#include "pch.h" #include #include #include "FancyZonesData.h" #include "FancyZonesDataTypes.h" #include "ZoneWindow.h" #include "ZoneWindowDrawing.h" #include "trace.h" #include "util.h" #include "Settings.h" #include #include #include #include // Non-Localizable strings namespace NonLocalizable { const wchar_t ToolWindowClassName[] = L"SuperFancyZones_ZoneWindow"; } using namespace FancyZonesUtils; namespace ZoneWindowUtils { std::wstring GenerateUniqueId(HMONITOR monitor, const std::wstring& deviceId, const std::wstring& virtualDesktopId) { MONITORINFOEXW mi; mi.cbSize = sizeof(mi); if (!virtualDesktopId.empty() && GetMonitorInfo(monitor, &mi)) { Rect const monitorRect(mi.rcMonitor); // Unique identifier format: ___ return ParseDeviceId(deviceId) + L'_' + std::to_wstring(monitorRect.width()) + L'_' + std::to_wstring(monitorRect.height()) + L'_' + virtualDesktopId; } return {}; } std::wstring GenerateUniqueIdAllMonitorsArea(const std::wstring& virtualDesktopId) { std::wstring result{ ZonedWindowProperties::MultiMonitorDeviceID }; RECT combinedResolution = GetAllMonitorsCombinedRect<&MONITORINFO::rcMonitor>(); result += L'_'; result += std::to_wstring(combinedResolution.right - combinedResolution.left); result += L'_'; result += std::to_wstring(combinedResolution.bottom - combinedResolution.top); result += L'_'; result += virtualDesktopId; return result; } void PaintZoneWindow(HDC hdc, HWND window, bool hasActiveZoneSet, COLORREF hostZoneColor, COLORREF hostZoneBorderColor, COLORREF hostZoneHighlightColor, int hostZoneHighlightOpacity, std::vector> zones, std::vector highlightZone, bool flashMode, bool drawHints) { PAINTSTRUCT ps; HDC oldHdc = hdc; if (!hdc) { hdc = BeginPaint(window, &ps); } RECT clientRect; GetClientRect(window, &clientRect); wil::unique_hdc hdcMem; HPAINTBUFFER bufferedPaint = BeginBufferedPaint(hdc, &clientRect, BPBF_TOPDOWNDIB, nullptr, &hdcMem); if (bufferedPaint) { ZoneWindowDrawing::DrawBackdrop(hdcMem, clientRect); if (hasActiveZoneSet) { ZoneWindowDrawing::DrawActiveZoneSet(hdcMem, hostZoneColor, hostZoneBorderColor, hostZoneHighlightColor, hostZoneHighlightOpacity, zones, highlightZone, flashMode, drawHints); } EndBufferedPaint(bufferedPaint, TRUE); } if (!oldHdc) { EndPaint(window, &ps); } } } struct ZoneWindow : public winrt::implements { public: ZoneWindow(HINSTANCE hinstance); ~ZoneWindow(); bool Init(IZoneWindowHost* host, HINSTANCE hinstance, HMONITOR monitor, const std::wstring& uniqueId, const std::wstring& parentUniqueId, bool flashZones); IFACEMETHODIMP MoveSizeEnter(HWND window) noexcept; IFACEMETHODIMP MoveSizeUpdate(POINT const& ptScreen, bool dragEnabled, bool selectManyZones) noexcept; IFACEMETHODIMP MoveSizeEnd(HWND window, POINT const& ptScreen) noexcept; IFACEMETHODIMP_(void) MoveWindowIntoZoneByIndex(HWND window, size_t index) noexcept; IFACEMETHODIMP_(void) MoveWindowIntoZoneByIndexSet(HWND window, const std::vector& indexSet) noexcept; IFACEMETHODIMP_(bool) MoveWindowIntoZoneByDirectionAndIndex(HWND window, DWORD vkCode, bool cycle) noexcept; IFACEMETHODIMP_(bool) MoveWindowIntoZoneByDirectionAndPosition(HWND window, DWORD vkCode, bool cycle) noexcept; IFACEMETHODIMP_(bool) ExtendWindowByDirectionAndPosition(HWND window, DWORD vkCode) noexcept; IFACEMETHODIMP_(void) CycleActiveZoneSet(DWORD vkCode) noexcept; IFACEMETHODIMP_(std::wstring) UniqueId() noexcept { return { m_uniqueId }; } IFACEMETHODIMP_(void) SaveWindowProcessToZoneIndex(HWND window) noexcept; IFACEMETHODIMP_(IZoneSet*) ActiveZoneSet() noexcept { return m_activeZoneSet.get(); } IFACEMETHODIMP_(void) ShowZoneWindow() noexcept; IFACEMETHODIMP_(void) HideZoneWindow() noexcept; IFACEMETHODIMP_(void) UpdateActiveZoneSet() noexcept; IFACEMETHODIMP_(void) ClearSelectedZones() noexcept; protected: static LRESULT CALLBACK s_WndProc(HWND window, UINT message, WPARAM wparam, LPARAM lparam) noexcept; private: void InitializeZoneSets(const std::wstring& parentUniqueId) noexcept; void CalculateZoneSet() noexcept; void UpdateActiveZoneSet(_In_opt_ IZoneSet* zoneSet) noexcept; LRESULT WndProc(UINT message, WPARAM wparam, LPARAM lparam) noexcept; void OnPaint(HDC hdc) noexcept; void OnKeyUp(WPARAM wparam) noexcept; std::vector ZonesFromPoint(POINT pt) noexcept; void CycleActiveZoneSetInternal(DWORD wparam, Trace::ZoneWindow::InputMode mode) noexcept; void FlashZones() noexcept; winrt::com_ptr m_host; HMONITOR m_monitor{}; std::wstring m_uniqueId; // Parsed deviceId + resolution + virtualDesktopId wil::unique_hwnd m_window{}; // Hidden tool window used to represent current monitor desktop work area. HWND m_windowMoveSize{}; bool m_drawHints{}; bool m_flashMode{}; winrt::com_ptr m_activeZoneSet; std::vector> m_zoneSets; std::vector m_initialHighlightZone; std::vector m_highlightZone; WPARAM m_keyLast{}; size_t m_keyCycle{}; static const UINT m_showAnimationDuration = 200; // ms static const UINT m_flashDuration = 700; // ms std::atomic m_animating; OnThreadExecutor m_paintExecutor; ULONG_PTR gdiplusToken; }; ZoneWindow::ZoneWindow(HINSTANCE hinstance) { WNDCLASSEXW wcex{}; wcex.cbSize = sizeof(WNDCLASSEX); wcex.lpfnWndProc = s_WndProc; wcex.hInstance = hinstance; wcex.lpszClassName = NonLocalizable::ToolWindowClassName; wcex.hCursor = LoadCursorW(nullptr, IDC_ARROW); RegisterClassExW(&wcex); Gdiplus::GdiplusStartupInput gdiplusStartupInput; Gdiplus::GdiplusStartup(&gdiplusToken, &gdiplusStartupInput, NULL); m_paintExecutor.submit(OnThreadExecutor::task_t{ []() { BufferedPaintInit(); } }); } ZoneWindow::~ZoneWindow() { Gdiplus::GdiplusShutdown(gdiplusToken); m_paintExecutor.submit(OnThreadExecutor::task_t{ []() { BufferedPaintUnInit(); } }); } bool ZoneWindow::Init(IZoneWindowHost* host, HINSTANCE hinstance, HMONITOR monitor, const std::wstring& uniqueId, const std::wstring& parentUniqueId, bool flashZones) { m_host.copy_from(host); Rect workAreaRect; m_monitor = monitor; if (monitor) { MONITORINFO mi{}; mi.cbSize = sizeof(mi); if (!GetMonitorInfoW(monitor, &mi)) { return false; } const UINT dpi = GetDpiForMonitor(m_monitor); workAreaRect = Rect(mi.rcWork, dpi); } else { workAreaRect = GetAllMonitorsCombinedRect<&MONITORINFO::rcWork>(); } m_uniqueId = uniqueId; InitializeZoneSets(parentUniqueId); m_window = wil::unique_hwnd{ CreateWindowExW(WS_EX_TOOLWINDOW, NonLocalizable::ToolWindowClassName, L"", WS_POPUP, workAreaRect.left(), workAreaRect.top(), workAreaRect.width(), workAreaRect.height(), nullptr, nullptr, hinstance, this) }; if (!m_window) { return false; } MakeWindowTransparent(m_window.get()); // Ignore flashZones /* if (flashZones) { // Don't flash if the foreground window is in full screen mode RECT windowRect; if (!(GetWindowRect(GetForegroundWindow(), &windowRect) && windowRect.left == mi.rcMonitor.left && windowRect.top == mi.rcMonitor.top && windowRect.right == mi.rcMonitor.right && windowRect.bottom == mi.rcMonitor.bottom)) { FlashZones(); } } */ return true; } IFACEMETHODIMP ZoneWindow::MoveSizeEnter(HWND window) noexcept { m_windowMoveSize = window; m_drawHints = true; m_highlightZone = {}; m_initialHighlightZone = {}; ShowZoneWindow(); return S_OK; } IFACEMETHODIMP ZoneWindow::MoveSizeUpdate(POINT const& ptScreen, bool dragEnabled, bool selectManyZones) noexcept { bool redraw = false; POINT ptClient = ptScreen; MapWindowPoints(nullptr, m_window.get(), &ptClient, 1); if (dragEnabled) { auto highlightZone = ZonesFromPoint(ptClient); if (selectManyZones) { if (m_initialHighlightZone.empty()) { // first time m_initialHighlightZone = highlightZone; } else { highlightZone = m_activeZoneSet->GetCombinedZoneRange(m_initialHighlightZone, highlightZone); } } else { m_initialHighlightZone = {}; } redraw = (highlightZone != m_highlightZone); m_highlightZone = std::move(highlightZone); } else if (m_highlightZone.size()) { m_highlightZone = {}; redraw = true; } if (redraw) { InvalidateRect(m_window.get(), nullptr, true); } return S_OK; } IFACEMETHODIMP ZoneWindow::MoveSizeEnd(HWND window, POINT const& ptScreen) noexcept { if (m_windowMoveSize != window) { return E_INVALIDARG; } if (m_activeZoneSet) { POINT ptClient = ptScreen; MapWindowPoints(nullptr, m_window.get(), &ptClient, 1); m_activeZoneSet->MoveWindowIntoZoneByIndexSet(window, m_window.get(), m_highlightZone); if (FancyZonesUtils::HasNoVisibleOwner(window)) { SaveWindowProcessToZoneIndex(window); } } Trace::ZoneWindow::MoveSizeEnd(m_activeZoneSet); HideZoneWindow(); m_windowMoveSize = nullptr; return S_OK; } IFACEMETHODIMP_(void) ZoneWindow::MoveWindowIntoZoneByIndex(HWND window, size_t index) noexcept { MoveWindowIntoZoneByIndexSet(window, { index }); } IFACEMETHODIMP_(void) ZoneWindow::MoveWindowIntoZoneByIndexSet(HWND window, const std::vector& indexSet) noexcept { if (m_activeZoneSet) { m_activeZoneSet->MoveWindowIntoZoneByIndexSet(window, m_window.get(), indexSet); } } IFACEMETHODIMP_(bool) ZoneWindow::MoveWindowIntoZoneByDirectionAndIndex(HWND window, DWORD vkCode, bool cycle) noexcept { if (m_activeZoneSet) { if (m_activeZoneSet->MoveWindowIntoZoneByDirectionAndIndex(window, m_window.get(), vkCode, cycle)) { if (FancyZonesUtils::HasNoVisibleOwner(window)) { SaveWindowProcessToZoneIndex(window); } return true; } } return false; } IFACEMETHODIMP_(bool) ZoneWindow::MoveWindowIntoZoneByDirectionAndPosition(HWND window, DWORD vkCode, bool cycle) noexcept { if (m_activeZoneSet) { if (m_activeZoneSet->MoveWindowIntoZoneByDirectionAndPosition(window, m_window.get(), vkCode, cycle)) { SaveWindowProcessToZoneIndex(window); return true; } } return false; } IFACEMETHODIMP_(bool) ZoneWindow::ExtendWindowByDirectionAndPosition(HWND window, DWORD vkCode) noexcept { if (m_activeZoneSet) { if (m_activeZoneSet->ExtendWindowByDirectionAndPosition(window, m_window.get(), vkCode)) { SaveWindowProcessToZoneIndex(window); return true; } } return false; } IFACEMETHODIMP_(void) ZoneWindow::CycleActiveZoneSet(DWORD wparam) noexcept { CycleActiveZoneSetInternal(wparam, Trace::ZoneWindow::InputMode::Keyboard); if (m_windowMoveSize) { InvalidateRect(m_window.get(), nullptr, true); } else { FlashZones(); } } IFACEMETHODIMP_(void) ZoneWindow::SaveWindowProcessToZoneIndex(HWND window) noexcept { if (m_activeZoneSet) { auto zoneIndexSet = m_activeZoneSet->GetZoneIndexSetFromWindow(window); if (zoneIndexSet.size()) { OLECHAR* guidString; if (StringFromCLSID(m_activeZoneSet->Id(), &guidString) == S_OK) { FancyZonesDataInstance().SetAppLastZones(window, m_uniqueId, guidString, zoneIndexSet); } CoTaskMemFree(guidString); } } } IFACEMETHODIMP_(void) ZoneWindow::ShowZoneWindow() noexcept { auto window = m_window.get(); if (!window) { return; } m_flashMode = false; UINT flags = SWP_NOSIZE | SWP_NOMOVE | SWP_NOACTIVATE; HWND windowInsertAfter = m_windowMoveSize; if (windowInsertAfter == nullptr) { windowInsertAfter = HWND_TOPMOST; } SetWindowPos(window, windowInsertAfter, 0, 0, 0, 0, flags); std::thread{ [this, strong_this{ get_strong() }]() { m_animating = true; auto window = m_window.get(); AnimateWindow(window, m_showAnimationDuration, AW_BLEND); InvalidateRect(window, nullptr, true); if (!m_host->InMoveSize()) { HideZoneWindow(); } m_animating = false; } }.detach(); } IFACEMETHODIMP_(void) ZoneWindow::HideZoneWindow() noexcept { if (m_window) { ShowWindow(m_window.get(), SW_HIDE); m_keyLast = 0; m_windowMoveSize = nullptr; m_drawHints = false; m_highlightZone = {}; } } IFACEMETHODIMP_(void) ZoneWindow::UpdateActiveZoneSet() noexcept { CalculateZoneSet(); } IFACEMETHODIMP_(void) ZoneWindow::ClearSelectedZones() noexcept { if (m_highlightZone.size()) { m_highlightZone.clear(); InvalidateRect(m_window.get(), nullptr, true); } } #pragma region private void ZoneWindow::InitializeZoneSets(const std::wstring& parentUniqueId) noexcept { bool deviceAdded = FancyZonesDataInstance().AddDevice(m_uniqueId); // If the device has been added, check if it should inherit the parent's layout if (deviceAdded && !parentUniqueId.empty()) { FancyZonesDataInstance().CloneDeviceInfo(parentUniqueId, m_uniqueId); } CalculateZoneSet(); } void ZoneWindow::CalculateZoneSet() noexcept { const auto& fancyZonesData = FancyZonesDataInstance(); const auto deviceInfoData = fancyZonesData.FindDeviceInfo(m_uniqueId); if (!deviceInfoData.has_value()) { return; } const auto& activeZoneSet = deviceInfoData->activeZoneSet; if (activeZoneSet.uuid.empty() || activeZoneSet.type == FancyZonesDataTypes::ZoneSetLayoutType::Blank) { return; } GUID zoneSetId; if (SUCCEEDED_LOG(CLSIDFromString(activeZoneSet.uuid.c_str(), &zoneSetId))) { int sensitivityRadius = deviceInfoData->sensitivityRadius; auto zoneSet = MakeZoneSet(ZoneSetConfig( zoneSetId, activeZoneSet.type, m_monitor, sensitivityRadius)); RECT workArea; if (m_monitor) { MONITORINFO monitorInfo{}; monitorInfo.cbSize = sizeof(monitorInfo); if (GetMonitorInfoW(m_monitor, &monitorInfo)) { workArea = monitorInfo.rcWork; } else { return; } } else { workArea = GetAllMonitorsCombinedRect<&MONITORINFO::rcWork>(); } bool showSpacing = deviceInfoData->showSpacing; int spacing = showSpacing ? deviceInfoData->spacing : 0; int zoneCount = deviceInfoData->zoneCount; zoneSet->CalculateZones(workArea, zoneCount, spacing); UpdateActiveZoneSet(zoneSet.get()); } } void ZoneWindow::UpdateActiveZoneSet(_In_opt_ IZoneSet* zoneSet) noexcept { m_activeZoneSet.copy_from(zoneSet); if (m_activeZoneSet) { wil::unique_cotaskmem_string zoneSetId; if (SUCCEEDED_LOG(StringFromCLSID(m_activeZoneSet->Id(), &zoneSetId))) { FancyZonesDataTypes::ZoneSetData data{ .uuid = zoneSetId.get(), .type = m_activeZoneSet->LayoutType() }; FancyZonesDataInstance().SetActiveZoneSet(m_uniqueId, data); } } } LRESULT ZoneWindow::WndProc(UINT message, WPARAM wparam, LPARAM lparam) noexcept { switch (message) { case WM_NCDESTROY: { ::DefWindowProc(m_window.get(), message, wparam, lparam); SetWindowLongPtr(m_window.get(), GWLP_USERDATA, 0); } break; case WM_ERASEBKGND: return 1; case WM_PRINTCLIENT: { OnPaint(reinterpret_cast(wparam)); } break; case WM_PAINT: { OnPaint(NULL); } break; default: { return DefWindowProc(m_window.get(), message, wparam, lparam); } } return 0; } void ZoneWindow::OnPaint(HDC hdc) noexcept { HWND window = m_window.get(); bool hasActiveZoneSet = m_activeZoneSet && m_host; COLORREF hostZoneColor{}; COLORREF hostZoneBorderColor{}; COLORREF hostZoneHighlightColor{}; int hostZoneHighlightOpacity{}; std::vector> zones{}; std::vector highlightZone = m_highlightZone; bool flashMode = m_flashMode; bool drawHints = m_drawHints; if (hasActiveZoneSet) { hostZoneColor = m_host->GetZoneColor(); hostZoneBorderColor = m_host->GetZoneBorderColor(); hostZoneHighlightColor = m_host->GetZoneHighlightColor(); hostZoneHighlightOpacity = m_host->GetZoneHighlightOpacity(); zones = m_activeZoneSet->GetZones(); } OnThreadExecutor::task_t task{ [=]() { ZoneWindowUtils::PaintZoneWindow(hdc, window, hasActiveZoneSet, hostZoneColor, hostZoneBorderColor, hostZoneHighlightColor, hostZoneHighlightOpacity, zones, highlightZone, flashMode, drawHints); } }; if (m_animating) { task(); } else { m_paintExecutor.cancel(); m_paintExecutor.submit(std::move(task)); } } void ZoneWindow::OnKeyUp(WPARAM wparam) noexcept { bool fRedraw = false; Trace::ZoneWindow::KeyUp(wparam); if ((wparam >= '0') && (wparam <= '9')) { CycleActiveZoneSetInternal(static_cast(wparam), Trace::ZoneWindow::InputMode::Keyboard); InvalidateRect(m_window.get(), nullptr, true); } } std::vector ZoneWindow::ZonesFromPoint(POINT pt) noexcept { if (m_activeZoneSet) { return m_activeZoneSet->ZonesFromPoint(pt); } return {}; } void ZoneWindow::CycleActiveZoneSetInternal(DWORD wparam, Trace::ZoneWindow::InputMode mode) noexcept { Trace::ZoneWindow::CycleActiveZoneSet(m_activeZoneSet, mode); if (m_keyLast != wparam) { m_keyCycle = 0; } m_keyLast = wparam; bool loopAround = true; size_t const val = static_cast(wparam - L'0'); size_t i = 0; for (auto zoneSet : m_zoneSets) { if (zoneSet->GetZones().size() == val) { if (i < m_keyCycle) { i++; } else { UpdateActiveZoneSet(zoneSet.get()); loopAround = false; break; } } } if ((m_keyCycle > 0) && loopAround) { // Cycling through a non-empty group and hit the end m_keyCycle = 0; OnKeyUp(wparam); } else { m_keyCycle++; } if (m_host) { m_host->MoveWindowsOnActiveZoneSetChange(); } m_highlightZone = {}; } void ZoneWindow::FlashZones() noexcept { // "Turning FLASHING_ZONE option off" if (true) { return; } m_flashMode = true; ShowWindow(m_window.get(), SW_SHOWNA); std::thread([window = m_window.get()]() { AnimateWindow(window, m_flashDuration, AW_HIDE | AW_BLEND); }).detach(); } #pragma endregion LRESULT CALLBACK ZoneWindow::s_WndProc(HWND window, UINT message, WPARAM wparam, LPARAM lparam) noexcept { auto thisRef = reinterpret_cast(GetWindowLongPtr(window, GWLP_USERDATA)); if ((thisRef == nullptr) && (message == WM_CREATE)) { auto createStruct = reinterpret_cast(lparam); thisRef = reinterpret_cast(createStruct->lpCreateParams); SetWindowLongPtr(window, GWLP_USERDATA, reinterpret_cast(thisRef)); } return (thisRef != nullptr) ? thisRef->WndProc(message, wparam, lparam) : DefWindowProc(window, message, wparam, lparam); } winrt::com_ptr MakeZoneWindow(IZoneWindowHost* host, HINSTANCE hinstance, HMONITOR monitor, const std::wstring& uniqueId, const std::wstring& parentUniqueId, bool flashZones) noexcept { auto self = winrt::make_self(hinstance); if (self->Init(host, hinstance, monitor, uniqueId, parentUniqueId, flashZones)) { return self; } return nullptr; }