Hypr/src/windowManager.cpp

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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;
}
void CWindowManager::setupDepth() {
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Depth = 24;
VisualType = setupColors(Depth);
}
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!");
monitors.clear();
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#define TESTING_MON_AMOUNT 3
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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}
}
void CWindowManager::setupManager() {
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setupColormapAndStuff();
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
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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// ---- INIT THE THREAD FOR ANIM & CONFIG ---- //
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// start its' update thread
Events::setThread();
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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bool CWindowManager::handleEvent() {
if (xcb_connection_has_error(DisplayConnection))
return false;
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xcb_flush(DisplayConnection);
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// recieve the event. Blocks.
recieveEvent();
// refresh and apply the parameters of all dirty windows.
refreshDirtyWindows();
// Sanity checks
for (const auto active : activeWorkspaces) {
sanityCheckOnWorkspace(active);
}
// remove unused workspaces
cleanupUnusedWorkspaces();
// Update last window name
updateActiveWindowName();
// Update the bar with the freshest stuff
updateBarInfo();
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// Update EWMH workspace info
EWMH::updateDesktops();
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xcb_flush(DisplayConnection);
// Restore thread state
mainThreadBusy = false;
return true;
}
void CWindowManager::recieveEvent() {
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const auto ev = xcb_wait_for_event(DisplayConnection);
if (ev != NULL) {
while (animationUtilBusy) {
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; // wait for it to finish
}
// Set thread state, halt animations until done.
mainThreadBusy = true;
// Read from the bar
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if (!g_pWindowManager->statusBar)
IPCRecieveMessageM(m_sIPCBarPipeOut.szPipeName);
const auto EVENTCODE = ev->response_type & ~0x80;
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switch (EVENTCODE) {
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;
case XCB_DESTROY_NOTIFY:
Events::eventDestroy(ev);
Debug::log(LOG, "Event dispatched DESTROY");
break;
case XCB_UNMAP_NOTIFY:
Events::eventUnmapWindow(ev);
Debug::log(LOG, "Event dispatched UNMAP");
break;
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);
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// Debug::log(LOG, "Event dispatched MOTION_NOTIFY"); // Spam!!
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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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case XCB_CLIENT_MESSAGE:
Events::eventClientMessage(ev);
Debug::log(LOG, "Event dispatched CLIENT_MESSAGE");
break;
default:
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if ((EVENTCODE != 14) && (EVENTCODE != 13) && (EVENTCODE != 0) && (EVENTCODE != 22))
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Debug::log(WARN, "Unknown event: " + std::to_string(ev->response_type & ~0x80));
break;
}
free(ev);
}
}
void CWindowManager::cleanupUnusedWorkspaces() {
std::vector<CWorkspace> temp = workspaces;
workspaces.clear();
for (auto& work : temp) {
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if (!isWorkspaceVisible(work.getID())) {
// 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);
}
}
// Update bar info
updateBarInfo();
}
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void CWindowManager::refreshDirtyWindows() {
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const auto START = std::chrono::high_resolution_clock::now();
for(auto& window : windows) {
if (window.getDirty()) {
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window.setDirty(false);
// Check if the window isn't a node or has the noInterventions prop
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if (window.getChildNodeAID() != 0 || window.getNoInterventions() || window.getDock())
continue;
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setEffectiveSizePosUsingConfig(&window);
// 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 thats under
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if (!isWorkspaceVisible(window.getWorkspaceID())
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|| (bHasFullscreenWindow && !window.getFullscreen() && (window.getUnderFullscreen() || !window.getIsFloating()))) {
// 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 =)
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if (VECTORDELTANONZERO(window.getLastUpdatePosition(), Vector2D(Values[0], Values[1]))) {
xcb_configure_window(DisplayConnection, window.getDrawable(), XCB_CONFIG_WINDOW_X | XCB_CONFIG_WINDOW_Y, Values);
window.setLastUpdatePosition(Vector2D(Values[0], Values[1]));
}
// Set the size JIC.
Values[0] = (int)window.getEffectiveSize().x;
Values[1] = (int)window.getEffectiveSize().y;
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if (VECTORDELTANONZERO(window.getLastUpdateSize(), Vector2D(Values[0], Values[1]))) {
xcb_configure_window(DisplayConnection, window.getDrawable(), XCB_CONFIG_WINDOW_WIDTH | XCB_CONFIG_WINDOW_HEIGHT, Values);
window.setLastUpdateSize(Vector2D(Values[0], Values[1]));
}
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);
const auto MONITOR = getMonitorFromWindow(&window);
Values[0] = (int)MONITOR->vecSize.x;
Values[1] = (int)MONITOR->vecSize.y;
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if (VECTORDELTANONZERO(window.getLastUpdateSize(), Vector2D(Values[0], Values[1]))) {
xcb_configure_window(DisplayConnection, window.getDrawable(), XCB_CONFIG_WINDOW_WIDTH | XCB_CONFIG_WINDOW_HEIGHT, Values);
window.setLastUpdateSize(Vector2D(Values[0], Values[1]));
}
Values[0] = (int)MONITOR->vecPosition.x;
Values[1] = (int)MONITOR->vecPosition.y;
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if (VECTORDELTANONZERO(window.getLastUpdatePosition(), Vector2D(Values[0], Values[1]))) {
xcb_configure_window(DisplayConnection, window.getDrawable(), XCB_CONFIG_WINDOW_X | XCB_CONFIG_WINDOW_Y, Values);
window.setLastUpdatePosition(Vector2D(Values[0], Values[1]));
}
// Apply rounded corners, does all the checks inside
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applyShapeToWindow(&window);
continue;
}
// Update the position because the border makes the window jump
// I have added the bordersize vec2d before in the setEffectiveSizePosUsingConfig function.
Values[0] = (int)window.getRealPosition().x - ConfigManager::getInt("border_size");
Values[1] = (int)window.getRealPosition().y - ConfigManager::getInt("border_size");
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if (VECTORDELTANONZERO(window.getLastUpdatePosition(), Vector2D(Values[0], Values[1]))) {
xcb_configure_window(DisplayConnection, window.getDrawable(), XCB_CONFIG_WINDOW_X | XCB_CONFIG_WINDOW_Y, Values);
window.setLastUpdatePosition(Vector2D(Values[0], Values[1]));
}
Values[0] = (int)ConfigManager::getInt("border_size");
xcb_configure_window(DisplayConnection, window.getDrawable(), XCB_CONFIG_WINDOW_BORDER_WIDTH, Values);
// do border
Values[0] = window.getRealBorderColor().getAsUint32();
xcb_change_window_attributes(DisplayConnection, window.getDrawable(), XCB_CW_BORDER_PIXEL, Values);
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// If it isn't animated or we have non-cheap animations, update the real size
if (!window.getIsAnimated() || ConfigManager::getInt("anim:cheap") == 0) {
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Values[0] = (int)window.getRealSize().x;
Values[1] = (int)window.getRealSize().y;
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if (VECTORDELTANONZERO(window.getLastUpdateSize(), Vector2D(Values[0], Values[1]))) {
xcb_configure_window(DisplayConnection, window.getDrawable(), XCB_CONFIG_WINDOW_WIDTH | XCB_CONFIG_WINDOW_HEIGHT, Values);
window.setLastUpdateSize(Vector2D(Values[0], Values[1]));
}
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window.setFirstAnimFrame(true);
}
if (ConfigManager::getInt("anim:cheap") == 1 && window.getFirstAnimFrame() && window.getIsAnimated()) {
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// first frame, fix the size if smaller
window.setFirstAnimFrame(false);
if (window.getRealSize().x < window.getEffectiveSize().x || window.getRealSize().y < window.getEffectiveSize().y) {
Values[0] = (int)window.getEffectiveSize().x;
Values[1] = (int)window.getEffectiveSize().y;
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if (VECTORDELTANONZERO(window.getLastUpdateSize(), Vector2D(Values[0], Values[1]))) {
xcb_configure_window(DisplayConnection, window.getDrawable(), XCB_CONFIG_WINDOW_WIDTH | XCB_CONFIG_WINDOW_HEIGHT, Values);
window.setLastUpdateSize(Vector2D(Values[0], Values[1]));
}
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}
}
applyShapeToWindow(&window);
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// EWMH
EWMH::updateWindow(window.getDrawable());
}
}
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Debug::log(LOG, "Refreshed dirty windows in " + std::to_string(std::chrono::duration_cast<std::chrono::microseconds>(std::chrono::high_resolution_clock::now() - START).count()) + "us.");
}
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void CWindowManager::setFocusedWindow(xcb_drawable_t window) {
if (window && window != Screen->root) {
// border color
if (const auto PLASTWIN = getWindowFromDrawable(LastWindow); PLASTWIN) {
PLASTWIN->setEffectiveBorderColor(CFloatingColor(ConfigManager::getInt("col.inactive_border")));
}
if (const auto PLASTWIN = getWindowFromDrawable(window); PLASTWIN) {
PLASTWIN->setEffectiveBorderColor(CFloatingColor(ConfigManager::getInt("col.active_border")));
}
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float values[1];
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if (const auto PWINDOW = g_pWindowManager->getWindowFromDrawable(window); PWINDOW) {
if (PWINDOW->getIsFloating()) {
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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
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applyShapeToWindow(PWINDOW);
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}
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LastWindow = window;
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if (g_pWindowManager->getWindowFromDrawable(window))
applyShapeToWindow(g_pWindowManager->getWindowFromDrawable(window));
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// set focus in X11
xcb_set_input_focus(DisplayConnection, XCB_INPUT_FOCUS_POINTER_ROOT, window, XCB_CURRENT_TIME);
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// EWMH
EWMH::updateCurrentWindow(window);
}
}
// 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);
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);
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);
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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}
}
}
CWindow* CWindowManager::getWindowFromDrawable(int64_t window) {
if (!window)
return nullptr;
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for (auto& w : windows) {
if (w.getDrawable() == window) {
return &w;
}
}
for (auto& w : unmappedWindows) {
if (w.getDrawable() == window) {
return &w;
}
}
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return nullptr;
}
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void CWindowManager::addWindowToVectorSafe(CWindow window) {
for (auto& w : windows) {
if (w.getDrawable() == window.getDrawable())
return; // Do not add if already present.
}
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windows.push_back(window);
}
void CWindowManager::removeWindowFromVectorSafe(int64_t window) {
if (!window)
return;
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std::vector<CWindow> temp = windows;
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windows.clear();
for(auto p : temp) {
if (p.getDrawable() != window) {
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windows.push_back(p);
continue;
}
}
}
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void CWindowManager::applyShapeToWindow(CWindow* pWindow) {
if (!pWindow)
return;
const auto ROUNDING = pWindow->getFullscreen() ? 0 : ConfigManager::getInt("rounding");
const auto SHAPEQUERY = xcb_get_extension_data(DisplayConnection, &xcb_shape_id);
if (!SHAPEQUERY || !SHAPEQUERY->present || pWindow->getNoInterventions())
return;
// 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
// XCB
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);
Values[0] = 0;
Values[1] = 0;
xcb_create_gc(DisplayConnection, BLACK, PIXMAP1, XCB_GC_FOREGROUND, Values);
Values[0] = 1;
xcb_create_gc(DisplayConnection, WHITE, PIXMAP1, XCB_GC_FOREGROUND, Values);
// 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
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);
// Shape done
// Cleanup
xcb_free_pixmap(DisplayConnection, PIXMAP1);
xcb_free_pixmap(DisplayConnection, PIXMAP2);
}
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void CWindowManager::setEffectiveSizePosUsingConfig(CWindow* pWindow) {
if (!pWindow || pWindow->getIsFloating())
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return;
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auto START = std::chrono::high_resolution_clock::now();
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const auto MONITOR = getMonitorFromWindow(pWindow);
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const auto BARHEIGHT = (MONITOR->ID == ConfigManager::getInt("bar:monitor") ? (ConfigManager::getInt("bar:enabled") == 1 ? ConfigManager::getInt("bar:height") : ConfigManager::parseError == "" ? 0 : ConfigManager::getInt("bar:height")) : 0);
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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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const auto BORDERSIZE = ConfigManager::getInt("border_size");
const auto GAPSOUT = ConfigManager::getInt("gaps_out");
const auto GAPSIN = ConfigManager::getInt("gaps_in");
pWindow->setEffectivePosition(pWindow->getPosition() + Vector2D(BORDERSIZE, BORDERSIZE));
pWindow->setEffectiveSize(pWindow->getSize() - (Vector2D(BORDERSIZE, BORDERSIZE) * 2));
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const auto OFFSETTOPLEFT = Vector2D(DISPLAYLEFT ? GAPSOUT + MONITOR->vecReservedTopLeft.x : GAPSIN,
DISPLAYTOP ? GAPSOUT + MONITOR->vecReservedTopLeft.y + BARHEIGHT : GAPSIN);
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const auto OFFSETBOTTOMRIGHT = Vector2D( DISPLAYRIGHT ? GAPSOUT + MONITOR->vecReservedBottomRight.x : GAPSIN,
DISPLAYBOTTOM ? GAPSOUT + MONITOR->vecReservedBottomRight.y : GAPSIN);
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// do gaps, set top left
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pWindow->setEffectivePosition(pWindow->getEffectivePosition() + OFFSETTOPLEFT);
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// fix to old size bottom right
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pWindow->setEffectiveSize(pWindow->getEffectiveSize() - OFFSETTOPLEFT);
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// set bottom right
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pWindow->setEffectiveSize(pWindow->getEffectiveSize() - OFFSETBOTTOMRIGHT);
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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) {
// Get the parent and both children, one of which will be pWindow
const auto PPARENT = getWindowFromDrawable(pWindow->getParentNodeID());
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const auto PMONITOR = getMonitorFromWindow(pWindow);
if (!PMONITOR) {
Debug::log(ERR, "Monitor was nullptr! (calculateNewTileSetOldTile)");
return;
}
if (!PPARENT) {
// New window on this workspace.
// Open a fullscreen window.
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pWindow->setSize(Vector2D(PMONITOR->vecSize.x, PMONITOR->vecSize.y));
pWindow->setPosition(Vector2D(PMONITOR->vecPosition.x, PMONITOR->vecPosition.y));
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return;
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}
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switch (ConfigManager::getInt("layout"))
{
case LAYOUT_DWINDLE:
{
// 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();
if (PLASTSIZE.x > PLASTSIZE.y) {
PSIBLING->setPosition(Vector2D(PLASTPOS.x, PLASTPOS.y));
PSIBLING->setSize(Vector2D(PLASTSIZE.x / 2.f, PLASTSIZE.y));
pWindow->setSize(Vector2D(PLASTSIZE.x / 2.f, PLASTSIZE.y));
pWindow->setPosition(Vector2D(PLASTPOS.x + PLASTSIZE.x / 2.f, PLASTPOS.y));
} else {
PSIBLING->setPosition(Vector2D(PLASTPOS.x, PLASTPOS.y));
PSIBLING->setSize(Vector2D(PLASTSIZE.x, PLASTSIZE.y / 2.f));
pWindow->setSize(Vector2D(PLASTSIZE.x, PLASTSIZE.y / 2.f));
pWindow->setPosition(Vector2D(PLASTPOS.x, PLASTPOS.y + PLASTSIZE.y / 2.f));
}
PSIBLING->setDirty(true);
} else {
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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break;
case LAYOUT_MASTER:
{
recalcEntireWorkspace(pWindow->getWorkspaceID());
}
break;
}
}
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int CWindowManager::getWindowsOnWorkspace(const int& workspace) {
int number = 0;
for (auto& w : windows) {
if (w.getWorkspaceID() == workspace && w.getDrawable() > 0) {
++number;
}
}
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return number;
}
SMonitor* CWindowManager::getMonitorFromWorkspace(const int& workspace) {
int monitorID = -1;
for (auto& work : workspaces) {
if (work.getID() == workspace) {
monitorID = work.getMonitor();
break;
}
}
for (auto& monitor : monitors) {
if (monitor.ID == monitorID) {
return &monitor;
}
}
return nullptr;
}
void CWindowManager::recalcEntireWorkspace(const int& workspace) {
switch (ConfigManager::getInt("layout"))
{
case LAYOUT_MASTER:
{
// Get the monitor
const auto PMONITOR = getMonitorFromWorkspace(workspace);
// first, calc the size
CWindow* pMaster = nullptr;
for (auto& w : windows) {
if (w.getWorkspaceID() == workspace && w.getMaster() && !w.getDead()) {
pMaster = &w;
break;
}
}
if (!pMaster) {
Debug::log(ERR, "No master found on workspace???");
return;
}
// set the xy for master
pMaster->setPosition(Vector2D(0, 0) + PMONITOR->vecPosition);
pMaster->setSize(Vector2D(PMONITOR->vecSize.x / 2, PMONITOR->vecSize.y));
// get children sorted
std::vector<CWindow*> children;
for (auto& w : windows) {
if (w.getWorkspaceID() == workspace && !w.getMaster() && w.getDrawable() > 0 && !w.getDead())
children.push_back(&w);
}
std::sort(children.begin(), children.end(), [](CWindow*& a, CWindow*& b) {
return a->getMasterChildIndex() < b->getMasterChildIndex();
});
// if no children, master full
if (children.size() == 0) {
pMaster->setPosition(Vector2D(0, 0) + PMONITOR->vecPosition);
pMaster->setSize(Vector2D(PMONITOR->vecSize.x, PMONITOR->vecSize.y));
}
// Children sorted, set xy
int yoff = 0;
for (const auto& child : children) {
child->setPosition(Vector2D(PMONITOR->vecSize.x / 2, yoff) + PMONITOR->vecPosition);
child->setSize(Vector2D(PMONITOR->vecSize.x / 2, PMONITOR->vecSize.y / children.size()));
yoff += PMONITOR->vecSize.y / children.size();
}
// done
setAllWorkspaceWindowsDirtyByID(workspace);
}
break;
case LAYOUT_DWINDLE:
{
// get the master on the workspace
CWindow* pMasterWindow = nullptr;
for (auto& w : windows) {
if (w.getWorkspaceID() == workspace && w.getParentNodeID() == 0) {
pMasterWindow = &w;
break;
}
}
if (!pMasterWindow) {
return;
}
pMasterWindow->recalcSizePosRecursive();
setAllWorkspaceWindowsDirtyByID(workspace);
}
break;
default:
break;
}
}
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void CWindowManager::calculateNewFloatingWindow(CWindow* pWindow) {
if (!pWindow)
return;
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if (!pWindow->getNoInterventions() && !pWindow->getDock()) {
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pWindow->setPosition(pWindow->getEffectivePosition() + Vector2D(3,3));
pWindow->setSize(pWindow->getEffectiveSize() - Vector2D(6, 6));
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// min size
pWindow->setSize(Vector2D(std::clamp(pWindow->getSize().x, (double)40, (double)99999),
std::clamp(pWindow->getSize().y, (double)40, (double)99999)));
pWindow->setEffectivePosition(pWindow->getPosition() + Vector2D(10, 10));
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pWindow->setEffectiveSize(pWindow->getSize());
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) {
// And set old one's if needed.
if (!pWindow)
return;
if (!pWindow->getIsFloating()) {
calculateNewTileSetOldTile(pWindow);
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} else {
calculateNewFloatingWindow(pWindow);
}
setEffectiveSizePosUsingConfig(pWindow);
pWindow->setDirty(true);
}
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bool CWindowManager::isNeighbor(CWindow* a, CWindow* b) {
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if (a->getWorkspaceID() != b->getWorkspaceID())
return false; // Different workspaces
const auto POSA = a->getPosition();
const auto POSB = b->getPosition();
const auto SIZEA = a->getSize();
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const auto SIZEB = b->getSize();
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)));
a->setSize(Vector2D(std::max(OPPCORNERA.x, OPPCORNERB.x), std::max(OPPCORNERA.y, OPPCORNERB.y)) - a->getPosition());
}
void CWindowManager::closeWindowAllChecks(int64_t id) {
// fix last window if tile
const auto CLOSEDWINDOW = g_pWindowManager->getWindowFromDrawable(id);
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if (!CLOSEDWINDOW)
return; // It's not in the vec, ignore. (weird)
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CLOSEDWINDOW->setDead(true);
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if (const auto WORKSPACE = getWorkspaceByID(CLOSEDWINDOW->getWorkspaceID()); WORKSPACE && CLOSEDWINDOW->getFullscreen())
WORKSPACE->setHasFullscreenWindow(false);
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if (!CLOSEDWINDOW->getIsFloating())
g_pWindowManager->fixWindowOnClose(CLOSEDWINDOW);
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const bool WASDOCK = CLOSEDWINDOW->getDock();
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// delete off of the arr
g_pWindowManager->removeWindowFromVectorSafe(id);
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// Fix docks
if (WASDOCK)
g_pWindowManager->recalcAllDocks();
}
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void CWindowManager::fixMasterWorkspaceOnClosed(CWindow* pWindow) {
// get children and master
CWindow* pMaster = nullptr;
for (auto& w : windows) {
if (w.getWorkspaceID() == pWindow->getWorkspaceID() && w.getMaster()) {
pMaster = &w;
break;
}
}
if (!pMaster) {
Debug::log(ERR, "No master found on workspace???");
return;
}
// get children sorted
std::vector<CWindow*> children;
for (auto& w : windows) {
if (w.getWorkspaceID() == pWindow->getWorkspaceID() && !w.getMaster() && w.getDrawable() > 0 && w.getDrawable() != pWindow->getDrawable())
children.push_back(&w);
}
std::sort(children.begin(), children.end(), [](CWindow*& a, CWindow*& b) {
return a->getMasterChildIndex() < b->getMasterChildIndex();
});
// If closed window was master, set a new master.
if (pWindow->getMaster()) {
if (children.size() > 0) {
children[0]->setMaster(true);
}
} else {
// else fix the indices
for (long unsigned int i = pWindow->getMasterChildIndex() - 1; i < children.size(); ++i) {
// masterChildIndex = 1 for the first child
children[i]->setMasterChildIndex(i);
}
}
}
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void CWindowManager::fixWindowOnClose(CWindow* pClosedWindow) {
if (!pClosedWindow)
return;
// 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.
// 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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// used by master layout
pClosedWindow->setDead(true);
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// FIX TREE ----
// make the sibling replace the parent
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PSIBLING->setPosition(PPARENT->getPosition());
PSIBLING->setSize(PPARENT->getSize());
PSIBLING->setParentNodeID(PPARENT->getParentNodeID());
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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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// TREE FIXED ----
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// Fix master stuff
const auto WORKSPACE = pClosedWindow->getWorkspaceID();
fixMasterWorkspaceOnClosed(pClosedWindow);
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// recalc the workspace
if (ConfigManager::getInt("layout") == LAYOUT_MASTER)
recalcEntireWorkspace(WORKSPACE);
else {
PSIBLING->recalcSizePosRecursive();
PSIBLING->setDirtyRecursive(true);
}
// Remove the parent
removeWindowFromVectorSafe(PPARENT->getDrawable());
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) {
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':
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case 'u':
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if (STICKS(POSA.y, POSB.y + SIZEB.y))
return &w;
break;
case 'b':
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case 'd':
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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);
}
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);
}
CWindow* CWindowManager::getFullscreenWindowByWorkspace(const int& id) {
for (auto& window : windows) {
if (window.getWorkspaceID() == id && window.getFullscreen())
return &window;
}
return nullptr;
}
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void CWindowManager::moveActiveFocusTo(char dir) {
const auto CURRENTWINDOW = getWindowFromDrawable(LastWindow);
if (!CURRENTWINDOW)
return;
const auto PWORKSPACE = getWorkspaceByID(CURRENTWINDOW->getWorkspaceID());
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if (!PWORKSPACE)
return;
const auto NEIGHBOR = PWORKSPACE->getHasFullscreenWindow() ? getFullscreenWindowByWorkspace(PWORKSPACE->getID()) : getNeighborInDir(dir);
if (!NEIGHBOR)
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return;
// move the focus
setFocusedWindow(NEIGHBOR->getDrawable());
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// finish by moving the cursor to the current window
warpCursorTo(CURRENTWINDOW->getPosition() + CURRENTWINDOW->getSize() / 2.f);
}
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;
}
// mark old workspace dirty
setAllWorkspaceWindowsDirtyByID(activeWorkspaces[MONITOR->ID]);
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for (auto& workspace : workspaces) {
if (workspace.getID() == ID) {
// set workspaces dirty
setAllWorkspaceWindowsDirtyByID(activeWorkspaces[workspace.getMonitor()]);
setAllWorkspaceWindowsDirtyByID(ID);
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activeWorkspaces[workspace.getMonitor()] = workspace.getID();
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// if not fullscreen set the focus to any window on that workspace
// if fullscreen, set to the fullscreen window
const auto PWORKSPACE = getWorkspaceByID(ID);
if (PWORKSPACE) {
if (!PWORKSPACE->getHasFullscreenWindow()) {
for (auto& window : windows) {
if (window.getWorkspaceID() == ID && window.getDrawable() > 0) {
setFocusedWindow(window.getDrawable());
break;
}
}
} else {
const auto PFULLWINDOW = getFullscreenWindowByWorkspace(ID);
if (PFULLWINDOW)
setFocusedWindow(PFULLWINDOW->getDrawable());
}
}
// Update bar info
updateBarInfo();
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return;
}
}
// 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);
workspaces.push_back(newWorkspace);
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activeWorkspaces[MONITOR->ID] = workspaces[workspaces.size() - 1].getID();
LastWindow = -1;
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// Update bar info
updateBarInfo();
// no need for the new dirty, it's empty
}
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void CWindowManager::setAllWindowsDirty() {
for (auto& window : windows) {
window.setDirty(true);
}
}
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;
}
void CWindowManager::updateBarInfo() {
// IPC
// What we need to send:
// - Workspace data
// - Active Workspace
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// If bar disabled, ignore
if (ConfigManager::getInt("bar:enabled") == 0)
return;
SIPCMessageMainToBar message;
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if (!getMonitorFromCursor()) {
Debug::log(ERR, "Monitor was null! (updateBarInfo)");
return;
}
message.activeWorkspace = activeWorkspaces[getMonitorFromCursor()->ID];
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auto winname = getWindowFromDrawable(LastWindow) ? getWindowFromDrawable(LastWindow)->getName() : "";
auto winclassname = getWindowFromDrawable(LastWindow) ? getWindowFromDrawable(LastWindow)->getClassName() : "";
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for (auto& c : winname) {
// Remove illegal chars
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if (c == '=' || c == '\t')
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c = ' ';
}
for (auto& c : winclassname) {
// Remove illegal chars
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if (c == '=' || c == '\t')
c = ' ';
}
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message.lastWindowName = winname;
message.lastWindowClass = winclassname;
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message.fullscreenOnBar = getWorkspaceByID(activeWorkspaces[ConfigManager::getInt("bar:monitor") > monitors.size() ? 0 : ConfigManager::getInt("bar:monitor")])->getHasFullscreenWindow();
for (auto& workspace : workspaces) {
message.openWorkspaces.push_back(workspace.getID());
}
IPCSendMessage(m_sIPCBarPipeIn.szPipeName, message);
// 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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}
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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}
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void CWindowManager::setAWindowTop(xcb_window_t window) {
Values[0] = XCB_STACK_MODE_ABOVE;
xcb_configure_window(g_pWindowManager->DisplayConnection, window, 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
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");
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// Verify the class (rules)
for (auto& rule : ConfigManager::windowRules) {
// check if we have a class rule
if (rule.szValue.find("class:") != 0)
continue;
// regex check the arg
std::regex classCheck(rule.szValue.substr(strlen("class:")));
if (!std::regex_search(CLASSNAME, classCheck))
continue;
// applies. Read the rule and behave accordingly
Debug::log(LOG, "Window rule " + rule.szRule + "," + rule.szValue + " matched.");
if (rule.szRule == "tile")
return false;
else if (rule.szRule == "float")
return true;
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}
// Role stuff
const auto WINROLE = getRoleName(window);
Debug::log(LOG, "Window opened with a role of " + WINROLE);
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for (auto& rule : ConfigManager::windowRules) {
// check if we have a role rule
if (rule.szValue.find("role:") != 0)
continue;
// regex check the arg
std::regex roleCheck(rule.szValue.substr(strlen("role:")));
if (!std::regex_search(WINROLE, roleCheck))
continue;
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// applies. Read the rule and behave accordingly
Debug::log(LOG, "Window rule " + rule.szRule + "," + rule.szValue + " matched.");
if (rule.szRule == "tile")
return false;
else if (rule.szRule == "float")
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) {
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Debug::log(LOG, "No preferred type found. (shouldBeFloatedOnInit)");
} 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_WINDOW_TYPE_DOCK"])) {
free(wm_type_cookiereply);
return true;
} 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;
free(wm_type_cookiereply);
return true;
}
}
}
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);
}
}
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) {
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Debug::log(LOG, "No preferred type found. (doPostCreationChecks)");
} 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);
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// Check if it has a name
const auto NAME = getClassName(window);
if (NAME.first == "Error" && NAME.second == "Error") {
closeWindowAllChecks(window);
Debug::log(WARN, "Window created but has a class of NULL. Removing.");
}
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();
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// No window or last window valid
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if (!PWINDOW || getWindowFromDrawable(LastWindow)) {
setFocusedWindow(Screen->root); //refocus on root
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return;
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}
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LastWindow = PWINDOW->getDrawable();
setFocusedWindow(PWINDOW->getDrawable());
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}
void CWindowManager::recalcAllWorkspaces() {
for (auto& workspace : workspaces) {
recalcEntireWorkspace(workspace.getID());
}
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}
void CWindowManager::moveWindowToUnmapped(int64_t id) {
for (auto& w : windows) {
if (w.getDrawable() == id) {
// Move it
unmappedWindows.push_back(w);
removeWindowFromVectorSafe(w.getDrawable());
return;
}
}
}
void CWindowManager::moveWindowToMapped(int64_t id) {
for (auto& w : unmappedWindows) {
if (w.getDrawable() == id) {
// Move it
windows.push_back(w);
// manually remove
auto temp = unmappedWindows;
unmappedWindows.clear();
for (auto& t : temp) {
if (t.getDrawable() != id)
unmappedWindows.push_back(t);
}
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windows[windows.size() - 1].setUnderFullscreen(false);
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return;
}
}
}
bool CWindowManager::isWindowUnmapped(int64_t id) {
for (auto& w : unmappedWindows) {
if (w.getDrawable() == id) {
return true;
}
}
return false;
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}
void CWindowManager::setAllWorkspaceWindowsAboveFullscreen(const int& workspace) {
for (auto& w : windows) {
if (w.getWorkspaceID() == workspace && w.getIsFloating()) {
w.setUnderFullscreen(false);
}
}
}
void CWindowManager::setAllWorkspaceWindowsUnderFullscreen(const int& workspace) {
for (auto& w : windows) {
if (w.getWorkspaceID() == workspace && w.getIsFloating()) {
w.setUnderFullscreen(true);
}
}
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}
void CWindowManager::toggleWindowFullscrenn(const int& window) {
const auto PWINDOW = getWindowFromDrawable(window);
if (!PWINDOW)
return;
const auto MONITOR = getMonitorFromWindow(PWINDOW);
setAllWorkspaceWindowsDirtyByID(activeWorkspaces[MONITOR->ID]);
PWINDOW->setFullscreen(!PWINDOW->getFullscreen());
getWorkspaceByID(PWINDOW->getWorkspaceID())->setHasFullscreenWindow(PWINDOW->getFullscreen());
// Fix windows over and below fullscreen.
if (PWINDOW->getFullscreen())
setAllWorkspaceWindowsUnderFullscreen(activeWorkspaces[MONITOR->ID]);
else
setAllWorkspaceWindowsAboveFullscreen(activeWorkspaces[MONITOR->ID]);
// EWMH
Values[0] = HYPRATOMS["_NET_WM_STATE_FULLSCREEN"];
if (PWINDOW->getFullscreen())
xcb_change_property(DisplayConnection, XCB_PROP_MODE_APPEND, window, HYPRATOMS["_NET_WM_STATE"], XCB_ATOM_ATOM, 32, 1, Values);
else
removeAtom(window, HYPRATOMS["_NET_WM_STATE"], HYPRATOMS["_NET_WM_STATE_FULLSCREEN"]);
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EWMH::updateWindow(window);
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Debug::log(LOG, "Set fullscreen to " + std::to_string(PWINDOW->getFullscreen()) + " for " + std::to_string(window));
}
void CWindowManager::handleClientMessage(xcb_client_message_event_t* E) {
const auto PWINDOW = getWindowFromDrawable(E->window);
if (!PWINDOW)
return;
if (E->type == HYPRATOMS["_NET_WM_STATE"]) {
// The window wants to change its' state.
// For now we only support FULLSCREEN
if (E->data.data32[1] == HYPRATOMS["_NET_WM_STATE_FULLSCREEN"]) {
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if ((PWINDOW->getFullscreen() && (E->data.data32[0] == 0 || E->data.data32[0] == 2))
|| (!PWINDOW->getFullscreen() && (E->data.data32[0] == 1 || E->data.data32[0] == 2))) {
// Toggle fullscreen
toggleWindowFullscrenn(PWINDOW->getDrawable());
}
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Debug::log(LOG, "Message recieved to toggle fullscreen for " + std::to_string(PWINDOW->getDrawable()));
}
} else if (E->type == HYPRATOMS["_NET_ACTIVE_WINDOW"]) {
// Change the focused window
if (E->format != 32)
return;
setFocusedWindow(PWINDOW->getDrawable());
Debug::log(LOG, "Message recieved to set active for " + std::to_string(PWINDOW->getDrawable()));
}
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}
void CWindowManager::recalcAllDocks() {
for (auto& mon : monitors) {
mon.vecReservedTopLeft = {0, 0};
mon.vecReservedBottomRight = {0, 0};
setAllWorkspaceWindowsDirtyByID(activeWorkspaces[mon.ID]);
}
for (auto& w : windows) {
if (!w.getDock() || w.getDead() || !w.getIsFloating())
continue;
const auto MONITOR = &monitors[w.getMonitor()];
const auto VERTICAL = w.getSize().x / w.getSize().y < 1;
if (VERTICAL) {
if (w.getPosition().x < MONITOR->vecSize.x / 2.f + MONITOR->vecPosition.x) {
// Left
MONITOR->vecReservedTopLeft = Vector2D(w.getSize().x, 0);
} else {
// Right
MONITOR->vecReservedBottomRight = Vector2D(w.getSize().x, 0);
}
} else {
if (w.getPosition().y < MONITOR->vecSize.y / 2.f + MONITOR->vecPosition.y) {
// Top
MONITOR->vecReservedTopLeft = Vector2D(0, w.getSize().y);
} else {
// Bottom
MONITOR->vecReservedBottomRight = Vector2D(0, w.getSize().y);
}
}
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// Move it
Values[0] = w.getDefaultPosition().x;
Values[1] = w.getDefaultPosition().y;
xcb_configure_window(DisplayConnection, w.getDrawable(), XCB_CONFIG_WINDOW_X | XCB_CONFIG_WINDOW_Y, Values);
Values[0] = w.getDefaultSize().x;
Values[1] = w.getDefaultSize().y;
xcb_configure_window(DisplayConnection, w.getDrawable(), XCB_CONFIG_WINDOW_WIDTH | XCB_CONFIG_WINDOW_HEIGHT, Values);
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}
}