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Hyprland/src/Compositor.cpp

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#include "Compositor.hpp"
#include "helpers/Splashes.hpp"
#include "config/ConfigValue.hpp"
#include "managers/CursorManager.hpp"
#include "managers/TokenManager.hpp"
#include "managers/PointerManager.hpp"
#include "managers/SeatManager.hpp"
#include "managers/eventLoop/EventLoopManager.hpp"
#include <aquamarine/output/Output.hpp>
#include <random>
#include <cstring>
#include <unordered_set>
#include "debug/HyprCtl.hpp"
#include "debug/CrashReporter.hpp"
#ifdef USES_SYSTEMD
#include <helpers/SdDaemon.hpp> // for SdNotify
#endif
#include <ranges>
#include "helpers/varlist/VarList.hpp"
#include "protocols/FractionalScale.hpp"
#include "protocols/PointerConstraints.hpp"
#include "protocols/LayerShell.hpp"
#include "protocols/XDGShell.hpp"
#include "protocols/core/Compositor.hpp"
#include "protocols/core/Subcompositor.hpp"
#include "desktop/LayerSurface.hpp"
#include "xwayland/XWayland.hpp"
#include <hyprutils/string/String.hpp>
#include <aquamarine/input/Input.hpp>
#include <fcntl.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/resource.h>
using namespace Hyprutils::String;
using namespace Aquamarine;
int handleCritSignal(int signo, void* data) {
Debug::log(LOG, "Hyprland received signal {}", signo);
if (signo == SIGTERM || signo == SIGINT || signo == SIGKILL)
g_pCompositor->cleanup();
return 0;
}
void handleUnrecoverableSignal(int sig) {
// remove our handlers
signal(SIGABRT, SIG_DFL);
signal(SIGSEGV, SIG_DFL);
if (g_pHookSystem && g_pHookSystem->m_bCurrentEventPlugin) {
longjmp(g_pHookSystem->m_jbHookFaultJumpBuf, 1);
return;
}
// Kill the program if the crash-reporter is caught in a deadlock.
signal(SIGALRM, [](int _) {
char const* msg = "\nCrashReporter exceeded timeout, forcefully exiting\n";
write(2, msg, strlen(msg));
abort();
});
alarm(15);
CrashReporter::createAndSaveCrash(sig);
abort();
}
void handleUserSignal(int sig) {
if (sig == SIGUSR1) {
// means we have to unwind a timed out event
throw std::exception();
}
}
static LogLevel aqLevelToHl(Aquamarine::eBackendLogLevel level) {
switch (level) {
case Aquamarine::eBackendLogLevel::AQ_LOG_TRACE: return TRACE;
case Aquamarine::eBackendLogLevel::AQ_LOG_DEBUG: return LOG;
case Aquamarine::eBackendLogLevel::AQ_LOG_ERROR: return ERR;
case Aquamarine::eBackendLogLevel::AQ_LOG_WARNING: return WARN;
case Aquamarine::eBackendLogLevel::AQ_LOG_CRITICAL: return CRIT;
default: break;
}
return NONE;
}
void aqLog(Aquamarine::eBackendLogLevel level, std::string msg) {
Debug::log(aqLevelToHl(level), "[AQ] {}", msg);
}
void CCompositor::bumpNofile() {
if (!getrlimit(RLIMIT_NOFILE, &m_sOriginalNofile))
Debug::log(LOG, "Old rlimit: soft -> {}, hard -> {}", m_sOriginalNofile.rlim_cur, m_sOriginalNofile.rlim_max);
else {
Debug::log(ERR, "Failed to get NOFILE rlimits");
m_sOriginalNofile.rlim_max = 0;
return;
}
rlimit newLimit = m_sOriginalNofile;
newLimit.rlim_cur = newLimit.rlim_max;
if (setrlimit(RLIMIT_NOFILE, &newLimit) < 0) {
Debug::log(ERR, "Failed bumping NOFILE limits higher");
m_sOriginalNofile.rlim_max = 0;
return;
}
if (!getrlimit(RLIMIT_NOFILE, &newLimit))
Debug::log(LOG, "New rlimit: soft -> {}, hard -> {}", newLimit.rlim_cur, newLimit.rlim_max);
}
void CCompositor::restoreNofile() {
if (m_sOriginalNofile.rlim_max <= 0)
return;
if (setrlimit(RLIMIT_NOFILE, &m_sOriginalNofile) < 0)
Debug::log(ERR, "Failed restoring NOFILE limits");
}
CCompositor::CCompositor() {
m_iHyprlandPID = getpid();
m_szHyprTempDataRoot = std::string{getenv("XDG_RUNTIME_DIR")} + "/hypr";
if (m_szHyprTempDataRoot.starts_with("/hypr")) {
std::cout << "Bailing out, XDG_RUNTIME_DIR is invalid\n";
throw std::runtime_error("CCompositor() failed");
}
if (!m_szHyprTempDataRoot.starts_with("/run/user"))
std::cout << "[!!WARNING!!] XDG_RUNTIME_DIR looks non-standard. Proceeding anyways...\n";
std::random_device dev;
std::mt19937 engine(dev());
std::uniform_int_distribution<> distribution(0, INT32_MAX);
m_szInstanceSignature = GIT_COMMIT_HASH + std::string("_") + std::to_string(time(NULL)) + "_" + std::to_string(distribution(engine));
setenv("HYPRLAND_INSTANCE_SIGNATURE", m_szInstanceSignature.c_str(), true);
if (!std::filesystem::exists(m_szHyprTempDataRoot))
mkdir(m_szHyprTempDataRoot.c_str(), S_IRWXU);
else if (!std::filesystem::is_directory(m_szHyprTempDataRoot)) {
std::cout << "Bailing out, " << m_szHyprTempDataRoot << " is not a directory\n";
throw std::runtime_error("CCompositor() failed");
}
m_szInstancePath = m_szHyprTempDataRoot + "/" + m_szInstanceSignature;
if (std::filesystem::exists(m_szInstancePath)) {
std::cout << "Bailing out, " << m_szInstancePath << " exists??\n";
throw std::runtime_error("CCompositor() failed");
}
if (mkdir(m_szInstancePath.c_str(), S_IRWXU) < 0) {
std::cout << "Bailing out, couldn't create " << m_szInstancePath << "\n";
throw std::runtime_error("CCompositor() failed");
}
Debug::init(m_szInstancePath);
Debug::log(LOG, "Instance Signature: {}", m_szInstanceSignature);
Debug::log(LOG, "Runtime directory: {}", m_szInstancePath);
Debug::log(LOG, "Hyprland PID: {}", m_iHyprlandPID);
Debug::log(LOG, "===== SYSTEM INFO: =====");
logSystemInfo();
Debug::log(LOG, "========================");
Debug::log(NONE, "\n\n"); // pad
Debug::log(INFO, "If you are crashing, or encounter any bugs, please consult https://wiki.hyprland.org/Crashes-and-Bugs/\n\n");
setRandomSplash();
Debug::log(LOG, "\nCurrent splash: {}\n\n", m_szCurrentSplash);
bumpNofile();
}
CCompositor::~CCompositor() {
cleanup();
}
void CCompositor::setRandomSplash() {
std::random_device dev;
std::mt19937 engine(dev());
std::uniform_int_distribution<> distribution(0, SPLASHES.size() - 1);
m_szCurrentSplash = SPLASHES[distribution(engine)];
}
static std::vector<SP<Aquamarine::IOutput>> pendingOutputs;
//
void CCompositor::initServer() {
m_sWLDisplay = wl_display_create();
m_sWLEventLoop = wl_display_get_event_loop(m_sWLDisplay);
// register crit signal handler
m_critSigSource = wl_event_loop_add_signal(m_sWLEventLoop, SIGTERM, handleCritSignal, nullptr);
if (!envEnabled("HYPRLAND_NO_CRASHREPORTER")) {
signal(SIGSEGV, handleUnrecoverableSignal);
signal(SIGABRT, handleUnrecoverableSignal);
}
signal(SIGUSR1, handleUserSignal);
initManagers(STAGE_PRIORITY);
if (envEnabled("HYPRLAND_TRACE"))
Debug::trace = true;
Aquamarine::SBackendOptions options;
options.logFunction = aqLog;
std::vector<Aquamarine::SBackendImplementationOptions> implementations;
Aquamarine::SBackendImplementationOptions option;
option.backendType = Aquamarine::eBackendType::AQ_BACKEND_HEADLESS;
option.backendRequestMode = Aquamarine::eBackendRequestMode::AQ_BACKEND_REQUEST_MANDATORY;
implementations.emplace_back(option);
option.backendType = Aquamarine::eBackendType::AQ_BACKEND_DRM;
option.backendRequestMode = Aquamarine::eBackendRequestMode::AQ_BACKEND_REQUEST_IF_AVAILABLE;
implementations.emplace_back(option);
option.backendType = Aquamarine::eBackendType::AQ_BACKEND_WAYLAND;
option.backendRequestMode = Aquamarine::eBackendRequestMode::AQ_BACKEND_REQUEST_FALLBACK;
implementations.emplace_back(option);
m_pAqBackend = CBackend::create(implementations, options);
if (!m_pAqBackend) {
Debug::log(CRIT,
"m_pAqBackend was null! This usually means aquamarine could not find a GPU or enountered some issues. Make sure you're running either on a tty or on a Wayland "
"session, NOT an X11 one.");
throwError("CBackend::create() failed!");
}
// TODO: headless only
initAllSignals();
if (!m_pAqBackend->start()) {
Debug::log(CRIT,
"m_pAqBackend couldn't start! This usually means aquamarine could not find a GPU or enountered some issues. Make sure you're running either on a tty or on a "
"Wayland session, NOT an X11 one.");
throwError("CBackend::create() failed!");
}
m_bInitialized = true;
m_iDRMFD = m_pAqBackend->drmFD();
Debug::log(LOG, "Running on DRMFD: {}", m_iDRMFD);
// get socket, avoid using 0
for (int candidate = 1; candidate <= 32; candidate++) {
const auto CANDIDATESTR = ("wayland-" + std::to_string(candidate));
const auto RETVAL = wl_display_add_socket(m_sWLDisplay, CANDIDATESTR.c_str());
if (RETVAL >= 0) {
m_szWLDisplaySocket = CANDIDATESTR;
Debug::log(LOG, "wl_display_add_socket for {} succeeded with {}", CANDIDATESTR, RETVAL);
break;
} else {
Debug::log(WARN, "wl_display_add_socket for {} returned {}: skipping candidate {}", CANDIDATESTR, RETVAL, candidate);
}
}
if (m_szWLDisplaySocket.empty()) {
Debug::log(WARN, "All candidates failed, trying wl_display_add_socket_auto");
const auto SOCKETSTR = wl_display_add_socket_auto(m_sWLDisplay);
if (SOCKETSTR)
m_szWLDisplaySocket = SOCKETSTR;
}
if (m_szWLDisplaySocket.empty()) {
Debug::log(CRIT, "m_szWLDisplaySocket NULL!");
throwError("m_szWLDisplaySocket was null! (wl_display_add_socket and wl_display_add_socket_auto failed)");
}
Debug::log(LOG, "Setting WAYLAND_DISPLAY to {}", m_szWLDisplaySocket);
setenv("WAYLAND_DISPLAY", m_szWLDisplaySocket.c_str(), 1);
setenv("XDG_SESSION_TYPE", "wayland", 1);
initManagers(STAGE_BASICINIT);
initManagers(STAGE_LATE);
for (auto& o : pendingOutputs) {
onNewMonitor(o);
}
pendingOutputs.clear();
}
void CCompositor::initAllSignals() {
m_pAqBackend->events.newOutput.registerStaticListener(
[this](void* p, std::any data) {
auto output = std::any_cast<SP<Aquamarine::IOutput>>(data);
Debug::log(LOG, "New aquamarine output with name {}", output->name);
if (m_bInitialized)
onNewMonitor(output);
else
pendingOutputs.emplace_back(output);
},
nullptr);
m_pAqBackend->events.newPointer.registerStaticListener(
[](void* data, std::any d) {
auto dev = std::any_cast<SP<Aquamarine::IPointer>>(d);
Debug::log(LOG, "New aquamarine pointer with name {}", dev->getName());
g_pInputManager->newMouse(dev);
g_pInputManager->updateCapabilities();
},
nullptr);
m_pAqBackend->events.newKeyboard.registerStaticListener(
[](void* data, std::any d) {
auto dev = std::any_cast<SP<Aquamarine::IKeyboard>>(d);
Debug::log(LOG, "New aquamarine keyboard with name {}", dev->getName());
g_pInputManager->newKeyboard(dev);
g_pInputManager->updateCapabilities();
},
nullptr);
m_pAqBackend->events.newTouch.registerStaticListener(
[](void* data, std::any d) {
auto dev = std::any_cast<SP<Aquamarine::ITouch>>(d);
Debug::log(LOG, "New aquamarine touch with name {}", dev->getName());
g_pInputManager->newTouchDevice(dev);
g_pInputManager->updateCapabilities();
},
nullptr);
m_pAqBackend->events.newSwitch.registerStaticListener(
[](void* data, std::any d) {
auto dev = std::any_cast<SP<Aquamarine::ISwitch>>(d);
Debug::log(LOG, "New aquamarine switch with name {}", dev->getName());
g_pInputManager->newSwitch(dev);
},
nullptr);
m_pAqBackend->events.newTablet.registerStaticListener(
[](void* data, std::any d) {
auto dev = std::any_cast<SP<Aquamarine::ITablet>>(d);
Debug::log(LOG, "New aquamarine tablet with name {}", dev->getName());
g_pInputManager->newTablet(dev);
},
nullptr);
m_pAqBackend->events.newTabletPad.registerStaticListener(
[](void* data, std::any d) {
auto dev = std::any_cast<SP<Aquamarine::ITabletPad>>(d);
Debug::log(LOG, "New aquamarine tablet pad with name {}", dev->getName());
g_pInputManager->newTabletPad(dev);
},
nullptr);
if (m_pAqBackend->hasSession()) {
m_pAqBackend->session->events.changeActive.registerStaticListener(
[this](void*, std::any) {
if (m_pAqBackend->session->active) {
Debug::log(LOG, "Session got activated!");
m_bSessionActive = true;
for (auto& m : m_vMonitors) {
scheduleFrameForMonitor(m.get());
g_pHyprRenderer->applyMonitorRule(m.get(), &m->activeMonitorRule, true);
}
g_pConfigManager->m_bWantsMonitorReload = true;
} else {
Debug::log(LOG, "Session got deactivated!");
m_bSessionActive = false;
for (auto& m : m_vMonitors) {
m->noFrameSchedule = true;
m->framesToSkip = 1;
}
}
},
nullptr);
}
}
void CCompositor::removeAllSignals() {
;
}
void CCompositor::cleanEnvironment() {
// in compositor constructor
unsetenv("WAYLAND_DISPLAY");
// in startCompositor
unsetenv("HYPRLAND_INSTANCE_SIGNATURE");
// in main
unsetenv("HYPRLAND_CMD");
unsetenv("XDG_BACKEND");
unsetenv("XDG_CURRENT_DESKTOP");
if (m_pAqBackend->hasSession()) {
const auto CMD =
#ifdef USES_SYSTEMD
"systemctl --user unset-environment DISPLAY WAYLAND_DISPLAY HYPRLAND_INSTANCE_SIGNATURE XDG_CURRENT_DESKTOP QT_QPA_PLATFORMTHEME PATH XDG_DATA_DIRS && hash "
"dbus-update-activation-environment 2>/dev/null && "
#endif
"dbus-update-activation-environment --systemd WAYLAND_DISPLAY XDG_CURRENT_DESKTOP HYPRLAND_INSTANCE_SIGNATURE QT_QPA_PLATFORMTHEME PATH XDG_DATA_DIRS";
g_pKeybindManager->spawn(CMD);
}
}
void CCompositor::cleanup() {
if (!m_sWLDisplay || m_bIsShuttingDown)
return;
signal(SIGABRT, SIG_DFL);
signal(SIGSEGV, SIG_DFL);
removeLockFile();
m_bIsShuttingDown = true;
Debug::shuttingDown = true;
#ifdef USES_SYSTEMD
if (Systemd::SdBooted() > 0 && !envEnabled("HYPRLAND_NO_SD_NOTIFY"))
Systemd::SdNotify(0, "STOPPING=1");
#endif
cleanEnvironment();
// unload all remaining plugins while the compositor is
// still in a normal working state.
g_pPluginSystem->unloadAllPlugins();
m_pLastFocus.reset();
m_pLastWindow.reset();
m_vWorkspaces.clear();
m_vWindows.clear();
for (auto& m : m_vMonitors) {
g_pHyprOpenGL->destroyMonitorResources(m.get());
m->output->state->setEnabled(false);
m->state.commit();
}
g_pXWayland.reset();
m_vMonitors.clear();
wl_display_destroy_clients(g_pCompositor->m_sWLDisplay);
removeAllSignals();
g_pInputManager.reset();
g_pDecorationPositioner.reset();
g_pCursorManager.reset();
g_pPluginSystem.reset();
g_pHyprNotificationOverlay.reset();
g_pDebugOverlay.reset();
g_pEventManager.reset();
g_pSessionLockManager.reset();
g_pProtocolManager.reset();
g_pHyprRenderer.reset();
g_pHyprOpenGL.reset();
g_pThreadManager.reset();
g_pConfigManager.reset();
g_pLayoutManager.reset();
g_pHyprError.reset();
g_pConfigManager.reset();
g_pAnimationManager.reset();
g_pKeybindManager.reset();
g_pHookSystem.reset();
g_pWatchdog.reset();
g_pXWaylandManager.reset();
g_pPointerManager.reset();
g_pSeatManager.reset();
g_pHyprCtl.reset();
g_pEventLoopManager.reset();
if (m_pAqBackend)
m_pAqBackend.reset();
if (m_critSigSource)
wl_event_source_remove(m_critSigSource);
wl_event_loop_destroy(m_sWLEventLoop);
wl_display_terminate(m_sWLDisplay);
m_sWLDisplay = nullptr;
std::string waylandSocket = std::string{getenv("XDG_RUNTIME_DIR")} + "/" + m_szWLDisplaySocket;
std::filesystem::remove(waylandSocket);
std::filesystem::remove(waylandSocket + ".lock");
}
void CCompositor::initManagers(eManagersInitStage stage) {
switch (stage) {
case STAGE_PRIORITY: {
Debug::log(LOG, "Creating the EventLoopManager!");
g_pEventLoopManager = std::make_unique<CEventLoopManager>(m_sWLDisplay, m_sWLEventLoop);
Debug::log(LOG, "Creating the HookSystem!");
g_pHookSystem = std::make_unique<CHookSystemManager>();
Debug::log(LOG, "Creating the KeybindManager!");
g_pKeybindManager = std::make_unique<CKeybindManager>();
Debug::log(LOG, "Creating the AnimationManager!");
g_pAnimationManager = std::make_unique<CAnimationManager>();
Debug::log(LOG, "Creating the ConfigManager!");
g_pConfigManager = std::make_unique<CConfigManager>();
Debug::log(LOG, "Creating the CHyprError!");
g_pHyprError = std::make_unique<CHyprError>();
Debug::log(LOG, "Creating the LayoutManager!");
g_pLayoutManager = std::make_unique<CLayoutManager>();
Debug::log(LOG, "Creating the TokenManager!");
g_pTokenManager = std::make_unique<CTokenManager>();
g_pConfigManager->init();
g_pWatchdog = std::make_unique<CWatchdog>(); // requires config
Debug::log(LOG, "Creating the PointerManager!");
g_pPointerManager = std::make_unique<CPointerManager>();
Debug::log(LOG, "Creating the EventManager!");
g_pEventManager = std::make_unique<CEventManager>();
} break;
case STAGE_BASICINIT: {
Debug::log(LOG, "Creating the CHyprOpenGLImpl!");
g_pHyprOpenGL = std::make_unique<CHyprOpenGLImpl>();
Debug::log(LOG, "Creating the ProtocolManager!");
g_pProtocolManager = std::make_unique<CProtocolManager>();
Debug::log(LOG, "Creating the SeatManager!");
g_pSeatManager = std::make_unique<CSeatManager>();
} break;
case STAGE_LATE: {
Debug::log(LOG, "Creating the ThreadManager!");
g_pThreadManager = std::make_unique<CThreadManager>();
Debug::log(LOG, "Creating CHyprCtl");
g_pHyprCtl = std::make_unique<CHyprCtl>();
Debug::log(LOG, "Creating the InputManager!");
g_pInputManager = std::make_unique<CInputManager>();
Debug::log(LOG, "Creating the HyprRenderer!");
g_pHyprRenderer = std::make_unique<CHyprRenderer>();
Debug::log(LOG, "Creating the XWaylandManager!");
g_pXWaylandManager = std::make_unique<CHyprXWaylandManager>();
Debug::log(LOG, "Creating the SessionLockManager!");
g_pSessionLockManager = std::make_unique<CSessionLockManager>();
Debug::log(LOG, "Creating the HyprDebugOverlay!");
g_pDebugOverlay = std::make_unique<CHyprDebugOverlay>();
Debug::log(LOG, "Creating the HyprNotificationOverlay!");
g_pHyprNotificationOverlay = std::make_unique<CHyprNotificationOverlay>();
Debug::log(LOG, "Creating the PluginSystem!");
g_pPluginSystem = std::make_unique<CPluginSystem>();
g_pConfigManager->handlePluginLoads();
Debug::log(LOG, "Creating the DecorationPositioner!");
g_pDecorationPositioner = std::make_unique<CDecorationPositioner>();
Debug::log(LOG, "Creating the CursorManager!");
g_pCursorManager = std::make_unique<CCursorManager>();
Debug::log(LOG, "Starting XWayland");
g_pXWayland = std::make_unique<CXWayland>();
} break;
default: UNREACHABLE();
}
}
void CCompositor::createLockFile() {
const auto PATH = m_szInstancePath + "/hyprland.lock";
std::ofstream ofs(PATH, std::ios::trunc);
ofs << m_iHyprlandPID << "\n" << m_szWLDisplaySocket << "\n";
ofs.close();
}
void CCompositor::removeLockFile() {
const auto PATH = m_szInstancePath + "/hyprland.lock";
if (std::filesystem::exists(PATH))
std::filesystem::remove(PATH);
}
void CCompositor::prepareFallbackOutput() {
// create a backup monitor
SP<Aquamarine::IBackendImplementation> headless;
for (auto& impl : m_pAqBackend->getImplementations()) {
if (impl->type() == Aquamarine::AQ_BACKEND_HEADLESS) {
headless = impl;
break;
}
}
if (!headless) {
Debug::log(WARN, "No headless in prepareFallbackOutput?!");
return;
}
headless->createOutput();
}
void CCompositor::startCompositor(std::string socketName, int socketFd) {
initAllSignals();
if (!socketName.empty() && socketFd != -1) {
fcntl(socketFd, F_SETFD, FD_CLOEXEC);
const auto RETVAL = wl_display_add_socket_fd(m_sWLDisplay, socketFd);
if (RETVAL >= 0) {
m_szWLDisplaySocket = socketName;
Debug::log(LOG, "wl_display_add_socket_fd for {} succeeded with {}", socketName, RETVAL);
} else
Debug::log(WARN, "wl_display_add_socket_fd for {} returned {}: skipping", socketName, RETVAL);
} else {
// get socket, avoid using 0
for (int candidate = 1; candidate <= 32; candidate++) {
const auto CANDIDATESTR = ("wayland-" + std::to_string(candidate));
const auto RETVAL = wl_display_add_socket(m_sWLDisplay, CANDIDATESTR.c_str());
if (RETVAL >= 0) {
m_szWLDisplaySocket = CANDIDATESTR;
Debug::log(LOG, "wl_display_add_socket for {} succeeded with {}", CANDIDATESTR, RETVAL);
break;
} else
Debug::log(WARN, "wl_display_add_socket for {} returned {}: skipping candidate {}", CANDIDATESTR, RETVAL, candidate);
}
}
if (m_szWLDisplaySocket.empty()) {
Debug::log(WARN, "All candidates failed, trying wl_display_add_socket_auto");
const auto SOCKETSTR = wl_display_add_socket_auto(m_sWLDisplay);
if (SOCKETSTR)
m_szWLDisplaySocket = SOCKETSTR;
}
if (m_szWLDisplaySocket.empty()) {
Debug::log(CRIT, "m_szWLDisplaySocket NULL!");
throwError("m_szWLDisplaySocket was null! (wl_display_add_socket and wl_display_add_socket_auto failed)");
}
setenv("WAYLAND_DISPLAY", m_szWLDisplaySocket.c_str(), 1);
setenv("XDG_SESSION_TYPE", "wayland", 1);
signal(SIGPIPE, SIG_IGN);
if (m_pAqBackend->hasSession() /* Session-less Hyprland usually means a nest, don't update the env in that case */) {
const auto CMD =
#ifdef USES_SYSTEMD
"systemctl --user import-environment DISPLAY WAYLAND_DISPLAY HYPRLAND_INSTANCE_SIGNATURE XDG_CURRENT_DESKTOP QT_QPA_PLATFORMTHEME PATH XDG_DATA_DIRS && hash "
"dbus-update-activation-environment 2>/dev/null && "
#endif
"dbus-update-activation-environment --systemd WAYLAND_DISPLAY XDG_CURRENT_DESKTOP HYPRLAND_INSTANCE_SIGNATURE QT_QPA_PLATFORMTHEME PATH XDG_DATA_DIRS";
g_pKeybindManager->spawn(CMD);
}
Debug::log(LOG, "Running on WAYLAND_DISPLAY: {}", m_szWLDisplaySocket);
prepareFallbackOutput();
g_pHyprRenderer->setCursorFromName("left_ptr");
#ifdef USES_SYSTEMD
if (Systemd::SdBooted() > 0) {
// tell systemd that we are ready so it can start other bond, following, related units
if (!envEnabled("HYPRLAND_NO_SD_NOTIFY"))
Systemd::SdNotify(0, "READY=1");
} else
Debug::log(LOG, "systemd integration is baked in but system itself is not booted à la systemd!");
#endif
createLockFile();
EMIT_HOOK_EVENT("ready", nullptr);
// This blocks until we are done.
Debug::log(LOG, "Hyprland is ready, running the event loop!");
g_pEventLoopManager->enterLoop();
}
CMonitor* CCompositor::getMonitorFromID(const int& id) {
for (auto& m : m_vMonitors) {
if (m->ID == (uint64_t)id) {
return m.get();
}
}
return nullptr;
}
CMonitor* CCompositor::getMonitorFromName(const std::string& name) {
for (auto& m : m_vMonitors) {
if (m->szName == name) {
return m.get();
}
}
return nullptr;
}
CMonitor* CCompositor::getMonitorFromDesc(const std::string& desc) {
for (auto& m : m_vMonitors) {
if (m->szDescription.starts_with(desc))
return m.get();
}
return nullptr;
}
CMonitor* CCompositor::getMonitorFromCursor() {
return getMonitorFromVector(g_pPointerManager->position());
}
CMonitor* CCompositor::getMonitorFromVector(const Vector2D& point) {
SP<CMonitor> mon;
for (auto& m : m_vMonitors) {
if (CBox{m->vecPosition, m->vecSize}.containsPoint(point)) {
mon = m;
break;
}
}
if (!mon) {
float bestDistance = 0.f;
SP<CMonitor> pBestMon;
for (auto& m : m_vMonitors) {
float dist = vecToRectDistanceSquared(point, m->vecPosition, m->vecPosition + m->vecSize);
if (dist < bestDistance || !pBestMon) {
bestDistance = dist;
pBestMon = m;
}
}
if (!pBestMon) { // ?????
Debug::log(WARN, "getMonitorFromVector no close mon???");
return m_vMonitors.front().get();
}
return pBestMon.get();
}
return mon.get();
}
void CCompositor::removeWindowFromVectorSafe(PHLWINDOW pWindow) {
if (!pWindow->m_bFadingOut) {
EMIT_HOOK_EVENT("destroyWindow", pWindow);
std::erase_if(m_vWindows, [&](SP<CWindow>& el) { return el == pWindow; });
std::erase_if(m_vWindowsFadingOut, [&](PHLWINDOWREF el) { return el.lock() == pWindow; });
}
}
bool CCompositor::monitorExists(CMonitor* pMonitor) {
for (auto& m : m_vRealMonitors) {
if (m.get() == pMonitor)
return true;
}
return false;
}
PHLWINDOW CCompositor::vectorToWindowUnified(const Vector2D& pos, uint8_t properties, PHLWINDOW pIgnoreWindow) {
const auto PMONITOR = getMonitorFromVector(pos);
static auto PRESIZEONBORDER = CConfigValue<Hyprlang::INT>("general:resize_on_border");
static auto PBORDERSIZE = CConfigValue<Hyprlang::INT>("general:border_size");
static auto PBORDERGRABEXTEND = CConfigValue<Hyprlang::INT>("general:extend_border_grab_area");
static auto PSPECIALFALLTHRU = CConfigValue<Hyprlang::INT>("input:special_fallthrough");
const auto BORDER_GRAB_AREA = *PRESIZEONBORDER ? *PBORDERSIZE + *PBORDERGRABEXTEND : 0;
// pinned windows on top of floating regardless
if (properties & ALLOW_FLOATING) {
for (auto& w : m_vWindows | std::views::reverse) {
const auto BB = w->getWindowBoxUnified(properties);
CBox box = BB.copy().expand(w->m_iX11Type == 2 ? BORDER_GRAB_AREA : 0);
if (w->m_bIsFloating && w->m_bIsMapped && !w->isHidden() && !w->m_bX11ShouldntFocus && w->m_bPinned && !w->m_sWindowData.noFocus.valueOrDefault() &&
w != pIgnoreWindow) {
if (box.containsPoint(g_pPointerManager->position()))
return w;
if (!w->m_bIsX11) {
if (w->hasPopupAt(pos))
return w;
}
}
}
}
auto windowForWorkspace = [&](bool special) -> PHLWINDOW {
auto floating = [&](bool aboveFullscreen) -> PHLWINDOW {
for (auto& w : m_vWindows | std::views::reverse) {
if (special && !w->onSpecialWorkspace()) // because special floating may creep up into regular
continue;
const auto BB = w->getWindowBoxUnified(properties);
const auto PWINDOWMONITOR = getMonitorFromID(w->m_iMonitorID);
// to avoid focusing windows behind special workspaces from other monitors
if (!*PSPECIALFALLTHRU && PWINDOWMONITOR && PWINDOWMONITOR->activeSpecialWorkspace && w->m_pWorkspace != PWINDOWMONITOR->activeSpecialWorkspace &&
BB.x >= PWINDOWMONITOR->vecPosition.x && BB.y >= PWINDOWMONITOR->vecPosition.y &&
BB.x + BB.width <= PWINDOWMONITOR->vecPosition.x + PWINDOWMONITOR->vecSize.x && BB.y + BB.height <= PWINDOWMONITOR->vecPosition.y + PWINDOWMONITOR->vecSize.y)
continue;
CBox box = BB.copy().expand(w->m_iX11Type == 2 ? BORDER_GRAB_AREA : 0);
if (w->m_bIsFloating && w->m_bIsMapped && isWorkspaceVisible(w->m_pWorkspace) && !w->isHidden() && !w->m_bPinned && !w->m_sWindowData.noFocus.valueOrDefault() &&
w != pIgnoreWindow && (!aboveFullscreen || w->m_bCreatedOverFullscreen)) {
// OR windows should add focus to parent
if (w->m_bX11ShouldntFocus && w->m_iX11Type != 2)
continue;
if (box.containsPoint(g_pPointerManager->position())) {
if (w->m_bIsX11 && w->m_iX11Type == 2 && !w->m_pXWaylandSurface->wantsFocus()) {
// Override Redirect
return g_pCompositor->m_pLastWindow.lock(); // we kinda trick everything here.
// TODO: this is wrong, we should focus the parent, but idk how to get it considering it's nullptr in most cases.
}
return w;
}
if (!w->m_bIsX11) {
if (w->hasPopupAt(pos))
return w;
}
}
}
return nullptr;
};
if (properties & ALLOW_FLOATING) {
// first loop over floating cuz they're above, m_lWindows should be sorted bottom->top, for tiled it doesn't matter.
auto found = floating(true);
if (found)
return found;
}
if (properties & FLOATING_ONLY)
return floating(false);
const int64_t WORKSPACEID = special ? PMONITOR->activeSpecialWorkspaceID() : PMONITOR->activeWorkspaceID();
const auto PWORKSPACE = getWorkspaceByID(WORKSPACEID);
if (PWORKSPACE->m_bHasFullscreenWindow)
return getFullscreenWindowOnWorkspace(PWORKSPACE->m_iID);
auto found = floating(false);
if (found)
return found;
// for windows, we need to check their extensions too, first.
for (auto& w : m_vWindows) {
if (special != w->onSpecialWorkspace())
continue;
if (!w->m_bIsX11 && !w->m_bIsFloating && w->m_bIsMapped && w->workspaceID() == WORKSPACEID && !w->isHidden() && !w->m_bX11ShouldntFocus &&
!w->m_sWindowData.noFocus.valueOrDefault() && w != pIgnoreWindow) {
if (w->hasPopupAt(pos))
return w;
}
}
for (auto& w : m_vWindows) {
if (special != w->onSpecialWorkspace())
continue;
CBox box = (properties & USE_PROP_TILED) ? w->getWindowBoxUnified(properties) : CBox{w->m_vPosition, w->m_vSize};
if (!w->m_bIsFloating && w->m_bIsMapped && box.containsPoint(pos) && w->workspaceID() == WORKSPACEID && !w->isHidden() && !w->m_bX11ShouldntFocus &&
!w->m_sWindowData.noFocus.valueOrDefault() && w != pIgnoreWindow)
return w;
}
return nullptr;
};
// special workspace
if (PMONITOR->activeSpecialWorkspace && !*PSPECIALFALLTHRU)
return windowForWorkspace(true);
if (PMONITOR->activeSpecialWorkspace) {
const auto PWINDOW = windowForWorkspace(true);
if (PWINDOW)
return PWINDOW;
}
return windowForWorkspace(false);
}
SP<CWLSurfaceResource> CCompositor::vectorWindowToSurface(const Vector2D& pos, PHLWINDOW pWindow, Vector2D& sl) {
if (!validMapped(pWindow))
return nullptr;
RASSERT(!pWindow->m_bIsX11, "Cannot call vectorWindowToSurface on an X11 window!");
// try popups first
const auto PPOPUP = pWindow->m_pPopupHead->at(pos);
if (PPOPUP) {
const auto OFF = PPOPUP->coordsRelativeToParent();
sl = pos - pWindow->m_vRealPosition.goal() - OFF;
return PPOPUP->m_pWLSurface->resource();
}
auto [surf, local] = pWindow->m_pWLSurface->resource()->at(pos - pWindow->m_vRealPosition.goal(), true);
if (surf) {
sl = local;
return surf;
}
return nullptr;
}
Vector2D CCompositor::vectorToSurfaceLocal(const Vector2D& vec, PHLWINDOW pWindow, SP<CWLSurfaceResource> pSurface) {
if (!validMapped(pWindow))
return {};
if (pWindow->m_bIsX11)
return vec - pWindow->m_vRealPosition.goal();
const auto PPOPUP = pWindow->m_pPopupHead->at(vec);
if (PPOPUP)
return vec - PPOPUP->coordsGlobal();
std::tuple<SP<CWLSurfaceResource>, Vector2D> iterData = {pSurface, {-1337, -1337}};
pWindow->m_pWLSurface->resource()->breadthfirst(
[](SP<CWLSurfaceResource> surf, const Vector2D& offset, void* data) {
const auto PDATA = (std::tuple<SP<CWLSurfaceResource>, Vector2D>*)data;
if (surf == std::get<0>(*PDATA))
std::get<1>(*PDATA) = offset;
},
&iterData);
CBox geom = pWindow->m_pXDGSurface->current.geometry;
if (std::get<1>(iterData) == Vector2D{-1337, -1337})
return vec - pWindow->m_vRealPosition.goal();
return vec - pWindow->m_vRealPosition.goal() - std::get<1>(iterData) + Vector2D{geom.x, geom.y};
}
CMonitor* CCompositor::getMonitorFromOutput(SP<Aquamarine::IOutput> out) {
for (auto& m : m_vMonitors) {
if (m->output == out) {
return m.get();
}
}
return nullptr;
}
CMonitor* CCompositor::getRealMonitorFromOutput(SP<Aquamarine::IOutput> out) {
for (auto& m : m_vRealMonitors) {
if (m->output == out) {
return m.get();
}
}
return nullptr;
}
void CCompositor::focusWindow(PHLWINDOW pWindow, SP<CWLSurfaceResource> pSurface) {
static auto PFOLLOWMOUSE = CConfigValue<Hyprlang::INT>("input:follow_mouse");
static auto PSPECIALFALLTHROUGH = CConfigValue<Hyprlang::INT>("input:special_fallthrough");
if (g_pSessionLockManager->isSessionLocked()) {
Debug::log(LOG, "Refusing a keyboard focus to a window because of a sessionlock");
return;
}
if (!g_pInputManager->m_dExclusiveLSes.empty()) {
Debug::log(LOG, "Refusing a keyboard focus to a window because of an exclusive ls");
return;
}
if (pWindow && pWindow->m_bIsX11 && pWindow->m_iX11Type == 2 && !pWindow->m_pXWaylandSurface->wantsFocus())
return;
g_pLayoutManager->getCurrentLayout()->bringWindowToTop(pWindow);
if (!pWindow || !validMapped(pWindow)) {
if (m_pLastWindow.expired() && !pWindow)
return;
const auto PLASTWINDOW = m_pLastWindow.lock();
m_pLastWindow.reset();
if (PLASTWINDOW && PLASTWINDOW->m_bIsMapped) {
updateWindowAnimatedDecorationValues(PLASTWINDOW);
g_pXWaylandManager->activateWindow(PLASTWINDOW, false);
}
g_pSeatManager->setKeyboardFocus(nullptr);
g_pEventManager->postEvent(SHyprIPCEvent{"activewindow", ","});
g_pEventManager->postEvent(SHyprIPCEvent{"activewindowv2", ""});
EMIT_HOOK_EVENT("activeWindow", (PHLWINDOW) nullptr);
g_pLayoutManager->getCurrentLayout()->onWindowFocusChange(nullptr);
m_pLastFocus.reset();
g_pInputManager->recheckIdleInhibitorStatus();
return;
}
if (pWindow->m_sWindowData.noFocus.valueOrDefault()) {
Debug::log(LOG, "Ignoring focus to nofocus window!");
return;
}
if (m_pLastWindow.lock() == pWindow && g_pSeatManager->state.keyboardFocus == pSurface)
return;
if (pWindow->m_bPinned)
pWindow->m_pWorkspace = m_pLastMonitor->activeWorkspace;
const auto PMONITOR = getMonitorFromID(pWindow->m_iMonitorID);
if (!isWorkspaceVisible(pWindow->m_pWorkspace)) {
const auto PWORKSPACE = pWindow->m_pWorkspace;
// This is to fix incorrect feedback on the focus history.
PWORKSPACE->m_pLastFocusedWindow = pWindow;
PWORKSPACE->rememberPrevWorkspace(m_pLastMonitor->activeWorkspace);
if (PWORKSPACE->m_bIsSpecialWorkspace)
m_pLastMonitor->changeWorkspace(PWORKSPACE, false, true); // if special ws, open on current monitor
else
PMONITOR->changeWorkspace(PWORKSPACE, false, true);
// changeworkspace already calls focusWindow
return;
}
const auto PLASTWINDOW = m_pLastWindow.lock();
m_pLastWindow = pWindow;
/* If special fallthrough is enabled, this behavior will be disabled, as I have no better idea of nicely tracking which
window focuses are "via keybinds" and which ones aren't. */
if (PMONITOR->activeSpecialWorkspace && PMONITOR->activeSpecialWorkspace != pWindow->m_pWorkspace && !pWindow->m_bPinned && !*PSPECIALFALLTHROUGH)
PMONITOR->setSpecialWorkspace(nullptr);
// we need to make the PLASTWINDOW not equal to m_pLastWindow so that RENDERDATA is correct for an unfocused window
if (PLASTWINDOW && PLASTWINDOW->m_bIsMapped) {
PLASTWINDOW->updateDynamicRules();
updateWindowAnimatedDecorationValues(PLASTWINDOW);
if (!pWindow->m_bIsX11 || pWindow->m_iX11Type == 1)
g_pXWaylandManager->activateWindow(PLASTWINDOW, false);
}
m_pLastWindow = PLASTWINDOW;
const auto PWINDOWSURFACE = pSurface ? pSurface : pWindow->m_pWLSurface->resource();
focusSurface(PWINDOWSURFACE, pWindow);
g_pXWaylandManager->activateWindow(pWindow, true); // sets the m_pLastWindow
pWindow->updateDynamicRules();
updateWindowAnimatedDecorationValues(pWindow);
if (pWindow->m_bIsUrgent)
pWindow->m_bIsUrgent = false;
// Send an event
g_pEventManager->postEvent(SHyprIPCEvent{"activewindow", pWindow->m_szClass + "," + pWindow->m_szTitle});
g_pEventManager->postEvent(SHyprIPCEvent{"activewindowv2", std::format("{:x}", (uintptr_t)pWindow.get())});
EMIT_HOOK_EVENT("activeWindow", pWindow);
g_pLayoutManager->getCurrentLayout()->onWindowFocusChange(pWindow);
g_pInputManager->recheckIdleInhibitorStatus();
// move to front of the window history
const auto HISTORYPIVOT = std::find_if(m_vWindowFocusHistory.begin(), m_vWindowFocusHistory.end(), [&](const auto& other) { return other.lock() == pWindow; });
if (HISTORYPIVOT == m_vWindowFocusHistory.end()) {
Debug::log(ERR, "BUG THIS: {} has no pivot in history", pWindow);
} else {
std::rotate(m_vWindowFocusHistory.begin(), HISTORYPIVOT, HISTORYPIVOT + 1);
}
if (*PFOLLOWMOUSE == 0)
g_pInputManager->sendMotionEventsToFocused();
}
void CCompositor::focusSurface(SP<CWLSurfaceResource> pSurface, PHLWINDOW pWindowOwner) {
if (g_pSeatManager->state.keyboardFocus == pSurface || (pWindowOwner && g_pSeatManager->state.keyboardFocus == pWindowOwner->m_pWLSurface->resource()))
return; // Don't focus when already focused on this.
if (g_pSessionLockManager->isSessionLocked() && !g_pSessionLockManager->isSurfaceSessionLock(pSurface))
return;
if (g_pSeatManager->seatGrab && !g_pSeatManager->seatGrab->accepts(pSurface)) {
Debug::log(LOG, "surface {:x} won't receive kb focus becuase grab rejected it", (uintptr_t)pSurface);
return;
}
const auto PLASTSURF = m_pLastFocus.lock();
// Unfocus last surface if should
if (m_pLastFocus && !pWindowOwner)
g_pXWaylandManager->activateSurface(m_pLastFocus.lock(), false);
if (!pSurface) {
g_pSeatManager->setKeyboardFocus(nullptr);
g_pEventManager->postEvent(SHyprIPCEvent{"activewindow", ","}); // unfocused
g_pEventManager->postEvent(SHyprIPCEvent{"activewindowv2", ""});
EMIT_HOOK_EVENT("keyboardFocus", (SP<CWLSurfaceResource>)nullptr);
m_pLastFocus.reset();
return;
}
if (g_pSeatManager->keyboard)
g_pSeatManager->setKeyboardFocus(pSurface);
if (pWindowOwner)
Debug::log(LOG, "Set keyboard focus to surface {:x}, with {}", (uintptr_t)pSurface, pWindowOwner);
else
Debug::log(LOG, "Set keyboard focus to surface {:x}", (uintptr_t)pSurface);
g_pXWaylandManager->activateSurface(pSurface, true);
m_pLastFocus = pSurface;
EMIT_HOOK_EVENT("keyboardFocus", pSurface);
const auto SURF = CWLSurface::fromResource(pSurface);
const auto OLDSURF = CWLSurface::fromResource(PLASTSURF);
if (OLDSURF && OLDSURF->constraint())
OLDSURF->constraint()->deactivate();
if (SURF && SURF->constraint())
SURF->constraint()->activate();
}
SP<CWLSurfaceResource> CCompositor::vectorToLayerPopupSurface(const Vector2D& pos, CMonitor* monitor, Vector2D* sCoords, PHLLS* ppLayerSurfaceFound) {
for (auto& lsl : monitor->m_aLayerSurfaceLayers | std::views::reverse) {
for (auto& ls : lsl | std::views::reverse) {
if (ls->fadingOut || !ls->layerSurface || (ls->layerSurface && !ls->layerSurface->mapped) || ls->alpha.value() == 0.f)
continue;
auto SURFACEAT = ls->popupHead->at(pos, true);
if (SURFACEAT) {
*ppLayerSurfaceFound = ls.lock();
*sCoords = pos - SURFACEAT->coordsGlobal();
return SURFACEAT->m_pWLSurface->resource();
}
}
}
return nullptr;
}
SP<CWLSurfaceResource> CCompositor::vectorToLayerSurface(const Vector2D& pos, std::vector<PHLLSREF>* layerSurfaces, Vector2D* sCoords, PHLLS* ppLayerSurfaceFound) {
for (auto& ls : *layerSurfaces | std::views::reverse) {
if (ls->fadingOut || !ls->layerSurface || (ls->layerSurface && !ls->layerSurface->surface->mapped) || ls->alpha.value() == 0.f)
continue;
auto [surf, local] = ls->layerSurface->surface->at(pos - ls->geometry.pos(), true);
if (surf) {
if (surf->current.input.empty())
continue;
*ppLayerSurfaceFound = ls.lock();
*sCoords = local;
return surf;
}
}
return nullptr;
}
PHLWINDOW CCompositor::getWindowFromSurface(SP<CWLSurfaceResource> pSurface) {
for (auto& w : m_vWindows) {
if (!w->m_bIsMapped || w->m_bFadingOut)
continue;
if (w->m_pWLSurface->resource() == pSurface)
return w;
}
return nullptr;
}
PHLWINDOW CCompositor::getWindowFromHandle(uint32_t handle) {
for (auto& w : m_vWindows) {
if ((uint32_t)(((uint64_t)w.get()) & 0xFFFFFFFF) == handle) {
return w;
}
}
return nullptr;
}
PHLWINDOW CCompositor::getFullscreenWindowOnWorkspace(const int& ID) {
for (auto& w : m_vWindows) {
if (w->workspaceID() == ID && w->m_bIsFullscreen)
return w;
}
return nullptr;
}
bool CCompositor::isWorkspaceVisible(PHLWORKSPACE w) {
return valid(w) && w->m_bVisible;
}
bool CCompositor::isWorkspaceVisibleNotCovered(PHLWORKSPACE w) {
if (!valid(w))
return false;
const auto PMONITOR = getMonitorFromID(w->m_iMonitorID);
if (PMONITOR->activeSpecialWorkspace)
return PMONITOR->activeSpecialWorkspace->m_iID == w->m_iID;
return PMONITOR->activeWorkspace->m_iID == w->m_iID;
}
PHLWORKSPACE CCompositor::getWorkspaceByID(const int& id) {
for (auto& w : m_vWorkspaces) {
if (w->m_iID == id && !w->inert())
return w;
}
return nullptr;
}
void CCompositor::sanityCheckWorkspaces() {
auto it = m_vWorkspaces.begin();
while (it != m_vWorkspaces.end()) {
const auto& WORKSPACE = *it;
// If ref == 1, only the compositor holds a ref, which means it's inactive and has no mapped windows.
if (!WORKSPACE->m_bPersistent && WORKSPACE.strongRef() == 1) {
it = m_vWorkspaces.erase(it);
continue;
}
++it;
}
}
int CCompositor::getWindowsOnWorkspace(const int& id, std::optional<bool> onlyTiled, std::optional<bool> onlyVisible) {
int no = 0;
for (auto& w : m_vWindows) {
if (w->workspaceID() != id || !w->m_bIsMapped)
continue;
if (onlyTiled.has_value() && w->m_bIsFloating == onlyTiled.value())
continue;
if (onlyVisible.has_value() && w->isHidden() == onlyVisible.value())
continue;
no++;
}
return no;
}
int CCompositor::getGroupsOnWorkspace(const int& id, std::optional<bool> onlyTiled, std::optional<bool> onlyVisible) {
int no = 0;
for (auto& w : m_vWindows) {
if (w->workspaceID() != id || !w->m_bIsMapped)
continue;
if (!w->m_sGroupData.head)
continue;
if (onlyTiled.has_value() && w->m_bIsFloating == onlyTiled.value())
continue;
if (onlyVisible.has_value() && w->isHidden() == onlyVisible.value())
continue;
no++;
}
return no;
}
PHLWINDOW CCompositor::getUrgentWindow() {
for (auto& w : m_vWindows) {
if (w->m_bIsMapped && w->m_bIsUrgent)
return w;
}
return nullptr;
}
bool CCompositor::hasUrgentWindowOnWorkspace(const int& id) {
for (auto& w : m_vWindows) {
if (w->workspaceID() == id && w->m_bIsMapped && w->m_bIsUrgent)
return true;
}
return false;
}
PHLWINDOW CCompositor::getFirstWindowOnWorkspace(const int& id) {
for (auto& w : m_vWindows) {
if (w->workspaceID() == id && w->m_bIsMapped && !w->isHidden())
return w;
}
return nullptr;
}
PHLWINDOW CCompositor::getTopLeftWindowOnWorkspace(const int& id) {
const auto PWORKSPACE = getWorkspaceByID(id);
if (!PWORKSPACE)
return nullptr;
const auto PMONITOR = getMonitorFromID(PWORKSPACE->m_iMonitorID);
for (auto& w : m_vWindows) {
if (w->workspaceID() != id || !w->m_bIsMapped || w->isHidden())
continue;
const auto WINDOWIDEALBB = w->getWindowIdealBoundingBoxIgnoreReserved();
if (WINDOWIDEALBB.x <= PMONITOR->vecPosition.x + 1 && WINDOWIDEALBB.y <= PMONITOR->vecPosition.y + 1)
return w;
}
return nullptr;
}
bool CCompositor::isWindowActive(PHLWINDOW pWindow) {
if (m_pLastWindow.expired() && !m_pLastFocus)
return false;
if (!pWindow->m_bIsMapped)
return false;
const auto PSURFACE = pWindow->m_pWLSurface->resource();
return PSURFACE == m_pLastFocus || pWindow == m_pLastWindow.lock();
}
void CCompositor::changeWindowZOrder(PHLWINDOW pWindow, bool top) {
if (!validMapped(pWindow))
return;
auto moveToZ = [&](PHLWINDOW pw, bool top) -> void {
if (top) {
for (auto it = m_vWindows.begin(); it != m_vWindows.end(); ++it) {
if (*it == pw) {
std::rotate(it, it + 1, m_vWindows.end());
break;
}
}
} else {
for (auto it = m_vWindows.rbegin(); it != m_vWindows.rend(); ++it) {
if (*it == pw) {
std::rotate(it, it + 1, m_vWindows.rend());
break;
}
}
}
if (pw->m_bIsMapped)
g_pHyprRenderer->damageMonitor(getMonitorFromID(pw->m_iMonitorID));
};
if (top)
pWindow->m_bCreatedOverFullscreen = true;
if (!pWindow->m_bIsX11)
moveToZ(pWindow, top);
else {
// move X11 window stack
std::deque<PHLWINDOW> toMove;
auto x11Stack = [&](PHLWINDOW pw, bool top, auto&& x11Stack) -> void {
if (top)
toMove.emplace_back(pw);
else
toMove.emplace_front(pw);
for (auto& w : m_vWindows) {
if (w->m_bIsMapped && !w->isHidden() && w->m_bIsX11 && w->X11TransientFor() == pw && w != pw && std::find(toMove.begin(), toMove.end(), w) == toMove.end()) {
x11Stack(w, top, x11Stack);
}
}
};
x11Stack(pWindow, top, x11Stack);
for (auto it : toMove) {
moveToZ(it, top);
}
}
}
void CCompositor::cleanupFadingOut(const int& monid) {
for (auto& ww : m_vWindowsFadingOut) {
auto w = ww.lock();
if (w->m_iMonitorID != (long unsigned int)monid)
continue;
if (!w->m_bFadingOut || w->m_fAlpha.value() == 0.f) {
w->m_bFadingOut = false;
if (!w->m_bReadyToDelete)
continue;
removeWindowFromVectorSafe(w);
w.reset();
Debug::log(LOG, "Cleanup: destroyed a window");
return;
}
}
for (auto& lsr : m_vSurfacesFadingOut) {
auto ls = lsr.lock();
if (!ls)
continue;
if (ls->monitorID != monid)
continue;
// mark blur for recalc
if (ls->layer == ZWLR_LAYER_SHELL_V1_LAYER_BACKGROUND || ls->layer == ZWLR_LAYER_SHELL_V1_LAYER_BOTTOM)
g_pHyprOpenGL->markBlurDirtyForMonitor(getMonitorFromID(monid));
if (ls->fadingOut && ls->readyToDelete && ls->isFadedOut()) {
for (auto& m : m_vMonitors) {
for (auto& lsl : m->m_aLayerSurfaceLayers) {
if (!lsl.empty() && std::find_if(lsl.begin(), lsl.end(), [&](auto& other) { return other == ls; }) != lsl.end()) {
std::erase_if(lsl, [&](auto& other) { return other == ls; });
}
}
}
std::erase_if(m_vSurfacesFadingOut, [ls](const auto& el) { return el.lock() == ls; });
std::erase_if(m_vLayers, [ls](const auto& el) { return el == ls; });
ls.reset();
Debug::log(LOG, "Cleanup: destroyed a layersurface");
glFlush(); // to free mem NOW.
return;
}
}
}
void CCompositor::addToFadingOutSafe(PHLLS pLS) {
const auto FOUND = std::find_if(m_vSurfacesFadingOut.begin(), m_vSurfacesFadingOut.end(), [&](auto& other) { return other.lock() == pLS; });
if (FOUND != m_vSurfacesFadingOut.end())
return; // if it's already added, don't add it.
m_vSurfacesFadingOut.emplace_back(pLS);
}
void CCompositor::removeFromFadingOutSafe(PHLLS ls) {
std::erase(m_vSurfacesFadingOut, ls);
}
void CCompositor::addToFadingOutSafe(PHLWINDOW pWindow) {
const auto FOUND = std::find_if(m_vWindowsFadingOut.begin(), m_vWindowsFadingOut.end(), [&](PHLWINDOWREF& other) { return other.lock() == pWindow; });
if (FOUND != m_vWindowsFadingOut.end())
return; // if it's already added, don't add it.
m_vWindowsFadingOut.emplace_back(pWindow);
}
PHLWINDOW CCompositor::getWindowInDirection(PHLWINDOW pWindow, char dir) {
if (!isDirection(dir))
return nullptr;
// 0 -> history, 1 -> shared length
static auto PMETHOD = CConfigValue<Hyprlang::INT>("binds:focus_preferred_method");
static auto PMONITORFALLBACK = CConfigValue<Hyprlang::INT>("binds:window_direction_monitor_fallback");
const auto PMONITOR = g_pCompositor->getMonitorFromID(pWindow->m_iMonitorID);
if (!PMONITOR)
return nullptr; // ??
const auto WINDOWIDEALBB = pWindow->m_bIsFullscreen ? CBox{PMONITOR->vecPosition, PMONITOR->vecSize} : pWindow->getWindowIdealBoundingBoxIgnoreReserved();
const auto POSA = Vector2D(WINDOWIDEALBB.x, WINDOWIDEALBB.y);
const auto SIZEA = Vector2D(WINDOWIDEALBB.width, WINDOWIDEALBB.height);
const auto PWORKSPACE = pWindow->m_pWorkspace;
auto leaderValue = -1;
PHLWINDOW leaderWindow = nullptr;
if (!pWindow->m_bIsFloating) {
// for tiled windows, we calc edges
for (auto& w : m_vWindows) {
if (w == pWindow || !w->m_bIsMapped || w->isHidden() || (!w->m_bIsFullscreen && w->m_bIsFloating) || !isWorkspaceVisible(w->m_pWorkspace))
continue;
if (pWindow->m_iMonitorID == w->m_iMonitorID && pWindow->m_pWorkspace != w->m_pWorkspace)
continue;
if (PWORKSPACE->m_bHasFullscreenWindow && !w->m_bIsFullscreen && !w->m_bCreatedOverFullscreen)
continue;
if (!*PMONITORFALLBACK && pWindow->m_iMonitorID != w->m_iMonitorID)
continue;
const auto BWINDOWIDEALBB = w->getWindowIdealBoundingBoxIgnoreReserved();
const auto POSB = Vector2D(BWINDOWIDEALBB.x, BWINDOWIDEALBB.y);
const auto SIZEB = Vector2D(BWINDOWIDEALBB.width, BWINDOWIDEALBB.height);
double intersectLength = -1;
switch (dir) {
case 'l':
if (STICKS(POSA.x, POSB.x + SIZEB.x)) {
intersectLength = std::max(0.0, std::min(POSA.y + SIZEA.y, POSB.y + SIZEB.y) - std::max(POSA.y, POSB.y));
}
break;
case 'r':
if (STICKS(POSA.x + SIZEA.x, POSB.x)) {
intersectLength = std::max(0.0, std::min(POSA.y + SIZEA.y, POSB.y + SIZEB.y) - std::max(POSA.y, POSB.y));
}
break;
case 't':
case 'u':
if (STICKS(POSA.y, POSB.y + SIZEB.y)) {
intersectLength = std::max(0.0, std::min(POSA.x + SIZEA.x, POSB.x + SIZEB.x) - std::max(POSA.x, POSB.x));
}
break;
case 'b':
case 'd':
if (STICKS(POSA.y + SIZEA.y, POSB.y)) {
intersectLength = std::max(0.0, std::min(POSA.x + SIZEA.x, POSB.x + SIZEB.x) - std::max(POSA.x, POSB.x));
}
break;
}
if (*PMETHOD == 0 /* history */) {
if (intersectLength > 0) {
// get idx
int windowIDX = -1;
for (size_t i = 0; i < g_pCompositor->m_vWindowFocusHistory.size(); ++i) {
if (g_pCompositor->m_vWindowFocusHistory[i].lock() == w) {
windowIDX = i;
break;
}
}
windowIDX = g_pCompositor->m_vWindowFocusHistory.size() - windowIDX;
if (windowIDX > leaderValue) {
leaderValue = windowIDX;
leaderWindow = w;
}
}
} else /* length */ {
if (intersectLength > leaderValue) {
leaderValue = intersectLength;
leaderWindow = w;
}
}
}
} else {
// for floating windows, we calculate best distance and angle.
// if there is a window with angle better than THRESHOLD, only distance counts
if (dir == 'u')
dir = 't';
if (dir == 'd')
dir = 'b';
static const std::unordered_map<char, Vector2D> VECTORS = {{'r', {1, 0}}, {'t', {0, -1}}, {'b', {0, 1}}, {'l', {-1, 0}}};
//
auto vectorAngles = [](Vector2D a, Vector2D b) -> double {
double dot = a.x * b.x + a.y * b.y;
double ang = std::acos(dot / (a.size() * b.size()));
return ang;
};
float bestAngleAbs = 2.0 * M_PI;
constexpr float THRESHOLD = 0.3 * M_PI;
for (auto& w : m_vWindows) {
if (w == pWindow || !w->m_bIsMapped || w->isHidden() || (!w->m_bIsFullscreen && !w->m_bIsFloating) || !isWorkspaceVisible(w->m_pWorkspace))
continue;
if (pWindow->m_iMonitorID == w->m_iMonitorID && pWindow->m_pWorkspace != w->m_pWorkspace)
continue;
if (PWORKSPACE->m_bHasFullscreenWindow && !w->m_bIsFullscreen && !w->m_bCreatedOverFullscreen)
continue;
if (!*PMONITORFALLBACK && pWindow->m_iMonitorID != w->m_iMonitorID)
continue;
const auto DIST = w->middle().distance(pWindow->middle());
const auto ANGLE = vectorAngles(Vector2D{w->middle() - pWindow->middle()}, VECTORS.at(dir));
if (ANGLE > M_PI_2)
continue; // if the angle is over 90 degrees, ignore. Wrong direction entirely.
if ((bestAngleAbs < THRESHOLD && DIST < leaderValue && ANGLE < THRESHOLD) || (ANGLE < bestAngleAbs && bestAngleAbs > THRESHOLD) || leaderValue == -1) {
leaderValue = DIST;
bestAngleAbs = ANGLE;
leaderWindow = w;
}
}
if (!leaderWindow && PWORKSPACE->m_bHasFullscreenWindow)
leaderWindow = g_pCompositor->getFullscreenWindowOnWorkspace(PWORKSPACE->m_iID);
}
if (leaderValue != -1)
return leaderWindow;
return nullptr;
}
PHLWINDOW CCompositor::getNextWindowOnWorkspace(PHLWINDOW pWindow, bool focusableOnly, std::optional<bool> floating) {
bool gotToWindow = false;
for (auto& w : m_vWindows) {
if (w != pWindow && !gotToWindow)
continue;
if (w == pWindow) {
gotToWindow = true;
continue;
}
if (floating.has_value() && w->m_bIsFloating != floating.value())
continue;
if (w->m_pWorkspace == pWindow->m_pWorkspace && w->m_bIsMapped && !w->isHidden() && (!focusableOnly || !w->m_sWindowData.noFocus.valueOrDefault()))
return w;
}
for (auto& w : m_vWindows) {
if (floating.has_value() && w->m_bIsFloating != floating.value())
continue;
if (w != pWindow && w->m_pWorkspace == pWindow->m_pWorkspace && w->m_bIsMapped && !w->isHidden() && (!focusableOnly || !w->m_sWindowData.noFocus.valueOrDefault()))
return w;
}
return nullptr;
}
PHLWINDOW CCompositor::getPrevWindowOnWorkspace(PHLWINDOW pWindow, bool focusableOnly, std::optional<bool> floating) {
bool gotToWindow = false;
for (auto& w : m_vWindows | std::views::reverse) {
if (w != pWindow && !gotToWindow)
continue;
if (w == pWindow) {
gotToWindow = true;
continue;
}
if (floating.has_value() && w->m_bIsFloating != floating.value())
continue;
if (w->m_pWorkspace == pWindow->m_pWorkspace && w->m_bIsMapped && !w->isHidden() && (!focusableOnly || !w->m_sWindowData.noFocus.valueOrDefault()))
return w;
}
for (auto& w : m_vWindows | std::views::reverse) {
if (floating.has_value() && w->m_bIsFloating != floating.value())
continue;
if (w != pWindow && w->m_pWorkspace == pWindow->m_pWorkspace && w->m_bIsMapped && !w->isHidden() && (!focusableOnly || !w->m_sWindowData.noFocus.valueOrDefault()))
return w;
}
return nullptr;
}
int CCompositor::getNextAvailableNamedWorkspace() {
int lowest = -1337 + 1;
for (auto& w : m_vWorkspaces) {
if (w->m_iID < -1 && w->m_iID < lowest)
lowest = w->m_iID;
}
return lowest - 1;
}
PHLWORKSPACE CCompositor::getWorkspaceByName(const std::string& name) {
for (auto& w : m_vWorkspaces) {
if (w->m_szName == name && !w->inert())
return w;
}
return nullptr;
}
PHLWORKSPACE CCompositor::getWorkspaceByString(const std::string& str) {
if (str.starts_with("name:")) {
return getWorkspaceByName(str.substr(str.find_first_of(':') + 1));
}
try {
return getWorkspaceByID(getWorkspaceIDNameFromString(str).id);
} catch (std::exception& e) { Debug::log(ERR, "Error in getWorkspaceByString, invalid id"); }
return nullptr;
}
bool CCompositor::isPointOnAnyMonitor(const Vector2D& point) {
for (auto& m : m_vMonitors) {
if (VECINRECT(point, m->vecPosition.x, m->vecPosition.y, m->vecSize.x + m->vecPosition.x, m->vecSize.y + m->vecPosition.y))
return true;
}
return false;
}
bool CCompositor::isPointOnReservedArea(const Vector2D& point, const CMonitor* pMonitor) {
const auto PMONITOR = pMonitor ? pMonitor : getMonitorFromVector(point);
const auto XY1 = PMONITOR->vecPosition + PMONITOR->vecReservedTopLeft;
const auto XY2 = PMONITOR->vecPosition + PMONITOR->vecSize - PMONITOR->vecReservedBottomRight;
return !VECINRECT(point, XY1.x, XY1.y, XY2.x, XY2.y);
}
CMonitor* CCompositor::getMonitorInDirection(const char& dir) {
return this->getMonitorInDirection(m_pLastMonitor.get(), dir);
}
CMonitor* CCompositor::getMonitorInDirection(CMonitor* pSourceMonitor, const char& dir) {
if (!pSourceMonitor)
return nullptr;
const auto POSA = pSourceMonitor->vecPosition;
const auto SIZEA = pSourceMonitor->vecSize;
auto longestIntersect = -1;
CMonitor* longestIntersectMonitor = nullptr;
for (auto& m : m_vMonitors) {
if (m == m_pLastMonitor)
continue;
const auto POSB = m->vecPosition;
const auto SIZEB = m->vecSize;
switch (dir) {
case 'l':
if (STICKS(POSA.x, POSB.x + SIZEB.x)) {
const auto INTERSECTLEN = std::max(0.0, std::min(POSA.y + SIZEA.y, POSB.y + SIZEB.y) - std::max(POSA.y, POSB.y));
if (INTERSECTLEN > longestIntersect) {
longestIntersect = INTERSECTLEN;
longestIntersectMonitor = m.get();
}
}
break;
case 'r':
if (STICKS(POSA.x + SIZEA.x, POSB.x)) {
const auto INTERSECTLEN = std::max(0.0, std::min(POSA.y + SIZEA.y, POSB.y + SIZEB.y) - std::max(POSA.y, POSB.y));
if (INTERSECTLEN > longestIntersect) {
longestIntersect = INTERSECTLEN;
longestIntersectMonitor = m.get();
}
}
break;
case 't':
case 'u':
if (STICKS(POSA.y, POSB.y + SIZEB.y)) {
const auto INTERSECTLEN = std::max(0.0, std::min(POSA.x + SIZEA.x, POSB.x + SIZEB.x) - std::max(POSA.x, POSB.x));
if (INTERSECTLEN > longestIntersect) {
longestIntersect = INTERSECTLEN;
longestIntersectMonitor = m.get();
}
}
break;
case 'b':
case 'd':
if (STICKS(POSA.y + SIZEA.y, POSB.y)) {
const auto INTERSECTLEN = std::max(0.0, std::min(POSA.x + SIZEA.x, POSB.x + SIZEB.x) - std::max(POSA.x, POSB.x));
if (INTERSECTLEN > longestIntersect) {
longestIntersect = INTERSECTLEN;
longestIntersectMonitor = m.get();
}
}
break;
}
}
if (longestIntersect != -1)
return longestIntersectMonitor;
return nullptr;
}
void CCompositor::updateAllWindowsAnimatedDecorationValues() {
for (auto& w : m_vWindows) {
if (!w->m_bIsMapped)
continue;
updateWindowAnimatedDecorationValues(w);
}
}
void CCompositor::updateWorkspaceWindows(const int64_t& id) {
for (auto& w : m_vWindows) {
if (!w->m_bIsMapped || w->workspaceID() != id)
continue;
w->updateDynamicRules();
}
}
void CCompositor::updateWindowAnimatedDecorationValues(PHLWINDOW pWindow) {
// optimization
static auto PACTIVECOL = CConfigValue<Hyprlang::CUSTOMTYPE>("general:col.active_border");
static auto PINACTIVECOL = CConfigValue<Hyprlang::CUSTOMTYPE>("general:col.inactive_border");
static auto PNOGROUPACTIVECOL = CConfigValue<Hyprlang::CUSTOMTYPE>("general:col.nogroup_border_active");
static auto PNOGROUPINACTIVECOL = CConfigValue<Hyprlang::CUSTOMTYPE>("general:col.nogroup_border");
static auto PGROUPACTIVECOL = CConfigValue<Hyprlang::CUSTOMTYPE>("group:col.border_active");
static auto PGROUPINACTIVECOL = CConfigValue<Hyprlang::CUSTOMTYPE>("group:col.border_inactive");
static auto PGROUPACTIVELOCKEDCOL = CConfigValue<Hyprlang::CUSTOMTYPE>("group:col.border_locked_active");
static auto PGROUPINACTIVELOCKEDCOL = CConfigValue<Hyprlang::CUSTOMTYPE>("group:col.border_locked_inactive");
static auto PINACTIVEALPHA = CConfigValue<Hyprlang::FLOAT>("decoration:inactive_opacity");
static auto PACTIVEALPHA = CConfigValue<Hyprlang::FLOAT>("decoration:active_opacity");
static auto PFULLSCREENALPHA = CConfigValue<Hyprlang::FLOAT>("decoration:fullscreen_opacity");
static auto PSHADOWCOL = CConfigValue<Hyprlang::INT>("decoration:col.shadow");
static auto PSHADOWCOLINACTIVE = CConfigValue<Hyprlang::INT>("decoration:col.shadow_inactive");
static auto PDIMSTRENGTH = CConfigValue<Hyprlang::FLOAT>("decoration:dim_strength");
static auto PDIMENABLED = CConfigValue<Hyprlang::INT>("decoration:dim_inactive");
auto* const ACTIVECOL = (CGradientValueData*)(PACTIVECOL.ptr())->getData();
auto* const INACTIVECOL = (CGradientValueData*)(PINACTIVECOL.ptr())->getData();
auto* const NOGROUPACTIVECOL = (CGradientValueData*)(PNOGROUPACTIVECOL.ptr())->getData();
auto* const NOGROUPINACTIVECOL = (CGradientValueData*)(PNOGROUPINACTIVECOL.ptr())->getData();
auto* const GROUPACTIVECOL = (CGradientValueData*)(PGROUPACTIVECOL.ptr())->getData();
auto* const GROUPINACTIVECOL = (CGradientValueData*)(PGROUPINACTIVECOL.ptr())->getData();
auto* const GROUPACTIVELOCKEDCOL = (CGradientValueData*)(PGROUPACTIVELOCKEDCOL.ptr())->getData();
auto* const GROUPINACTIVELOCKEDCOL = (CGradientValueData*)(PGROUPINACTIVELOCKEDCOL.ptr())->getData();
auto setBorderColor = [&](CGradientValueData grad) -> void {
if (grad == pWindow->m_cRealBorderColor)
return;
pWindow->m_cRealBorderColorPrevious = pWindow->m_cRealBorderColor;
pWindow->m_cRealBorderColor = grad;
pWindow->m_fBorderFadeAnimationProgress.setValueAndWarp(0.f);
pWindow->m_fBorderFadeAnimationProgress = 1.f;
};
// border
const auto RENDERDATA = g_pLayoutManager->getCurrentLayout()->requestRenderHints(pWindow);
if (RENDERDATA.isBorderGradient)
setBorderColor(*RENDERDATA.borderGradient);
else {
const bool GROUPLOCKED = pWindow->m_sGroupData.pNextWindow.lock() ? pWindow->getGroupHead()->m_sGroupData.locked : false;
if (pWindow == m_pLastWindow) {
const auto* const ACTIVECOLOR =
!pWindow->m_sGroupData.pNextWindow.lock() ? (!pWindow->m_sGroupData.deny ? ACTIVECOL : NOGROUPACTIVECOL) : (GROUPLOCKED ? GROUPACTIVELOCKEDCOL : GROUPACTIVECOL);
setBorderColor(pWindow->m_sWindowData.activeBorderColor.valueOr(*ACTIVECOLOR));
} else {
const auto* const INACTIVECOLOR = !pWindow->m_sGroupData.pNextWindow.lock() ? (!pWindow->m_sGroupData.deny ? INACTIVECOL : NOGROUPINACTIVECOL) :
(GROUPLOCKED ? GROUPINACTIVELOCKEDCOL : GROUPINACTIVECOL);
setBorderColor(pWindow->m_sWindowData.inactiveBorderColor.valueOr(*INACTIVECOLOR));
}
}
// tick angle if it's not running (aka dead)
if (!pWindow->m_fBorderAngleAnimationProgress.isBeingAnimated())
pWindow->m_fBorderAngleAnimationProgress.setValueAndWarp(0.f);
// opacity
const auto PWORKSPACE = pWindow->m_pWorkspace;
if (pWindow->m_bIsFullscreen && PWORKSPACE->m_efFullscreenMode == FULLSCREEN_FULL) {
pWindow->m_fActiveInactiveAlpha = pWindow->m_sWindowData.alphaFullscreen.valueOrDefault().applyAlpha(*PFULLSCREENALPHA);
} else {
if (pWindow == m_pLastWindow)
pWindow->m_fActiveInactiveAlpha = pWindow->m_sWindowData.alpha.valueOrDefault().applyAlpha(*PACTIVEALPHA);
else
pWindow->m_fActiveInactiveAlpha = pWindow->m_sWindowData.alphaInactive.valueOrDefault().applyAlpha(*PINACTIVEALPHA);
}
// dim
if (pWindow == m_pLastWindow.lock() || pWindow->m_sWindowData.noDim.valueOrDefault() || !*PDIMENABLED) {
pWindow->m_fDimPercent = 0;
} else {
pWindow->m_fDimPercent = *PDIMSTRENGTH;
}
// shadow
if (pWindow->m_iX11Type != 2 && !pWindow->m_bX11DoesntWantBorders) {
if (pWindow == m_pLastWindow) {
pWindow->m_cRealShadowColor = CColor(*PSHADOWCOL);
} else {
pWindow->m_cRealShadowColor = CColor(*PSHADOWCOLINACTIVE != INT_MAX ? *PSHADOWCOLINACTIVE : *PSHADOWCOL);
}
} else {
pWindow->m_cRealShadowColor.setValueAndWarp(CColor(0, 0, 0, 0)); // no shadow
}
pWindow->updateWindowDecos();
}
int CCompositor::getNextAvailableMonitorID(std::string const& name) {
// reuse ID if it's already in the map, and the monitor with that ID is not being used by another monitor
if (m_mMonitorIDMap.contains(name) && !std::any_of(m_vRealMonitors.begin(), m_vRealMonitors.end(), [&](auto m) { return m->ID == m_mMonitorIDMap[name]; }))
return m_mMonitorIDMap[name];
// otherwise, find minimum available ID that is not in the map
std::unordered_set<uint64_t> usedIDs;
for (auto const& monitor : m_vRealMonitors) {
usedIDs.insert(monitor->ID);
}
uint64_t nextID = 0;
while (usedIDs.count(nextID) > 0) {
nextID++;
}
m_mMonitorIDMap[name] = nextID;
return nextID;
}
void CCompositor::swapActiveWorkspaces(CMonitor* pMonitorA, CMonitor* pMonitorB) {
const auto PWORKSPACEA = pMonitorA->activeWorkspace;
const auto PWORKSPACEB = pMonitorB->activeWorkspace;
PWORKSPACEA->m_iMonitorID = pMonitorB->ID;
PWORKSPACEA->moveToMonitor(pMonitorB->ID);
for (auto& w : m_vWindows) {
if (w->m_pWorkspace == PWORKSPACEA) {
if (w->m_bPinned) {
w->m_pWorkspace = PWORKSPACEB;
continue;
}
w->m_iMonitorID = pMonitorB->ID;
// additionally, move floating and fs windows manually
if (w->m_bIsFloating)
w->m_vRealPosition = w->m_vRealPosition.goal() - pMonitorA->vecPosition + pMonitorB->vecPosition;
if (w->m_bIsFullscreen) {
w->m_vRealPosition = pMonitorB->vecPosition;
w->m_vRealSize = pMonitorB->vecSize;
}
w->updateToplevel();
}
}
PWORKSPACEB->m_iMonitorID = pMonitorA->ID;
PWORKSPACEB->moveToMonitor(pMonitorA->ID);
for (auto& w : m_vWindows) {
if (w->m_pWorkspace == PWORKSPACEB) {
if (w->m_bPinned) {
w->m_pWorkspace = PWORKSPACEA;
continue;
}
w->m_iMonitorID = pMonitorA->ID;
// additionally, move floating and fs windows manually
if (w->m_bIsFloating)
w->m_vRealPosition = w->m_vRealPosition.goal() - pMonitorB->vecPosition + pMonitorA->vecPosition;
if (w->m_bIsFullscreen) {
w->m_vRealPosition = pMonitorA->vecPosition;
w->m_vRealSize = pMonitorA->vecSize;
}
w->updateToplevel();
}
}
pMonitorA->activeWorkspace = PWORKSPACEB;
pMonitorB->activeWorkspace = PWORKSPACEA;
PWORKSPACEA->rememberPrevWorkspace(PWORKSPACEB);
PWORKSPACEB->rememberPrevWorkspace(PWORKSPACEA);
g_pLayoutManager->getCurrentLayout()->recalculateMonitor(pMonitorA->ID);
g_pLayoutManager->getCurrentLayout()->recalculateMonitor(pMonitorB->ID);
updateFullscreenFadeOnWorkspace(PWORKSPACEB);
updateFullscreenFadeOnWorkspace(PWORKSPACEA);
if (pMonitorA->ID == g_pCompositor->m_pLastMonitor->ID || pMonitorB->ID == g_pCompositor->m_pLastMonitor->ID) {
const auto LASTWIN = pMonitorA->ID == g_pCompositor->m_pLastMonitor->ID ? PWORKSPACEB->getLastFocusedWindow() : PWORKSPACEA->getLastFocusedWindow();
g_pCompositor->focusWindow(LASTWIN ? LASTWIN :
(g_pCompositor->vectorToWindowUnified(g_pInputManager->getMouseCoordsInternal(), RESERVED_EXTENTS | INPUT_EXTENTS | ALLOW_FLOATING)));
const auto PNEWWORKSPACE = pMonitorA->ID == g_pCompositor->m_pLastMonitor->ID ? PWORKSPACEB : PWORKSPACEA;
g_pEventManager->postEvent(SHyprIPCEvent{"workspace", PNEWWORKSPACE->m_szName});
g_pEventManager->postEvent(SHyprIPCEvent{"workspacev2", std::format("{},{}", PNEWWORKSPACE->m_iID, PNEWWORKSPACE->m_szName)});
EMIT_HOOK_EVENT("workspace", PNEWWORKSPACE);
}
// event
g_pEventManager->postEvent(SHyprIPCEvent{"moveworkspace", PWORKSPACEA->m_szName + "," + pMonitorB->szName});
g_pEventManager->postEvent(SHyprIPCEvent{"moveworkspacev2", std::format("{},{},{}", PWORKSPACEA->m_iID, PWORKSPACEA->m_szName, pMonitorB->szName)});
EMIT_HOOK_EVENT("moveWorkspace", (std::vector<std::any>{PWORKSPACEA, pMonitorB}));
g_pEventManager->postEvent(SHyprIPCEvent{"moveworkspace", PWORKSPACEB->m_szName + "," + pMonitorA->szName});
g_pEventManager->postEvent(SHyprIPCEvent{"moveworkspacev2", std::format("{},{},{}", PWORKSPACEB->m_iID, PWORKSPACEB->m_szName, pMonitorA->szName)});
EMIT_HOOK_EVENT("moveWorkspace", (std::vector<std::any>{PWORKSPACEB, pMonitorA}));
}
CMonitor* CCompositor::getMonitorFromString(const std::string& name) {
if (name == "current")
return g_pCompositor->m_pLastMonitor.get();
else if (isDirection(name))
return getMonitorInDirection(name[0]);
else if (name[0] == '+' || name[0] == '-') {
// relative
if (m_vMonitors.size() == 1)
return m_vMonitors.begin()->get();
const auto OFFSET = name[0] == '-' ? name : name.substr(1);
if (!isNumber(OFFSET)) {
Debug::log(ERR, "Error in getMonitorFromString: Not a number in relative.");
return nullptr;
}
int offsetLeft = std::stoi(OFFSET);
offsetLeft = offsetLeft < 0 ? -((-offsetLeft) % m_vMonitors.size()) : offsetLeft % m_vMonitors.size();
int currentPlace = 0;
for (int i = 0; i < (int)m_vMonitors.size(); i++) {
if (m_vMonitors[i] == m_pLastMonitor) {
currentPlace = i;
break;
}
}
currentPlace += offsetLeft;
if (currentPlace < 0) {
currentPlace = m_vMonitors.size() + currentPlace;
} else {
currentPlace = currentPlace % m_vMonitors.size();
}
if (currentPlace != std::clamp(currentPlace, 0, (int)m_vMonitors.size() - 1)) {
Debug::log(WARN, "Error in getMonitorFromString: Vaxry's code sucks.");
currentPlace = std::clamp(currentPlace, 0, (int)m_vMonitors.size() - 1);
}
return m_vMonitors[currentPlace].get();
} else if (isNumber(name)) {
// change by ID
int monID = -1;
try {
monID = std::stoi(name);
} catch (std::exception& e) {
// shouldn't happen but jic
Debug::log(ERR, "Error in getMonitorFromString: invalid num");
return nullptr;
}
if (monID > -1 && monID < (int)m_vMonitors.size()) {
return getMonitorFromID(monID);
} else {
Debug::log(ERR, "Error in getMonitorFromString: invalid arg 1");
return nullptr;
}
} else {
for (auto& m : m_vMonitors) {
if (!m->output)
continue;
if (m->matchesStaticSelector(name)) {
return m.get();
}
}
}
return nullptr;
}
void CCompositor::moveWorkspaceToMonitor(PHLWORKSPACE pWorkspace, CMonitor* pMonitor, bool noWarpCursor) {
// We trust the monitor to be correct.
if (pWorkspace->m_iMonitorID == pMonitor->ID)
return;
Debug::log(LOG, "moveWorkspaceToMonitor: Moving {} to monitor {}", pWorkspace->m_iID, pMonitor->ID);
const auto POLDMON = getMonitorFromID(pWorkspace->m_iMonitorID);
const bool SWITCHINGISACTIVE = POLDMON ? POLDMON->activeWorkspace == pWorkspace : false;
// fix old mon
int nextWorkspaceOnMonitorID = -1;
if (!SWITCHINGISACTIVE)
nextWorkspaceOnMonitorID = pWorkspace->m_iID;
else {
for (auto& w : m_vWorkspaces) {
if (w->m_iMonitorID == POLDMON->ID && w->m_iID != pWorkspace->m_iID && !w->m_bIsSpecialWorkspace) {
nextWorkspaceOnMonitorID = w->m_iID;
break;
}
}
if (nextWorkspaceOnMonitorID == -1) {
nextWorkspaceOnMonitorID = 1;
while (getWorkspaceByID(nextWorkspaceOnMonitorID) || [&]() -> bool {
const auto B = g_pConfigManager->getBoundMonitorForWS(std::to_string(nextWorkspaceOnMonitorID));
return B && B != POLDMON;
}())
nextWorkspaceOnMonitorID++;
Debug::log(LOG, "moveWorkspaceToMonitor: Plugging gap with new {}", nextWorkspaceOnMonitorID);
g_pCompositor->createNewWorkspace(nextWorkspaceOnMonitorID, POLDMON->ID);
}
Debug::log(LOG, "moveWorkspaceToMonitor: Plugging gap with existing {}", nextWorkspaceOnMonitorID);
POLDMON->changeWorkspace(nextWorkspaceOnMonitorID, false, true, true);
}
// move the workspace
pWorkspace->m_iMonitorID = pMonitor->ID;
pWorkspace->moveToMonitor(pMonitor->ID);
for (auto& w : m_vWindows) {
if (w->m_pWorkspace == pWorkspace) {
if (w->m_bPinned) {
w->m_pWorkspace = g_pCompositor->getWorkspaceByID(nextWorkspaceOnMonitorID);
continue;
}
w->m_iMonitorID = pMonitor->ID;
// additionally, move floating and fs windows manually
if (w->m_bIsMapped && !w->isHidden()) {
if (POLDMON) {
if (w->m_bIsFloating)
w->m_vRealPosition = w->m_vRealPosition.goal() - POLDMON->vecPosition + pMonitor->vecPosition;
if (w->m_bIsFullscreen) {
w->m_vRealPosition = pMonitor->vecPosition;
w->m_vRealSize = pMonitor->vecSize;
}
} else {
w->m_vRealPosition = Vector2D{(int)w->m_vRealPosition.goal().x % (int)pMonitor->vecSize.x, (int)w->m_vRealPosition.goal().y % (int)pMonitor->vecSize.y};
}
}
w->updateToplevel();
}
}
if (SWITCHINGISACTIVE && POLDMON == g_pCompositor->m_pLastMonitor.get()) { // if it was active, preserve its' status. If it wasn't, don't.
Debug::log(LOG, "moveWorkspaceToMonitor: SWITCHINGISACTIVE, active {} -> {}", pMonitor->activeWorkspaceID(), pWorkspace->m_iID);
if (valid(pMonitor->activeWorkspace)) {
pMonitor->activeWorkspace->m_bVisible = false;
pMonitor->activeWorkspace->startAnim(false, false);
}
setActiveMonitor(pMonitor);
pMonitor->activeWorkspace = pWorkspace;
g_pLayoutManager->getCurrentLayout()->recalculateMonitor(pMonitor->ID);
pWorkspace->startAnim(true, true, true);
pWorkspace->m_bVisible = true;
if (!noWarpCursor)
g_pPointerManager->warpTo(pMonitor->vecPosition + pMonitor->vecTransformedSize / 2.F);
g_pInputManager->sendMotionEventsToFocused();
}
// finalize
if (POLDMON) {
g_pLayoutManager->getCurrentLayout()->recalculateMonitor(POLDMON->ID);
updateFullscreenFadeOnWorkspace(POLDMON->activeWorkspace);
updateSuspendedStates();
}
updateFullscreenFadeOnWorkspace(pWorkspace);
updateSuspendedStates();
// event
g_pEventManager->postEvent(SHyprIPCEvent{"moveworkspace", pWorkspace->m_szName + "," + pMonitor->szName});
g_pEventManager->postEvent(SHyprIPCEvent{"moveworkspacev2", std::format("{},{},{}", pWorkspace->m_iID, pWorkspace->m_szName, pMonitor->szName)});
EMIT_HOOK_EVENT("moveWorkspace", (std::vector<std::any>{pWorkspace, pMonitor}));
}
bool CCompositor::workspaceIDOutOfBounds(const int64_t& id) {
int64_t lowestID = INT64_MAX;
int64_t highestID = INT64_MIN;
for (auto& w : m_vWorkspaces) {
if (w->m_bIsSpecialWorkspace)
continue;
if (w->m_iID < lowestID)
lowestID = w->m_iID;
if (w->m_iID > highestID)
highestID = w->m_iID;
}
return std::clamp(id, lowestID, highestID) != id;
}
void CCompositor::updateFullscreenFadeOnWorkspace(PHLWORKSPACE pWorkspace) {
const auto FULLSCREEN = pWorkspace->m_bHasFullscreenWindow;
for (auto& w : g_pCompositor->m_vWindows) {
if (w->m_pWorkspace == pWorkspace) {
if (w->m_bFadingOut || w->m_bPinned || w->m_bIsFullscreen)
continue;
if (!FULLSCREEN)
w->m_fAlpha = 1.f;
else if (!w->m_bIsFullscreen)
w->m_fAlpha = !w->m_bCreatedOverFullscreen ? 0.f : 1.f;
}
}
const auto PMONITOR = getMonitorFromID(pWorkspace->m_iMonitorID);
if (pWorkspace->m_iID == PMONITOR->activeWorkspaceID() || pWorkspace->m_iID == PMONITOR->activeSpecialWorkspaceID()) {
for (auto& ls : PMONITOR->m_aLayerSurfaceLayers[ZWLR_LAYER_SHELL_V1_LAYER_TOP]) {
if (!ls->fadingOut)
ls->alpha = FULLSCREEN && pWorkspace->m_efFullscreenMode == FULLSCREEN_FULL ? 0.f : 1.f;
}
}
}
void CCompositor::setWindowFullscreen(PHLWINDOW pWindow, bool on, eFullscreenMode mode) {
if (!validMapped(pWindow) || g_pCompositor->m_bUnsafeState)
return;
if (pWindow->m_bPinned) {
Debug::log(LOG, "Pinned windows cannot be fullscreen'd");
return;
}
if (pWindow->m_bIsFullscreen == on) {
Debug::log(LOG, "Window is already in the required fullscreen state");
return;
}
const auto PMONITOR = getMonitorFromID(pWindow->m_iMonitorID);
const auto PWORKSPACE = pWindow->m_pWorkspace;
const auto MODE = mode == FULLSCREEN_INVALID ? PWORKSPACE->m_efFullscreenMode : mode;
if (PWORKSPACE->m_bHasFullscreenWindow && on) {
Debug::log(LOG, "Rejecting fullscreen ON on a fullscreen workspace");
return;
}
g_pLayoutManager->getCurrentLayout()->fullscreenRequestForWindow(pWindow, MODE, on);
g_pXWaylandManager->setWindowFullscreen(pWindow, pWindow->shouldSendFullscreenState());
updateWindowAnimatedDecorationValues(pWindow);
// make all windows on the same workspace under the fullscreen window
for (auto& w : m_vWindows) {
if (w->m_pWorkspace == PWORKSPACE && !w->m_bIsFullscreen && !w->m_bFadingOut && !w->m_bPinned)
w->m_bCreatedOverFullscreen = false;
}
updateFullscreenFadeOnWorkspace(PWORKSPACE);
g_pXWaylandManager->setWindowSize(pWindow, pWindow->m_vRealSize.goal(), true);
forceReportSizesToWindowsOnWorkspace(pWindow->workspaceID());
g_pInputManager->recheckIdleInhibitorStatus();
// further updates require a monitor
if (!PMONITOR)
return;
// send a scanout tranche if we are entering fullscreen, and send a regular one if we aren't.
g_pHyprRenderer->setSurfaceScanoutMode(pWindow->m_pWLSurface->resource(), on ? PMONITOR->self.lock() : nullptr);
g_pConfigManager->ensureVRR(PMONITOR);
}
PHLWINDOW CCompositor::getX11Parent(PHLWINDOW pWindow) {
if (!pWindow->m_bIsX11)
return nullptr;
for (auto& w : m_vWindows) {
if (!w->m_bIsX11)
continue;
if (w->m_pXWaylandSurface == pWindow->m_pXWaylandSurface->parent)
return w;
}
return nullptr;
}
void CCompositor::updateWorkspaceWindowDecos(const int& id) {
for (auto& w : m_vWindows) {
if (w->workspaceID() != id)
continue;
w->updateWindowDecos();
}
}
void CCompositor::updateWorkspaceWindowData(const int& id) {
const auto PWORKSPACE = getWorkspaceByID(id);
const auto WORKSPACERULE = PWORKSPACE ? g_pConfigManager->getWorkspaceRuleFor(PWORKSPACE) : SWorkspaceRule{};
for (auto& w : m_vWindows) {
if (w->workspaceID() != id)
continue;
w->updateWindowData(WORKSPACERULE);
}
}
void CCompositor::scheduleFrameForMonitor(CMonitor* pMonitor, IOutput::scheduleFrameReason reason) {
if ((m_pAqBackend->hasSession() && !m_pAqBackend->session->active) || !m_bSessionActive)
return;
if (!pMonitor->m_bEnabled)
return;
if (pMonitor->renderingActive)
pMonitor->pendingFrame = true;
pMonitor->output->scheduleFrame(reason);
}
PHLWINDOW CCompositor::getWindowByRegex(const std::string& regexp) {
if (regexp.starts_with("active"))
return m_pLastWindow.lock();
eFocusWindowMode mode = MODE_CLASS_REGEX;
std::regex regexCheck(regexp);
std::string matchCheck;
if (regexp.starts_with("class:")) {
regexCheck = std::regex(regexp.substr(6));
} else if (regexp.starts_with("initialclass:")) {
mode = MODE_INITIAL_CLASS_REGEX;
regexCheck = std::regex(regexp.substr(13));
} else if (regexp.starts_with("title:")) {
mode = MODE_TITLE_REGEX;
regexCheck = std::regex(regexp.substr(6));
} else if (regexp.starts_with("initialtitle:")) {
mode = MODE_INITIAL_TITLE_REGEX;
regexCheck = std::regex(regexp.substr(13));
} else if (regexp.starts_with("address:")) {
mode = MODE_ADDRESS;
matchCheck = regexp.substr(8);
} else if (regexp.starts_with("pid:")) {
mode = MODE_PID;
matchCheck = regexp.substr(4);
} else if (regexp.starts_with("floating") || regexp.starts_with("tiled")) {
// first floating on the current ws
if (!valid(m_pLastWindow))
return nullptr;
const bool FLOAT = regexp.starts_with("floating");
for (auto& w : m_vWindows) {
if (!w->m_bIsMapped || w->m_bIsFloating != FLOAT || w->m_pWorkspace != m_pLastWindow->m_pWorkspace || w->isHidden())
continue;
return w;
}
return nullptr;
}
for (auto& w : g_pCompositor->m_vWindows) {
if (!w->m_bIsMapped || (w->isHidden() && !g_pLayoutManager->getCurrentLayout()->isWindowReachable(w)))
continue;
switch (mode) {
case MODE_CLASS_REGEX: {
const auto windowClass = w->m_szClass;
if (!std::regex_search(windowClass, regexCheck))
continue;
break;
}
case MODE_INITIAL_CLASS_REGEX: {
const auto initialWindowClass = w->m_szInitialClass;
if (!std::regex_search(initialWindowClass, regexCheck))
continue;
break;
}
case MODE_TITLE_REGEX: {
const auto windowTitle = w->m_szTitle;
if (!std::regex_search(windowTitle, regexCheck))
continue;
break;
}
case MODE_INITIAL_TITLE_REGEX: {
const auto initialWindowTitle = w->m_szInitialTitle;
if (!std::regex_search(initialWindowTitle, regexCheck))
continue;
break;
}
case MODE_ADDRESS: {
std::string addr = std::format("0x{:x}", (uintptr_t)w.get());
if (matchCheck != addr)
continue;
break;
}
case MODE_PID: {
std::string pid = std::format("{}", w->getPID());
if (matchCheck != pid)
continue;
break;
}
default: break;
}
return w;
}
return nullptr;
}
void CCompositor::warpCursorTo(const Vector2D& pos, bool force) {
// warpCursorTo should only be used for warps that
// should be disabled with no_warps
static auto PNOWARPS = CConfigValue<Hyprlang::INT>("cursor:no_warps");
if (*PNOWARPS && !force) {
const auto PMONITORNEW = getMonitorFromVector(pos);
if (PMONITORNEW != m_pLastMonitor.get())
setActiveMonitor(PMONITORNEW);
return;
}
g_pPointerManager->warpTo(pos);
const auto PMONITORNEW = getMonitorFromVector(pos);
if (PMONITORNEW != m_pLastMonitor.get())
setActiveMonitor(PMONITORNEW);
}
void CCompositor::closeWindow(PHLWINDOW pWindow) {
if (pWindow && validMapped(pWindow)) {
g_pXWaylandManager->sendCloseWindow(pWindow);
}
}
PHLLS CCompositor::getLayerSurfaceFromSurface(SP<CWLSurfaceResource> pSurface) {
std::pair<SP<CWLSurfaceResource>, bool> result = {pSurface, false};
for (auto& ls : m_vLayers) {
if (ls->layerSurface && ls->layerSurface->surface == pSurface)
return ls;
if (!ls->layerSurface || !ls->mapped)
continue;
ls->layerSurface->surface->breadthfirst(
[](SP<CWLSurfaceResource> surf, const Vector2D& offset, void* data) {
if (surf == ((std::pair<SP<CWLSurfaceResource>, bool>*)data)->first) {
*(bool*)data = true;
return;
}
},
&result);
if (result.second)
return ls;
}
return nullptr;
}
// returns a delta
Vector2D CCompositor::parseWindowVectorArgsRelative(const std::string& args, const Vector2D& relativeTo) {
if (!args.contains(' ') && !args.contains('\t'))
return relativeTo;
const auto PMONITOR = m_pLastMonitor;
bool xIsPercent = false;
bool yIsPercent = false;
bool isExact = false;
CVarList varList(args, 0, 's', true);
std::string x = varList[0];
std::string y = varList[1];
if (x == "exact") {
x = varList[1];
y = varList[2];
isExact = true;
}
if (x.contains('%')) {
xIsPercent = true;
x = x.substr(0, x.length() - 1);
}
if (y.contains('%')) {
yIsPercent = true;
y = y.substr(0, y.length() - 1);
}
if (!isNumber(x) || !isNumber(y)) {
Debug::log(ERR, "parseWindowVectorArgsRelative: args not numbers");
return relativeTo;
}
int X = 0;
int Y = 0;
if (isExact) {
X = xIsPercent ? std::stof(x) * 0.01 * PMONITOR->vecSize.x : std::stoi(x);
Y = yIsPercent ? std::stof(y) * 0.01 * PMONITOR->vecSize.y : std::stoi(y);
} else {
X = xIsPercent ? std::stof(x) * 0.01 * relativeTo.x + relativeTo.x : std::stoi(x) + relativeTo.x;
Y = yIsPercent ? std::stof(y) * 0.01 * relativeTo.y + relativeTo.y : std::stoi(y) + relativeTo.y;
}
return Vector2D(X, Y);
}
void CCompositor::forceReportSizesToWindowsOnWorkspace(const int& wid) {
for (auto& w : m_vWindows) {
if (w->workspaceID() == wid && w->m_bIsMapped && !w->isHidden()) {
g_pXWaylandManager->setWindowSize(w, w->m_vRealSize.value(), true);
}
}
}
PHLWORKSPACE CCompositor::createNewWorkspace(const int& id, const int& monid, const std::string& name, bool isEmtpy) {
const auto NAME = name == "" ? std::to_string(id) : name;
auto monID = monid;
// check if bound
if (const auto PMONITOR = g_pConfigManager->getBoundMonitorForWS(NAME); PMONITOR) {
monID = PMONITOR->ID;
}
const bool SPECIAL = id >= SPECIAL_WORKSPACE_START && id <= -2;
const auto PWORKSPACE = m_vWorkspaces.emplace_back(CWorkspace::create(id, monID, NAME, SPECIAL, isEmtpy));
PWORKSPACE->m_fAlpha.setValueAndWarp(0);
return PWORKSPACE;
}
void CCompositor::renameWorkspace(const int& id, const std::string& name) {
const auto PWORKSPACE = getWorkspaceByID(id);
if (!PWORKSPACE)
return;
if (isWorkspaceSpecial(id))
return;
Debug::log(LOG, "renameWorkspace: Renaming workspace {} to '{}'", id, name);
PWORKSPACE->m_szName = name;
g_pEventManager->postEvent({"renameworkspace", std::to_string(PWORKSPACE->m_iID) + "," + PWORKSPACE->m_szName});
}
void CCompositor::setActiveMonitor(CMonitor* pMonitor) {
if (m_pLastMonitor.get() == pMonitor)
return;
if (!pMonitor) {
m_pLastMonitor.reset();
return;
}
const auto PWORKSPACE = pMonitor->activeWorkspace;
g_pEventManager->postEvent(SHyprIPCEvent{"focusedmon", pMonitor->szName + "," + (PWORKSPACE ? PWORKSPACE->m_szName : "?")});
EMIT_HOOK_EVENT("focusedMon", pMonitor);
m_pLastMonitor = pMonitor->self;
}
bool CCompositor::isWorkspaceSpecial(const int& id) {
return id >= SPECIAL_WORKSPACE_START && id <= -2;
}
int CCompositor::getNewSpecialID() {
int highest = SPECIAL_WORKSPACE_START;
for (auto& ws : m_vWorkspaces) {
if (ws->m_bIsSpecialWorkspace && ws->m_iID > highest) {
highest = ws->m_iID;
}
}
return highest + 1;
}
void CCompositor::performUserChecks() {
; // intentional
}
void CCompositor::moveWindowToWorkspaceSafe(PHLWINDOW pWindow, PHLWORKSPACE pWorkspace) {
if (!pWindow || !pWorkspace)
return;
if (pWindow->m_bPinned && pWorkspace->m_bIsSpecialWorkspace)
return;
const bool FULLSCREEN = pWindow->m_bIsFullscreen;
const auto FULLSCREENMODE = pWindow->m_pWorkspace->m_efFullscreenMode;
if (FULLSCREEN)
setWindowFullscreen(pWindow, false, FULLSCREEN_FULL);
if (!pWindow->m_bIsFloating) {
g_pLayoutManager->getCurrentLayout()->onWindowRemovedTiling(pWindow);
pWindow->moveToWorkspace(pWorkspace);
pWindow->m_iMonitorID = pWorkspace->m_iMonitorID;
g_pLayoutManager->getCurrentLayout()->onWindowCreatedTiling(pWindow);
} else {
const auto PWINDOWMONITOR = g_pCompositor->getMonitorFromID(pWindow->m_iMonitorID);
const auto POSTOMON = pWindow->m_vRealPosition.goal() - PWINDOWMONITOR->vecPosition;
const auto PWORKSPACEMONITOR = g_pCompositor->getMonitorFromID(pWorkspace->m_iMonitorID);
pWindow->moveToWorkspace(pWorkspace);
pWindow->m_iMonitorID = pWorkspace->m_iMonitorID;
pWindow->m_vRealPosition = POSTOMON + PWORKSPACEMONITOR->vecPosition;
}
pWindow->updateToplevel();
pWindow->updateDynamicRules();
pWindow->uncacheWindowDecos();
if (!pWindow->m_sGroupData.pNextWindow.expired()) {
PHLWINDOW next = pWindow->m_sGroupData.pNextWindow.lock();
while (next != pWindow) {
next->moveToWorkspace(pWorkspace);
next->updateToplevel();
next = next->m_sGroupData.pNextWindow.lock();
}
}
if (FULLSCREEN)
setWindowFullscreen(pWindow, true, FULLSCREENMODE);
g_pCompositor->updateWorkspaceWindows(pWorkspace->m_iID);
g_pCompositor->updateWorkspaceWindows(pWindow->workspaceID());
}
PHLWINDOW CCompositor::getForceFocus() {
for (auto& w : m_vWindows) {
if (!w->m_bIsMapped || w->isHidden() || !isWorkspaceVisible(w->m_pWorkspace))
continue;
if (!w->m_bStayFocused)
continue;
return w;
}
return nullptr;
}
void CCompositor::arrangeMonitors() {
static auto* const PXWLFORCESCALEZERO = (Hyprlang::INT* const*)g_pConfigManager->getConfigValuePtr("xwayland:force_zero_scaling");
std::vector<CMonitor*> toArrange;
std::vector<CMonitor*> arranged;
for (auto& m : m_vMonitors)
toArrange.push_back(m.get());
Debug::log(LOG, "arrangeMonitors: {} to arrange", toArrange.size());
for (auto it = toArrange.begin(); it != toArrange.end();) {
auto m = *it;
if (m->activeMonitorRule.offset != Vector2D{-INT32_MAX, -INT32_MAX}) {
// explicit.
Debug::log(LOG, "arrangeMonitors: {} explicit {:j}", m->szName, m->activeMonitorRule.offset);
m->moveTo(m->activeMonitorRule.offset);
arranged.push_back(m);
it = toArrange.erase(it);
if (it == toArrange.end())
break;
continue;
}
++it;
}
// Variables to store the max and min values of monitors on each axis.
int maxXOffsetRight = 0;
int maxXOffsetLeft = 0;
int maxYOffsetUp = 0;
int maxYOffsetDown = 0;
// Finds the max and min values of explicitely placed monitors.
for (auto& m : arranged) {
if (m->vecPosition.x + m->vecSize.x > maxXOffsetRight)
maxXOffsetRight = m->vecPosition.x + m->vecSize.x;
if (m->vecPosition.x < maxXOffsetLeft)
maxXOffsetLeft = m->vecPosition.x;
if (m->vecPosition.y + m->vecSize.y > maxYOffsetDown)
maxYOffsetDown = m->vecPosition.y + m->vecSize.y;
if (m->vecPosition.y < maxYOffsetUp)
maxYOffsetUp = m->vecPosition.y;
}
// Iterates through all non-explicitly placed monitors.
for (auto& m : toArrange) {
// Moves the monitor to their appropriate position on the x/y axis and
// increments/decrements the corresponding max offset.
Vector2D newPosition = {0, 0};
switch (m->activeMonitorRule.autoDir) {
case eAutoDirs::DIR_AUTO_UP:
newPosition.y = maxYOffsetUp - m->vecSize.y;
maxYOffsetUp = newPosition.y;
break;
case eAutoDirs::DIR_AUTO_DOWN:
newPosition.y = maxYOffsetDown;
maxYOffsetDown += m->vecSize.y;
break;
case eAutoDirs::DIR_AUTO_LEFT:
newPosition.x = maxXOffsetLeft - m->vecSize.x;
maxXOffsetLeft = newPosition.x;
break;
case eAutoDirs::DIR_AUTO_RIGHT:
case eAutoDirs::DIR_AUTO_NONE:
newPosition.x = maxXOffsetRight;
maxXOffsetRight += m->vecSize.x;
break;
default: UNREACHABLE();
}
Debug::log(LOG, "arrangeMonitors: {} auto {:j}", m->szName, m->vecPosition);
m->moveTo(newPosition);
}
// reset maxXOffsetRight (reuse)
// and set xwayland positions aka auto for all
maxXOffsetRight = 0;
for (auto& m : m_vMonitors) {
Debug::log(LOG, "arrangeMonitors: {} xwayland [{}, {}]", m->szName, maxXOffsetRight, 0);
m->vecXWaylandPosition = {maxXOffsetRight, 0};
maxXOffsetRight += (*PXWLFORCESCALEZERO ? m->vecTransformedSize.x : m->vecSize.x);
if (*PXWLFORCESCALEZERO)
m->xwaylandScale = m->scale;
else
m->xwaylandScale = 1.f;
}
}
void CCompositor::enterUnsafeState() {
if (m_bUnsafeState)
return;
Debug::log(LOG, "Entering unsafe state");
if (!m_pUnsafeOutput->m_bEnabled)
m_pUnsafeOutput->onConnect(false);
m_bUnsafeState = true;
setActiveMonitor(m_pUnsafeOutput);
}
void CCompositor::leaveUnsafeState() {
if (!m_bUnsafeState)
return;
Debug::log(LOG, "Leaving unsafe state");
m_bUnsafeState = false;
CMonitor* pNewMonitor = nullptr;
for (auto& pMonitor : m_vMonitors) {
if (pMonitor->output != m_pUnsafeOutput->output) {
pNewMonitor = pMonitor.get();
break;
}
}
RASSERT(pNewMonitor, "Tried to leave unsafe without a monitor");
if (m_pUnsafeOutput->m_bEnabled)
m_pUnsafeOutput->onDisconnect();
for (auto& m : m_vMonitors) {
scheduleFrameForMonitor(m.get());
}
}
void CCompositor::setPreferredScaleForSurface(SP<CWLSurfaceResource> pSurface, double scale) {
PROTO::fractional->sendScale(pSurface, scale);
pSurface->sendPreferredScale(std::ceil(scale));
const auto PSURFACE = CWLSurface::fromResource(pSurface);
if (!PSURFACE) {
Debug::log(WARN, "Orphaned CWLSurfaceResource {:x} in setPreferredScaleForSurface", (uintptr_t)pSurface);
return;
}
PSURFACE->m_fLastScale = scale;
PSURFACE->m_iLastScale = static_cast<int32_t>(std::ceil(scale));
}
void CCompositor::setPreferredTransformForSurface(SP<CWLSurfaceResource> pSurface, wl_output_transform transform) {
pSurface->sendPreferredTransform(transform);
const auto PSURFACE = CWLSurface::fromResource(pSurface);
if (!PSURFACE) {
Debug::log(WARN, "Orphaned CWLSurfaceResource {:x} in setPreferredTransformForSurface", (uintptr_t)pSurface);
return;
}
PSURFACE->m_eLastTransform = transform;
}
void CCompositor::updateSuspendedStates() {
for (auto& w : g_pCompositor->m_vWindows) {
if (!w->m_bIsMapped)
continue;
w->setSuspended(w->isHidden() || !isWorkspaceVisible(w->m_pWorkspace));
}
}
PHLWINDOW CCompositor::windowForCPointer(CWindow* pWindow) {
for (auto& w : m_vWindows) {
if (w.get() != pWindow)
continue;
return w;
}
return {};
}
static void checkDefaultCursorWarp(SP<CMonitor> PNEWMONITOR, std::string monitorName) {
static auto PCURSORMONITOR = CConfigValue<std::string>("cursor:default_monitor");
static auto firstMonitorAdded = std::chrono::system_clock::now();
static bool cursorDefaultDone = false;
static bool firstLaunch = true;
const auto POS = PNEWMONITOR->middle();
// by default, cursor should be set to first monitor detected
// this is needed as a default if the monitor given in config above doesn't exist
if (firstLaunch) {
firstLaunch = false;
g_pCompositor->warpCursorTo(POS, true);
g_pInputManager->refocus();
}
if (cursorDefaultDone || *PCURSORMONITOR == STRVAL_EMPTY)
return;
// after 10s, don't set cursor to default monitor
auto timePassedSec = std::chrono::duration_cast<std::chrono::seconds>(std::chrono::system_clock::now() - firstMonitorAdded);
if (timePassedSec.count() > 10) {
cursorDefaultDone = true;
return;
}
if (*PCURSORMONITOR == monitorName) {
cursorDefaultDone = true;
g_pCompositor->warpCursorTo(POS, true);
g_pInputManager->refocus();
}
}
void CCompositor::onNewMonitor(SP<Aquamarine::IOutput> output) {
// add it to real
auto PNEWMONITOR = g_pCompositor->m_vRealMonitors.emplace_back(makeShared<CMonitor>());
if (std::string("HEADLESS-1") == output->name) {
g_pCompositor->m_pUnsafeOutput = PNEWMONITOR.get();
output->name = "FALLBACK"; // we are allowed to do this :)
}
Debug::log(LOG, "New output with name {}", output->name);
PNEWMONITOR->szName = output->name;
PNEWMONITOR->output = output;
PNEWMONITOR->self = PNEWMONITOR;
const bool FALLBACK = g_pCompositor->m_pUnsafeOutput ? output == g_pCompositor->m_pUnsafeOutput->output : false;
PNEWMONITOR->ID = FALLBACK ? -1 : g_pCompositor->getNextAvailableMonitorID(output->name);
PNEWMONITOR->isUnsafeFallback = FALLBACK;
EMIT_HOOK_EVENT("newMonitor", PNEWMONITOR);
if (!FALLBACK)
PNEWMONITOR->onConnect(false);
if (!PNEWMONITOR->m_bEnabled || FALLBACK)
return;
// ready to process if we have a real monitor
if ((!g_pHyprRenderer->m_pMostHzMonitor || PNEWMONITOR->refreshRate > g_pHyprRenderer->m_pMostHzMonitor->refreshRate) && PNEWMONITOR->m_bEnabled)
g_pHyprRenderer->m_pMostHzMonitor = PNEWMONITOR.get();
g_pCompositor->m_bReadyToProcess = true;
g_pConfigManager->m_bWantsMonitorReload = true;
g_pCompositor->scheduleFrameForMonitor(PNEWMONITOR.get(), IOutput::AQ_SCHEDULE_NEW_MONITOR);
checkDefaultCursorWarp(PNEWMONITOR, output->name);
for (auto& w : g_pCompositor->m_vWindows) {
if (w->m_iMonitorID == PNEWMONITOR->ID) {
w->m_iLastSurfaceMonitorID = -1;
w->updateSurfaceScaleTransformDetails();
}
}
g_pHyprRenderer->damageMonitor(PNEWMONITOR.get());
Events::listener_monitorFrame(PNEWMONITOR.get(), nullptr);
}
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