB . x , ( POSA . x + SIZEA . x ) ) ) {
return true ;
}
}
if ( POSB . y ! = 0 ) {
if ( STICKS ( POSB . y , ( POSA . y + SIZEA . y ) ) ) {
return true ;
}
}
return false ;
}
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bool CWindowManager : : canEatWindow ( CWindow * a , CWindow * toEat ) {
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// Pos is min of both.
const auto POSAFTEREAT = Vector2D ( std : : min ( a - > getPosition ( ) . x , toEat - > getPosition ( ) . x ) , std : : min ( a - > getPosition ( ) . y , toEat - > getPosition ( ) . y ) ) ;
// Size is pos + size max - pos
const auto OPPCORNERA = Vector2D ( POSAFTEREAT ) + a - > getSize ( ) ;
const auto OPPCORNERB = toEat - > getPosition ( ) + toEat - > getSize ( ) ;
const auto SIZEAFTEREAT = Vector2D ( std : : max ( OPPCORNERA . x , OPPCORNERB . x ) , std : : max ( OPPCORNERA . y , OPPCORNERB . y ) ) - POSAFTEREAT ;
const auto doOverlap = [ & ] ( CWindow * b ) {
const auto RIGHT1 = Vector2D ( POSAFTEREAT . x + SIZEAFTEREAT . x , POSAFTEREAT . y + SIZEAFTEREAT . y ) ;
const auto RIGHT2 = b - > getPosition ( ) + b - > getSize ( ) ;
const auto LEFT1 = POSAFTEREAT ;
const auto LEFT2 = b - > getPosition ( ) ;
return ! ( LEFT1 . x > = RIGHT2 . x | | LEFT2 . x > = RIGHT1 . x | | LEFT1 . y > = RIGHT2 . y | | LEFT2 . y > = RIGHT1 . y ) ;
} ;
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for ( auto & w : windows ) {
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if ( w . getDrawable ( ) = = a - > getDrawable ( ) | | w . getDrawable ( ) = = toEat - > getDrawable ( ) | | w . getWorkspaceID ( ) ! = toEat - > getWorkspaceID ( )
| | w . getIsFloating ( ) | | getMonitorFromWindow ( & w ) ! = getMonitorFromWindow ( toEat ) )
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continue ;
if ( doOverlap ( & w ) )
return false ;
}
return true ;
}
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void CWindowManager : : eatWindow ( CWindow * a , CWindow * toEat ) {
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// Size is pos + size max - pos
const auto OPPCORNERA = a - > getPosition ( ) + a - > getSize ( ) ;
const auto OPPCORNERB = toEat - > getPosition ( ) + toEat - > getSize ( ) ;
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// Pos is min of both.
a - > setPosition ( Vector2D ( std : : min ( a - > getPosition ( ) . x , toEat - > getPosition ( ) . x ) , std : : min ( a - > getPosition ( ) . y , toEat - > getPosition ( ) . y ) ) ) ;
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a - > setSize ( Vector2D ( std : : max ( OPPCORNERA . x , OPPCORNERB . x ) , std : : max ( OPPCORNERA . y , OPPCORNERB . y ) ) - a - > getPosition ( ) ) ;
}
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void CWindowManager : : closeWindowAllChecks ( int64_t id ) {
// fix last window if tile
const auto CLOSEDWINDOW = g_pWindowManager - > getWindowFromDrawable ( id ) ;
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if ( CLOSEDWINDOW ) {
if ( ! CLOSEDWINDOW - > getIsFloating ( ) )
g_pWindowManager - > fixWindowOnClose ( CLOSEDWINDOW ) ;
if ( const auto WORKSPACE = getWorkspaceByID ( CLOSEDWINDOW - > getWorkspaceID ( ) ) ; WORKSPACE & & CLOSEDWINDOW - > getFullscreen ( ) )
WORKSPACE - > setHasFullscreenWindow ( false ) ;
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}
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// delete off of the arr
g_pWindowManager - > removeWindowFromVectorSafe ( id ) ;
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}
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void CWindowManager : : fixWindowOnClose ( CWindow * pClosedWindow ) {
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if ( ! pClosedWindow )
return ;
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// Get the parent and both children, one of which will be pWindow
const auto PPARENT = getWindowFromDrawable ( pClosedWindow - > getParentNodeID ( ) ) ;
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if ( ! PPARENT )
return ; // if there was no parent, we do not need to update anything. it was a fullscreen window, the only one on a given workspace.
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// Get the sibling
const auto PSIBLING = getWindowFromDrawable ( PPARENT - > getChildNodeAID ( ) = = pClosedWindow - > getDrawable ( ) ? PPARENT - > getChildNodeBID ( ) : PPARENT - > getChildNodeAID ( ) ) ;
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if ( ! PSIBLING ) {
Debug : : log ( ERR , " No sibling found in fixOnClose! (Corrupted tree...?) " ) ;
return ;
}
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PSIBLING - > setPosition ( PPARENT - > getPosition ( ) ) ;
PSIBLING - > setSize ( PPARENT - > getSize ( ) ) ;
// make the sibling replace the parent
PSIBLING - > setParentNodeID ( PPARENT - > getParentNodeID ( ) ) ;
if ( PPARENT - > getParentNodeID ( ) ! = 0
& & getWindowFromDrawable ( PPARENT - > getParentNodeID ( ) ) ) {
if ( getWindowFromDrawable ( PPARENT - > getParentNodeID ( ) ) - > getChildNodeAID ( ) = = PPARENT - > getDrawable ( ) ) {
getWindowFromDrawable ( PPARENT - > getParentNodeID ( ) ) - > setChildNodeAID ( PSIBLING - > getDrawable ( ) ) ;
} else {
getWindowFromDrawable ( PPARENT - > getParentNodeID ( ) ) - > setChildNodeBID ( PSIBLING - > getDrawable ( ) ) ;
}
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}
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// Make the sibling eat the closed window
PSIBLING - > setDirtyRecursive ( true ) ;
PSIBLING - > recalcSizePosRecursive ( ) ;
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// Remove the parent
removeWindowFromVectorSafe ( PPARENT - > getDrawable ( ) ) ;
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if ( findWindowAtCursor ( ) )
setFocusedWindow ( findWindowAtCursor ( ) - > getDrawable ( ) ) ; // Set focus. :)
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}
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CWindow * CWindowManager : : getNeighborInDir ( char dir ) {
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const auto CURRENTWINDOW = getWindowFromDrawable ( LastWindow ) ;
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if ( ! CURRENTWINDOW )
return nullptr ;
const auto POSA = CURRENTWINDOW - > getPosition ( ) ;
const auto SIZEA = CURRENTWINDOW - > getSize ( ) ;
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for ( auto & w : windows ) {
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if ( w . getDrawable ( ) = = CURRENTWINDOW - > getDrawable ( ) | | w . getWorkspaceID ( ) ! = CURRENTWINDOW - > getWorkspaceID ( ) )
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continue ;
const auto POSB = w . getPosition ( ) ;
const auto SIZEB = w . getSize ( ) ;
switch ( dir ) {
case ' l ' :
if ( STICKS ( POSA . x , POSB . x + SIZEB . x ) )
return & w ;
break ;
case ' r ' :
if ( STICKS ( POSA . x + SIZEA . x , POSB . x ) )
return & w ;
break ;
case ' t ' :
if ( STICKS ( POSA . y , POSB . y + SIZEB . y ) )
return & w ;
break ;
case ' b ' :
if ( STICKS ( POSA . y + SIZEA . y , POSB . y ) )
return & w ;
break ;
}
}
return nullptr ;
}
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// I don't know if this works, it might be an issue with my nested Xorg session I am using rn to test this.
// Will check later.
// TODO:
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void CWindowManager : : warpCursorTo ( Vector2D to ) {
const auto POINTERCOOKIE = xcb_query_pointer ( DisplayConnection , Screen - > root ) ;
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xcb_query_pointer_reply_t * pointerreply = xcb_query_pointer_reply ( DisplayConnection , POINTERCOOKIE , NULL ) ;
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if ( ! pointerreply ) {
Debug : : log ( ERR , " Couldn't query pointer. " ) ;
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free ( pointerreply ) ;
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return ;
}
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xcb_warp_pointer ( DisplayConnection , XCB_NONE , Screen - > root , 0 , 0 , 0 , 0 , ( int ) to . x , ( int ) to . y ) ;
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free ( pointerreply ) ;
}
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void CWindowManager : : moveActiveWindowToWorkspace ( int workspace ) {
const auto PWINDOW = getWindowFromDrawable ( LastWindow ) ;
if ( ! PWINDOW )
return ;
const auto SAVEDDEFAULTSIZE = PWINDOW - > getDefaultSize ( ) ;
const auto SAVEDFLOATSTATUS = PWINDOW - > getIsFloating ( ) ;
const auto SAVEDDRAWABLE = PWINDOW - > getDrawable ( ) ;
closeWindowAllChecks ( SAVEDDRAWABLE ) ;
// PWINDOW is dead!
changeWorkspaceByID ( workspace ) ;
// Find new mon
int NEWMONITOR = 0 ;
for ( long unsigned int i = 0 ; i < activeWorkspaces . size ( ) ; + + i ) {
if ( activeWorkspaces [ i ] = = workspace ) {
NEWMONITOR = i ;
}
}
// Find the first window on the new workspace
xcb_drawable_t newLastWindow = 0 ;
for ( auto & w : windows ) {
if ( w . getDrawable ( ) > 0 & & w . getWorkspaceID ( ) = = workspace & & ! w . getIsFloating ( ) ) {
newLastWindow = w . getDrawable ( ) ;
break ;
}
}
if ( newLastWindow ) {
setFocusedWindow ( newLastWindow ) ;
}
CWindow * PNEWWINDOW = nullptr ;
if ( SAVEDFLOATSTATUS )
PNEWWINDOW = Events : : remapFloatingWindow ( SAVEDDRAWABLE , NEWMONITOR ) ;
else
PNEWWINDOW = Events : : remapWindow ( SAVEDDRAWABLE , false , NEWMONITOR ) ;
PNEWWINDOW - > setDefaultSize ( SAVEDDEFAULTSIZE ) ;
}
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void CWindowManager : : moveActiveWindowTo ( char dir ) {
const auto CURRENTWINDOW = getWindowFromDrawable ( LastWindow ) ;
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if ( ! CURRENTWINDOW )
return ;
const auto neighbor = getNeighborInDir ( dir ) ;
if ( ! neighbor )
return ;
// swap their stuff and mark dirty
const auto TEMP_SIZEA = CURRENTWINDOW - > getSize ( ) ;
const auto TEMP_POSA = CURRENTWINDOW - > getPosition ( ) ;
CURRENTWINDOW - > setSize ( neighbor - > getSize ( ) ) ;
CURRENTWINDOW - > setPosition ( neighbor - > getPosition ( ) ) ;
neighbor - > setSize ( TEMP_SIZEA ) ;
neighbor - > setPosition ( TEMP_POSA ) ;
CURRENTWINDOW - > setDirty ( true ) ;
neighbor - > setDirty ( true ) ;
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// finish by moving the cursor to the current window
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warpCursorTo ( CURRENTWINDOW - > getPosition ( ) + CURRENTWINDOW - > getSize ( ) / 2.f ) ;
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}
void CWindowManager : : changeWorkspaceByID ( int ID ) {
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const auto MONITOR = getMonitorFromCursor ( ) ;
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if ( ! MONITOR ) {
Debug : : log ( ERR , " Monitor was nullptr! (changeWorkspaceByID) " ) ;
return ;
}
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// mark old workspace dirty
setAllWorkspaceWindowsDirtyByID ( activeWorkspaces [ MONITOR - > ID ] ) ;
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for ( auto & workspace : workspaces ) {
if ( workspace . getID ( ) = = ID ) {
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// set workspaces dirty
setAllWorkspaceWindowsDirtyByID ( activeWorkspaces [ workspace . getMonitor ( ) ] ) ;
setAllWorkspaceWindowsDirtyByID ( ID ) ;
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activeWorkspaces [ workspace . getMonitor ( ) ] = workspace . getID ( ) ;
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// set the focus to any window on that workspace
for ( auto & window : windows ) {
if ( window . getWorkspaceID ( ) = = ID & & window . getDrawable ( ) > 0 ) {
g_pWindowManager - > setFocusedWindow ( window . getDrawable ( ) ) ;
break ;
}
}
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// Update bar info
updateBarInfo ( ) ;
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return ;
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}
}
// If we are here it means the workspace is new. Let's create it.
CWorkspace newWorkspace ;
newWorkspace . setID ( ID ) ;
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newWorkspace . setMonitor ( MONITOR - > ID ) ;
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workspaces . push_back ( newWorkspace ) ;
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activeWorkspaces [ MONITOR - > ID ] = workspaces [ workspaces . size ( ) - 1 ] . getID ( ) ;
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LastWindow = - 1 ;
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// Update bar info
updateBarInfo ( ) ;
// no need for the new dirty, it's empty
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}
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void CWindowManager : : setAllWindowsDirty ( ) {
for ( auto & window : windows ) {
window . setDirty ( true ) ;
}
}
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void CWindowManager : : setAllWorkspaceWindowsDirtyByID ( int ID ) {
int workspaceID = - 1 ;
for ( auto & workspace : workspaces ) {
if ( workspace . getID ( ) = = ID ) {
workspaceID = workspace . getID ( ) ;
break ;
}
}
if ( workspaceID = = - 1 )
return ;
for ( auto & window : windows ) {
if ( window . getWorkspaceID ( ) = = workspaceID )
window . setDirty ( true ) ;
}
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}
int CWindowManager : : getHighestWorkspaceID ( ) {
int max = - 1 ;
for ( auto & workspace : workspaces ) {
if ( workspace . getID ( ) > max ) {
max = workspace . getID ( ) ;
}
}
return max ;
}
CWorkspace * CWindowManager : : getWorkspaceByID ( int ID ) {
for ( auto & workspace : workspaces ) {
if ( workspace . getID ( ) = = ID ) {
return & workspace ;
}
}
return nullptr ;
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}
SMonitor * CWindowManager : : getMonitorFromWindow ( CWindow * pWindow ) {
return & monitors [ pWindow - > getMonitor ( ) ] ;
}
SMonitor * CWindowManager : : getMonitorFromCursor ( ) {
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const auto CURSORPOS = getCursorPos ( ) ;
for ( auto & monitor : monitors ) {
if ( VECINRECT ( CURSORPOS , monitor . vecPosition . x , monitor . vecPosition . y , monitor . vecPosition . x + monitor . vecSize . x , monitor . vecPosition . y + monitor . vecSize . y ) )
return & monitor ;
}
// should never happen tho, I'm using >= and the cursor cant get outside the screens, i hope.
return nullptr ;
}
Vector2D CWindowManager : : getCursorPos ( ) {
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const auto POINTERCOOKIE = xcb_query_pointer ( DisplayConnection , Screen - > root ) ;
xcb_query_pointer_reply_t * pointerreply = xcb_query_pointer_reply ( DisplayConnection , POINTERCOOKIE , NULL ) ;
if ( ! pointerreply ) {
Debug : : log ( ERR , " Couldn't query pointer. " ) ;
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free ( pointerreply ) ;
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return Vector2D ( 0 , 0 ) ;
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}
const auto CURSORPOS = Vector2D ( pointerreply - > root_x , pointerreply - > root_y ) ;
free ( pointerreply ) ;
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return CURSORPOS ;
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}
bool CWindowManager : : isWorkspaceVisible ( int workspaceID ) {
for ( auto & workspace : activeWorkspaces ) {
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if ( workspace = = workspaceID )
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return true ;
}
return false ;
}
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void CWindowManager : : updateBarInfo ( ) {
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// IPC
// What we need to send:
// - Workspace data
// - Active Workspace
SIPCMessageMainToBar message ;
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if ( ! getMonitorFromCursor ( ) ) {
Debug : : log ( ERR , " Monitor was null! (updateBarInfo) " ) ;
return ;
}
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message . activeWorkspace = activeWorkspaces [ getMonitorFromCursor ( ) - > ID ] ;
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auto winname = getWindowFromDrawable ( LastWindow ) ? getWindowFromDrawable ( LastWindow ) - > getName ( ) : " " ;
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auto winclassname = getWindowFromDrawable ( LastWindow ) ? getWindowFromDrawable ( LastWindow ) - > getClassName ( ) : " " ;
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for ( auto & c : winname ) {
// Remove illegal chars
if ( c = = ' = ' )
c = ' ' ;
else if ( c = = ' \t ' )
c = ' ' ;
}
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for ( auto & c : winclassname ) {
// Remove illegal chars
if ( c = = ' = ' )
c = ' ' ;
else if ( c = = ' \t ' )
c = ' ' ;
}
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message . lastWindowName = winname ;
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message . lastWindowClass = winclassname ;
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message . fullscreenOnBar = getWorkspaceByID ( activeWorkspaces [ ConfigManager : : getInt ( " bar:monitor " ) > monitors . size ( ) ? 0 : ConfigManager : : getInt ( " bar:monitor " ) ] ) - > getHasFullscreenWindow ( ) ;
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for ( auto & workspace : workspaces ) {
message . openWorkspaces . push_back ( workspace . getID ( ) ) ;
}
IPCSendMessage ( m_sIPCBarPipeIn . szPipeName , message ) ;
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// Also check if the bar should be made invisibel
// we make it by moving it far far away
// the bar will also stop all updates
if ( message . fullscreenOnBar ) {
if ( lastKnownBarPosition . x = = - 1 & & lastKnownBarPosition . y = = - 1 ) {
lastKnownBarPosition = monitors [ ConfigManager : : getInt ( " bar:monitor " ) > monitors . size ( ) ? 0 : ConfigManager : : getInt ( " bar:monitor " ) ] . vecPosition ;
}
Values [ 0 ] = ( int ) - 99999 ;
Values [ 1 ] = ( int ) - 99999 ;
xcb_configure_window ( DisplayConnection , barWindowID , XCB_CONFIG_WINDOW_X | XCB_CONFIG_WINDOW_Y , Values ) ;
} else {
if ( lastKnownBarPosition . x ! = - 1 & & lastKnownBarPosition . y ! = - 1 ) {
Values [ 0 ] = ( int ) lastKnownBarPosition . x ;
Values [ 1 ] = ( int ) lastKnownBarPosition . y ;
xcb_configure_window ( DisplayConnection , barWindowID , XCB_CONFIG_WINDOW_X | XCB_CONFIG_WINDOW_Y , Values ) ;
}
lastKnownBarPosition = Vector2D ( - 1 , - 1 ) ;
}
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}
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void CWindowManager : : setAllFloatingWindowsTop ( ) {
for ( auto & window : windows ) {
if ( window . getIsFloating ( ) ) {
Values [ 0 ] = XCB_STACK_MODE_ABOVE ;
xcb_configure_window ( g_pWindowManager - > DisplayConnection , window . getDrawable ( ) , XCB_CONFIG_WINDOW_STACK_MODE , Values ) ;
}
}
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}
bool CWindowManager : : shouldBeFloatedOnInit ( int64_t window ) {
// Should be floated also sets some properties
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// get stuffza
// floating for krunner
// TODO: config this
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const auto WINCLASS = getClassName ( window ) ;
const auto CLASSNAME = WINCLASS . second ;
const auto CLASSINSTANCE = WINCLASS . first ;
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Debug : : log ( LOG , " New window got class " + ( std : : string ) CLASSINSTANCE + " -> " + CLASSNAME ) ;
xcb_change_property ( DisplayConnection , XCB_PROP_MODE_REPLACE , window , XCB_ATOM_WM_NAME , XCB_ATOM_STRING , 8 , strlen ( " hypr " ) , " hypr " ) ;
if ( ( ( std : : string ) CLASSNAME ) . find ( " krunner " ) ! = std : : string : : npos ) {
return true ;
}
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// Role stuff
const auto WINROLE = getRoleName ( window ) ;
Debug : : log ( LOG , " Window opened with a role of " + WINROLE ) ;
if ( WINROLE . find ( " pop-up " ) ! = std : : string : : npos | | WINROLE . find ( " task_dialog " ) ! = std : : string : : npos ) {
return true ;
}
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//
// Type stuff
//
PROP ( wm_type_cookie , HYPRATOMS [ " _NET_WM_WINDOW_TYPE " ] , UINT32_MAX ) ;
xcb_atom_t TYPEATOM = NULL ;
if ( wm_type_cookiereply = = NULL | | xcb_get_property_value_length ( wm_type_cookiereply ) < 1 ) {
Debug : : log ( LOG , " No preferred type found. " ) ;
} else {
const auto ATOMS = ( xcb_atom_t * ) xcb_get_property_value ( wm_type_cookiereply ) ;
if ( ! ATOMS ) {
Debug : : log ( ERR , " Atoms not found in preferred type! " ) ;
} else {
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if ( xcbContainsAtom ( wm_type_cookiereply , HYPRATOMS [ " _NET_WM_WINDOW_TYPE_DOCK " ] ) ) {
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free ( wm_type_cookiereply ) ;
return true ;
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} else if ( xcbContainsAtom ( wm_type_cookiereply , HYPRATOMS [ " _NET_WM_WINDOW_TYPE_DIALOG " ] )
| | xcbContainsAtom ( wm_type_cookiereply , HYPRATOMS [ " _NET_WM_WINDOW_TYPE_TOOLBAR " ] )
| | xcbContainsAtom ( wm_type_cookiereply , HYPRATOMS [ " _NET_WM_WINDOW_TYPE_UTILITY " ] )
| | xcbContainsAtom ( wm_type_cookiereply , HYPRATOMS [ " _NET_WM_STATE_MODAL " ] )
| | xcbContainsAtom ( wm_type_cookiereply , HYPRATOMS [ " _NET_WM_WINDOW_TYPE_SPLASH " ] ) ) {
Events : : nextWindowCentered = true ;
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free ( wm_type_cookiereply ) ;
return true ;
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}
}
}
free ( wm_type_cookiereply ) ;
//
//
//
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return false ;
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}
void CWindowManager : : updateActiveWindowName ( ) {
if ( ! getWindowFromDrawable ( LastWindow ) )
return ;
const auto PLASTWINDOW = getWindowFromDrawable ( LastWindow ) ;
auto WINNAME = getWindowName ( LastWindow ) ;
if ( WINNAME ! = PLASTWINDOW - > getName ( ) ) {
Debug : : log ( LOG , " Update, window got name: " + WINNAME ) ;
PLASTWINDOW - > setName ( WINNAME ) ;
}
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}
void CWindowManager : : doPostCreationChecks ( CWindow * pWindow ) {
//
Debug : : log ( LOG , " Post creation checks init " ) ;
const auto window = pWindow - > getDrawable ( ) ;
PROP ( wm_type_cookie , HYPRATOMS [ " _NET_WM_WINDOW_TYPE " ] , UINT32_MAX ) ;
if ( wm_type_cookiereply = = NULL | | xcb_get_property_value_length ( wm_type_cookiereply ) < 1 ) {
Debug : : log ( LOG , " No preferred type found. " ) ;
} else {
const auto ATOMS = ( xcb_atom_t * ) xcb_get_property_value ( wm_type_cookiereply ) ;
if ( ! ATOMS ) {
Debug : : log ( ERR , " Atoms not found in preferred type! " ) ;
} else {
if ( xcbContainsAtom ( wm_type_cookiereply , HYPRATOMS [ " _NET_WM_STATE_FULLSCREEN " ] ) ) {
// set it fullscreen
pWindow - > setFullscreen ( true ) ;
setFocusedWindow ( window ) ;
KeybindManager : : toggleActiveWindowFullscreen ( " " ) ;
}
}
}
free ( wm_type_cookiereply ) ;
Debug : : log ( LOG , " Post creation checks ended " ) ;
//
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}
void CWindowManager : : getICCCMWMProtocols ( CWindow * pWindow ) {
xcb_icccm_get_wm_protocols_reply_t WMProtocolsReply ;
if ( ! xcb_icccm_get_wm_protocols_reply ( DisplayConnection ,
xcb_icccm_get_wm_protocols ( DisplayConnection , pWindow - > getDrawable ( ) , HYPRATOMS [ " WM_PROTOCOLS " ] ) , & WMProtocolsReply , NULL ) )
return ;
for ( auto i = 0 ; i < ( int ) WMProtocolsReply . atoms_len ; i + + ) {
if ( WMProtocolsReply . atoms [ i ] = = HYPRATOMS [ " WM_DELETE_WINDOW " ] )
pWindow - > setCanKill ( true ) ;
}
xcb_icccm_get_wm_protocols_reply_wipe ( & WMProtocolsReply ) ;
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}
void CWindowManager : : refocusWindowOnClosed ( ) {
const auto PWINDOW = findWindowAtCursor ( ) ;
if ( ! PWINDOW )
return ;
LastWindow = PWINDOW - > getDrawable ( ) ;
setFocusedWindow ( PWINDOW - > getDrawable ( ) ) ;
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}