/* ============================================================================== This file is part of the JUCE 7 technical preview. Copyright (c) 2022 - Raw Material Software Limited You may use this code under the terms of the GPL v3 (see www.gnu.org/licenses). For the technical preview this file cannot be licensed commercially. JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE DISCLAIMED. ============================================================================== */ #if JUCE_MODULE_AVAILABLE_juce_audio_plugin_client #include #endif namespace juce { JUCE_BEGIN_IGNORE_WARNINGS_GCC_LIKE ("-Wcast-function-type") #undef GetSystemMetrics // multimon overrides this for some reason and causes a mess.. // these are in the windows SDK, but need to be repeated here for GCC.. #ifndef GET_APPCOMMAND_LPARAM #define GET_APPCOMMAND_LPARAM(lParam) ((short) (HIWORD (lParam) & ~FAPPCOMMAND_MASK)) #define FAPPCOMMAND_MASK 0xF000 #define APPCOMMAND_MEDIA_NEXTTRACK 11 #define APPCOMMAND_MEDIA_PREVIOUSTRACK 12 #define APPCOMMAND_MEDIA_STOP 13 #define APPCOMMAND_MEDIA_PLAY_PAUSE 14 #endif #ifndef WM_APPCOMMAND #define WM_APPCOMMAND 0x0319 #endif void juce_repeatLastProcessPriority(); bool juce_isRunningInWine(); using CheckEventBlockedByModalComps = bool (*) (const MSG&); extern CheckEventBlockedByModalComps isEventBlockedByModalComps; static bool shouldDeactivateTitleBar = true; void* getUser32Function (const char*); #if JUCE_DEBUG int numActiveScopedDpiAwarenessDisablers = 0; static bool isInScopedDPIAwarenessDisabler() { return numActiveScopedDpiAwarenessDisablers > 0; } extern HWND juce_messageWindowHandle; #endif struct ScopedDeviceContext { explicit ScopedDeviceContext (HWND h) : hwnd (h), dc (GetDC (hwnd)) { } ~ScopedDeviceContext() { ReleaseDC (hwnd, dc); } HWND hwnd; HDC dc; JUCE_DECLARE_NON_COPYABLE (ScopedDeviceContext) JUCE_DECLARE_NON_MOVEABLE (ScopedDeviceContext) }; //============================================================================== #ifndef WM_TOUCH enum { WM_TOUCH = 0x0240, TOUCHEVENTF_MOVE = 0x0001, TOUCHEVENTF_DOWN = 0x0002, TOUCHEVENTF_UP = 0x0004 }; typedef HANDLE HTOUCHINPUT; typedef HANDLE HGESTUREINFO; struct TOUCHINPUT { LONG x; LONG y; HANDLE hSource; DWORD dwID; DWORD dwFlags; DWORD dwMask; DWORD dwTime; ULONG_PTR dwExtraInfo; DWORD cxContact; DWORD cyContact; }; struct GESTUREINFO { UINT cbSize; DWORD dwFlags; DWORD dwID; HWND hwndTarget; POINTS ptsLocation; DWORD dwInstanceID; DWORD dwSequenceID; ULONGLONG ullArguments; UINT cbExtraArgs; }; #endif #ifndef WM_NCPOINTERUPDATE enum { WM_NCPOINTERUPDATE = 0x241, WM_NCPOINTERDOWN = 0x242, WM_NCPOINTERUP = 0x243, WM_POINTERUPDATE = 0x245, WM_POINTERDOWN = 0x246, WM_POINTERUP = 0x247, WM_POINTERENTER = 0x249, WM_POINTERLEAVE = 0x24A, WM_POINTERACTIVATE = 0x24B, WM_POINTERCAPTURECHANGED = 0x24C, WM_TOUCHHITTESTING = 0x24D, WM_POINTERWHEEL = 0x24E, WM_POINTERHWHEEL = 0x24F, WM_POINTERHITTEST = 0x250 }; enum { PT_TOUCH = 0x00000002, PT_PEN = 0x00000003 }; enum POINTER_BUTTON_CHANGE_TYPE { POINTER_CHANGE_NONE, POINTER_CHANGE_FIRSTBUTTON_DOWN, POINTER_CHANGE_FIRSTBUTTON_UP, POINTER_CHANGE_SECONDBUTTON_DOWN, POINTER_CHANGE_SECONDBUTTON_UP, POINTER_CHANGE_THIRDBUTTON_DOWN, POINTER_CHANGE_THIRDBUTTON_UP, POINTER_CHANGE_FOURTHBUTTON_DOWN, POINTER_CHANGE_FOURTHBUTTON_UP, POINTER_CHANGE_FIFTHBUTTON_DOWN, POINTER_CHANGE_FIFTHBUTTON_UP }; enum { PEN_MASK_NONE = 0x00000000, PEN_MASK_PRESSURE = 0x00000001, PEN_MASK_ROTATION = 0x00000002, PEN_MASK_TILT_X = 0x00000004, PEN_MASK_TILT_Y = 0x00000008 }; enum { TOUCH_MASK_NONE = 0x00000000, TOUCH_MASK_CONTACTAREA = 0x00000001, TOUCH_MASK_ORIENTATION = 0x00000002, TOUCH_MASK_PRESSURE = 0x00000004 }; enum { POINTER_FLAG_NONE = 0x00000000, POINTER_FLAG_NEW = 0x00000001, POINTER_FLAG_INRANGE = 0x00000002, POINTER_FLAG_INCONTACT = 0x00000004, POINTER_FLAG_FIRSTBUTTON = 0x00000010, POINTER_FLAG_SECONDBUTTON = 0x00000020, POINTER_FLAG_THIRDBUTTON = 0x00000040, POINTER_FLAG_FOURTHBUTTON = 0x00000080, POINTER_FLAG_FIFTHBUTTON = 0x00000100, POINTER_FLAG_PRIMARY = 0x00002000, POINTER_FLAG_CONFIDENCE = 0x00004000, POINTER_FLAG_CANCELED = 0x00008000, POINTER_FLAG_DOWN = 0x00010000, POINTER_FLAG_UPDATE = 0x00020000, POINTER_FLAG_UP = 0x00040000, POINTER_FLAG_WHEEL = 0x00080000, POINTER_FLAG_HWHEEL = 0x00100000, POINTER_FLAG_CAPTURECHANGED = 0x00200000, POINTER_FLAG_HASTRANSFORM = 0x00400000 }; typedef DWORD POINTER_INPUT_TYPE; typedef UINT32 POINTER_FLAGS; typedef UINT32 PEN_FLAGS; typedef UINT32 PEN_MASK; typedef UINT32 TOUCH_FLAGS; typedef UINT32 TOUCH_MASK; struct POINTER_INFO { POINTER_INPUT_TYPE pointerType; UINT32 pointerId; UINT32 frameId; POINTER_FLAGS pointerFlags; HANDLE sourceDevice; HWND hwndTarget; POINT ptPixelLocation; POINT ptHimetricLocation; POINT ptPixelLocationRaw; POINT ptHimetricLocationRaw; DWORD dwTime; UINT32 historyCount; INT32 InputData; DWORD dwKeyStates; UINT64 PerformanceCount; POINTER_BUTTON_CHANGE_TYPE ButtonChangeType; }; struct POINTER_TOUCH_INFO { POINTER_INFO pointerInfo; TOUCH_FLAGS touchFlags; TOUCH_MASK touchMask; RECT rcContact; RECT rcContactRaw; UINT32 orientation; UINT32 pressure; }; struct POINTER_PEN_INFO { POINTER_INFO pointerInfo; PEN_FLAGS penFlags; PEN_MASK penMask; UINT32 pressure; UINT32 rotation; INT32 tiltX; INT32 tiltY; }; #define GET_POINTERID_WPARAM(wParam) (LOWORD(wParam)) #endif #ifndef MONITOR_DPI_TYPE enum Monitor_DPI_Type { MDT_Effective_DPI = 0, MDT_Angular_DPI = 1, MDT_Raw_DPI = 2, MDT_Default = MDT_Effective_DPI }; #endif #ifndef DPI_AWARENESS enum DPI_Awareness { DPI_Awareness_Invalid = -1, DPI_Awareness_Unaware = 0, DPI_Awareness_System_Aware = 1, DPI_Awareness_Per_Monitor_Aware = 2 }; #endif #ifndef USER_DEFAULT_SCREEN_DPI #define USER_DEFAULT_SCREEN_DPI 96 #endif #ifndef _DPI_AWARENESS_CONTEXTS_ typedef HANDLE DPI_AWARENESS_CONTEXT; #define DPI_AWARENESS_CONTEXT_UNAWARE ((DPI_AWARENESS_CONTEXT) - 1) #define DPI_AWARENESS_CONTEXT_SYSTEM_AWARE ((DPI_AWARENESS_CONTEXT) - 2) #define DPI_AWARENESS_CONTEXT_PER_MONITOR_AWARE ((DPI_AWARENESS_CONTEXT) - 3) #define DPI_AWARENESS_CONTEXT_PER_MONITOR_AWARE_V2 ((DPI_AWARENESS_CONTEXT) - 4) #endif // Some versions of the Windows 10 SDK define _DPI_AWARENESS_CONTEXTS_ but not // DPI_AWARENESS_CONTEXT_PER_MONITOR_AWARE_V2 #ifndef DPI_AWARENESS_CONTEXT_PER_MONITOR_AWARE_V2 #define DPI_AWARENESS_CONTEXT_PER_MONITOR_AWARE_V2 ((DPI_AWARENESS_CONTEXT) - 4) #endif //============================================================================== using RegisterTouchWindowFunc = BOOL (WINAPI*) (HWND, ULONG); using GetTouchInputInfoFunc = BOOL (WINAPI*) (HTOUCHINPUT, UINT, TOUCHINPUT*, int); using CloseTouchInputHandleFunc = BOOL (WINAPI*) (HTOUCHINPUT); using GetGestureInfoFunc = BOOL (WINAPI*) (HGESTUREINFO, GESTUREINFO*); static RegisterTouchWindowFunc registerTouchWindow = nullptr; static GetTouchInputInfoFunc getTouchInputInfo = nullptr; static CloseTouchInputHandleFunc closeTouchInputHandle = nullptr; static GetGestureInfoFunc getGestureInfo = nullptr; static bool hasCheckedForMultiTouch = false; static bool canUseMultiTouch() { if (registerTouchWindow == nullptr && ! hasCheckedForMultiTouch) { hasCheckedForMultiTouch = true; registerTouchWindow = (RegisterTouchWindowFunc) getUser32Function ("RegisterTouchWindow"); getTouchInputInfo = (GetTouchInputInfoFunc) getUser32Function ("GetTouchInputInfo"); closeTouchInputHandle = (CloseTouchInputHandleFunc) getUser32Function ("CloseTouchInputHandle"); getGestureInfo = (GetGestureInfoFunc) getUser32Function ("GetGestureInfo"); } return registerTouchWindow != nullptr; } //============================================================================== using GetPointerTypeFunc = BOOL (WINAPI*) (UINT32, POINTER_INPUT_TYPE*); using GetPointerTouchInfoFunc = BOOL (WINAPI*) (UINT32, POINTER_TOUCH_INFO*); using GetPointerPenInfoFunc = BOOL (WINAPI*) (UINT32, POINTER_PEN_INFO*); static GetPointerTypeFunc getPointerTypeFunction = nullptr; static GetPointerTouchInfoFunc getPointerTouchInfo = nullptr; static GetPointerPenInfoFunc getPointerPenInfo = nullptr; static bool canUsePointerAPI = false; static void checkForPointerAPI() { getPointerTypeFunction = (GetPointerTypeFunc) getUser32Function ("GetPointerType"); getPointerTouchInfo = (GetPointerTouchInfoFunc) getUser32Function ("GetPointerTouchInfo"); getPointerPenInfo = (GetPointerPenInfoFunc) getUser32Function ("GetPointerPenInfo"); canUsePointerAPI = (getPointerTypeFunction != nullptr && getPointerTouchInfo != nullptr && getPointerPenInfo != nullptr); } //============================================================================== using SetProcessDPIAwareFunc = BOOL (WINAPI*) (); using SetProcessDPIAwarenessContextFunc = BOOL (WINAPI*) (DPI_AWARENESS_CONTEXT); using SetProcessDPIAwarenessFunc = HRESULT (WINAPI*) (DPI_Awareness); using SetThreadDPIAwarenessContextFunc = DPI_AWARENESS_CONTEXT (WINAPI*) (DPI_AWARENESS_CONTEXT); using GetDPIForWindowFunc = UINT (WINAPI*) (HWND); using GetDPIForMonitorFunc = HRESULT (WINAPI*) (HMONITOR, Monitor_DPI_Type, UINT*, UINT*); using GetSystemMetricsForDpiFunc = int (WINAPI*) (int, UINT); using GetProcessDPIAwarenessFunc = HRESULT (WINAPI*) (HANDLE, DPI_Awareness*); using GetWindowDPIAwarenessContextFunc = DPI_AWARENESS_CONTEXT (WINAPI*) (HWND); using GetThreadDPIAwarenessContextFunc = DPI_AWARENESS_CONTEXT (WINAPI*) (); using GetAwarenessFromDpiAwarenessContextFunc = DPI_Awareness (WINAPI*) (DPI_AWARENESS_CONTEXT); using EnableNonClientDPIScalingFunc = BOOL (WINAPI*) (HWND); static SetProcessDPIAwareFunc setProcessDPIAware = nullptr; static SetProcessDPIAwarenessContextFunc setProcessDPIAwarenessContext = nullptr; static SetProcessDPIAwarenessFunc setProcessDPIAwareness = nullptr; static SetThreadDPIAwarenessContextFunc setThreadDPIAwarenessContext = nullptr; static GetDPIForMonitorFunc getDPIForMonitor = nullptr; static GetDPIForWindowFunc getDPIForWindow = nullptr; static GetProcessDPIAwarenessFunc getProcessDPIAwareness = nullptr; static GetWindowDPIAwarenessContextFunc getWindowDPIAwarenessContext = nullptr; static GetThreadDPIAwarenessContextFunc getThreadDPIAwarenessContext = nullptr; static GetAwarenessFromDpiAwarenessContextFunc getAwarenessFromDPIAwarenessContext = nullptr; static EnableNonClientDPIScalingFunc enableNonClientDPIScaling = nullptr; static bool hasCheckedForDPIAwareness = false; static void loadDPIAwarenessFunctions() { setProcessDPIAware = (SetProcessDPIAwareFunc) getUser32Function ("SetProcessDPIAware"); constexpr auto shcore = "SHCore.dll"; LoadLibraryA (shcore); const auto shcoreModule = GetModuleHandleA (shcore); if (shcoreModule == nullptr) return; getDPIForMonitor = (GetDPIForMonitorFunc) GetProcAddress (shcoreModule, "GetDpiForMonitor"); setProcessDPIAwareness = (SetProcessDPIAwarenessFunc) GetProcAddress (shcoreModule, "SetProcessDpiAwareness"); #if JUCE_WIN_PER_MONITOR_DPI_AWARE getDPIForWindow = (GetDPIForWindowFunc) getUser32Function ("GetDpiForWindow"); getProcessDPIAwareness = (GetProcessDPIAwarenessFunc) GetProcAddress (shcoreModule, "GetProcessDpiAwareness"); getWindowDPIAwarenessContext = (GetWindowDPIAwarenessContextFunc) getUser32Function ("GetWindowDpiAwarenessContext"); setThreadDPIAwarenessContext = (SetThreadDPIAwarenessContextFunc) getUser32Function ("SetThreadDpiAwarenessContext"); getThreadDPIAwarenessContext = (GetThreadDPIAwarenessContextFunc) getUser32Function ("GetThreadDpiAwarenessContext"); getAwarenessFromDPIAwarenessContext = (GetAwarenessFromDpiAwarenessContextFunc) getUser32Function ("GetAwarenessFromDpiAwarenessContext"); setProcessDPIAwarenessContext = (SetProcessDPIAwarenessContextFunc) getUser32Function ("SetProcessDpiAwarenessContext"); enableNonClientDPIScaling = (EnableNonClientDPIScalingFunc) getUser32Function ("EnableNonClientDpiScaling"); #endif } static void setDPIAwareness() { if (hasCheckedForDPIAwareness) return; hasCheckedForDPIAwareness = true; if (! JUCEApplicationBase::isStandaloneApp()) return; loadDPIAwarenessFunctions(); if (setProcessDPIAwarenessContext != nullptr && setProcessDPIAwarenessContext (DPI_AWARENESS_CONTEXT_PER_MONITOR_AWARE_V2)) return; if (setProcessDPIAwareness != nullptr && enableNonClientDPIScaling != nullptr && SUCCEEDED (setProcessDPIAwareness (DPI_Awareness::DPI_Awareness_Per_Monitor_Aware))) return; if (setProcessDPIAwareness != nullptr && getDPIForMonitor != nullptr && SUCCEEDED (setProcessDPIAwareness (DPI_Awareness::DPI_Awareness_System_Aware))) return; if (setProcessDPIAware != nullptr) setProcessDPIAware(); } static bool isPerMonitorDPIAwareProcess() { #if ! JUCE_WIN_PER_MONITOR_DPI_AWARE return false; #else static bool dpiAware = []() -> bool { setDPIAwareness(); if (! JUCEApplication::isStandaloneApp()) return false; if (getProcessDPIAwareness == nullptr) return false; DPI_Awareness context; getProcessDPIAwareness (nullptr, &context); return context == DPI_Awareness::DPI_Awareness_Per_Monitor_Aware; }(); return dpiAware; #endif } static bool isPerMonitorDPIAwareWindow (HWND nativeWindow) { #if ! JUCE_WIN_PER_MONITOR_DPI_AWARE ignoreUnused (nativeWindow); return false; #else setDPIAwareness(); if (getWindowDPIAwarenessContext != nullptr && getAwarenessFromDPIAwarenessContext != nullptr) { return (getAwarenessFromDPIAwarenessContext (getWindowDPIAwarenessContext (nativeWindow)) == DPI_Awareness::DPI_Awareness_Per_Monitor_Aware); } return isPerMonitorDPIAwareProcess(); #endif } static bool isPerMonitorDPIAwareThread (GetThreadDPIAwarenessContextFunc getThreadDPIAwarenessContextIn = getThreadDPIAwarenessContext, GetAwarenessFromDpiAwarenessContextFunc getAwarenessFromDPIAwarenessContextIn = getAwarenessFromDPIAwarenessContext) { #if ! JUCE_WIN_PER_MONITOR_DPI_AWARE return false; #else setDPIAwareness(); if (getThreadDPIAwarenessContextIn != nullptr && getAwarenessFromDPIAwarenessContextIn != nullptr) { return (getAwarenessFromDPIAwarenessContextIn (getThreadDPIAwarenessContextIn()) == DPI_Awareness::DPI_Awareness_Per_Monitor_Aware); } return isPerMonitorDPIAwareProcess(); #endif } static double getGlobalDPI() { setDPIAwareness(); ScopedDeviceContext deviceContext { nullptr }; return (GetDeviceCaps (deviceContext.dc, LOGPIXELSX) + GetDeviceCaps (deviceContext.dc, LOGPIXELSY)) / 2.0; } //============================================================================== class ScopedThreadDPIAwarenessSetter::NativeImpl { public: explicit NativeImpl (HWND nativeWindow) { ignoreUnused (nativeWindow); #if JUCE_WIN_PER_MONITOR_DPI_AWARE if (auto* functionSingleton = FunctionSingleton::getInstance()) { if (! functionSingleton->isLoaded()) return; auto dpiAwareWindow = (functionSingleton->getAwarenessFromContext (functionSingleton->getWindowAwareness (nativeWindow)) == DPI_Awareness::DPI_Awareness_Per_Monitor_Aware); auto dpiAwareThread = (functionSingleton->getAwarenessFromContext (functionSingleton->getThreadAwareness()) == DPI_Awareness::DPI_Awareness_Per_Monitor_Aware); if (dpiAwareWindow && ! dpiAwareThread) oldContext = functionSingleton->setThreadAwareness (DPI_AWARENESS_CONTEXT_PER_MONITOR_AWARE); else if (! dpiAwareWindow && dpiAwareThread) oldContext = functionSingleton->setThreadAwareness (DPI_AWARENESS_CONTEXT_UNAWARE); } #endif } ~NativeImpl() { if (oldContext != nullptr) if (auto* functionSingleton = FunctionSingleton::getInstance()) functionSingleton->setThreadAwareness (oldContext); } private: struct FunctionSingleton : public DeletedAtShutdown { FunctionSingleton() = default; ~FunctionSingleton() override { clearSingletonInstance(); } SetThreadDPIAwarenessContextFunc setThreadAwareness = (SetThreadDPIAwarenessContextFunc) getUser32Function ("SetThreadDpiAwarenessContext"); GetWindowDPIAwarenessContextFunc getWindowAwareness = (GetWindowDPIAwarenessContextFunc) getUser32Function ("GetWindowDpiAwarenessContext"); GetThreadDPIAwarenessContextFunc getThreadAwareness = (GetThreadDPIAwarenessContextFunc) getUser32Function ("GetThreadDpiAwarenessContext"); GetAwarenessFromDpiAwarenessContextFunc getAwarenessFromContext = (GetAwarenessFromDpiAwarenessContextFunc) getUser32Function ("GetAwarenessFromDpiAwarenessContext"); bool isLoaded() const noexcept { return setThreadAwareness != nullptr && getWindowAwareness != nullptr && getThreadAwareness != nullptr && getAwarenessFromContext != nullptr; } JUCE_DECLARE_SINGLETON_SINGLETHREADED_MINIMAL (FunctionSingleton) JUCE_DECLARE_NON_COPYABLE (FunctionSingleton) JUCE_DECLARE_NON_MOVEABLE (FunctionSingleton) }; DPI_AWARENESS_CONTEXT oldContext = nullptr; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (NativeImpl) JUCE_DECLARE_NON_MOVEABLE (NativeImpl) }; JUCE_IMPLEMENT_SINGLETON (ScopedThreadDPIAwarenessSetter::NativeImpl::FunctionSingleton) ScopedThreadDPIAwarenessSetter::ScopedThreadDPIAwarenessSetter (void* nativeWindow) { pimpl = std::make_unique ((HWND) nativeWindow); } ScopedThreadDPIAwarenessSetter::~ScopedThreadDPIAwarenessSetter() = default; ScopedDPIAwarenessDisabler::ScopedDPIAwarenessDisabler() { static auto localGetThreadDpiAwarenessContext = (GetThreadDPIAwarenessContextFunc) getUser32Function ("GetThreadDpiAwarenessContext"); static auto localGetAwarenessFromDpiAwarenessContextFunc = (GetAwarenessFromDpiAwarenessContextFunc) getUser32Function ("GetAwarenessFromDpiAwarenessContext"); if (! isPerMonitorDPIAwareThread (localGetThreadDpiAwarenessContext, localGetAwarenessFromDpiAwarenessContextFunc)) return; static auto localSetThreadDPIAwarenessContext = (SetThreadDPIAwarenessContextFunc) getUser32Function ("SetThreadDpiAwarenessContext"); if (localSetThreadDPIAwarenessContext != nullptr) { previousContext = localSetThreadDPIAwarenessContext (DPI_AWARENESS_CONTEXT_UNAWARE); #if JUCE_DEBUG ++numActiveScopedDpiAwarenessDisablers; #endif } } ScopedDPIAwarenessDisabler::~ScopedDPIAwarenessDisabler() { if (previousContext != nullptr) { static auto localSetThreadDPIAwarenessContext = (SetThreadDPIAwarenessContextFunc) getUser32Function ("SetThreadDpiAwarenessContext"); if (localSetThreadDPIAwarenessContext != nullptr) localSetThreadDPIAwarenessContext ((DPI_AWARENESS_CONTEXT) previousContext); #if JUCE_DEBUG --numActiveScopedDpiAwarenessDisablers; #endif } } //============================================================================== using SettingChangeCallbackFunc = void (*)(void); extern SettingChangeCallbackFunc settingChangeCallback; //============================================================================== static Rectangle rectangleFromRECT (RECT r) noexcept { return { r.left, r.top, r.right - r.left, r.bottom - r.top }; } static RECT RECTFromRectangle (Rectangle r) noexcept { return { r.getX(), r.getY(), r.getRight(), r.getBottom() }; } static Point pointFromPOINT (POINT p) noexcept { return { p.x, p.y }; } static POINT POINTFromPoint (Point p) noexcept { return { p.x, p.y }; } //============================================================================== static const Displays::Display* getCurrentDisplayFromScaleFactor (HWND hwnd); template static Rectangle convertPhysicalScreenRectangleToLogical (Rectangle r, HWND h) noexcept { if (isPerMonitorDPIAwareWindow (h)) return Desktop::getInstance().getDisplays().physicalToLogical (r, getCurrentDisplayFromScaleFactor (h)); return r; } template static Rectangle convertLogicalScreenRectangleToPhysical (Rectangle r, HWND h) noexcept { if (isPerMonitorDPIAwareWindow (h)) return Desktop::getInstance().getDisplays().logicalToPhysical (r, getCurrentDisplayFromScaleFactor (h)); return r; } static Point convertPhysicalScreenPointToLogical (Point p, HWND h) noexcept { if (isPerMonitorDPIAwareWindow (h)) return Desktop::getInstance().getDisplays().physicalToLogical (p, getCurrentDisplayFromScaleFactor (h)); return p; } static Point convertLogicalScreenPointToPhysical (Point p, HWND h) noexcept { if (isPerMonitorDPIAwareWindow (h)) return Desktop::getInstance().getDisplays().logicalToPhysical (p, getCurrentDisplayFromScaleFactor (h)); return p; } JUCE_API double getScaleFactorForWindow (HWND h); JUCE_API double getScaleFactorForWindow (HWND h) { // NB. Using a local function here because we need to call this method from the plug-in wrappers // which don't load the DPI-awareness functions on startup static GetDPIForWindowFunc localGetDPIForWindow = nullptr; static bool hasChecked = false; if (! hasChecked) { hasChecked = true; if (localGetDPIForWindow == nullptr) localGetDPIForWindow = (GetDPIForWindowFunc) getUser32Function ("GetDpiForWindow"); } if (localGetDPIForWindow != nullptr) return (double) localGetDPIForWindow (h) / USER_DEFAULT_SCREEN_DPI; return 1.0; } //============================================================================== static void setWindowPos (HWND hwnd, Rectangle bounds, UINT flags, bool adjustTopLeft = false) { ScopedThreadDPIAwarenessSetter setter { hwnd }; if (isPerMonitorDPIAwareWindow (hwnd)) { if (adjustTopLeft) bounds = convertLogicalScreenRectangleToPhysical (bounds, hwnd) .withPosition (Desktop::getInstance().getDisplays().logicalToPhysical (bounds.getTopLeft())); else bounds = convertLogicalScreenRectangleToPhysical (bounds, hwnd); } SetWindowPos (hwnd, nullptr, bounds.getX(), bounds.getY(), bounds.getWidth(), bounds.getHeight(), flags); } static RECT getWindowScreenRect (HWND hwnd) { ScopedThreadDPIAwarenessSetter setter { hwnd }; RECT rect; GetWindowRect (hwnd, &rect); return rect; } static RECT getWindowClientRect (HWND hwnd) { auto rect = getWindowScreenRect (hwnd); if (auto parentH = GetParent (hwnd)) { ScopedThreadDPIAwarenessSetter setter { hwnd }; MapWindowPoints (HWND_DESKTOP, parentH, (LPPOINT) &rect, 2); } return rect; } static void setWindowZOrder (HWND hwnd, HWND insertAfter) { SetWindowPos (hwnd, insertAfter, 0, 0, 0, 0, SWP_NOMOVE | SWP_NOSIZE | SWP_NOACTIVATE | SWP_NOSENDCHANGING); } //============================================================================== #if ! JUCE_MINGW extern RTL_OSVERSIONINFOW getWindowsVersionInfo(); #endif double Desktop::getDefaultMasterScale() { if (! JUCEApplicationBase::isStandaloneApp() || isPerMonitorDPIAwareProcess()) return 1.0; return getGlobalDPI() / USER_DEFAULT_SCREEN_DPI; } bool Desktop::canUseSemiTransparentWindows() noexcept { return true; } class Desktop::NativeDarkModeChangeDetectorImpl { public: NativeDarkModeChangeDetectorImpl() { #if ! JUCE_MINGW const auto winVer = getWindowsVersionInfo(); if (winVer.dwMajorVersion >= 10 && winVer.dwBuildNumber >= 17763) { const auto uxtheme = "uxtheme.dll"; LoadLibraryA (uxtheme); const auto uxthemeModule = GetModuleHandleA (uxtheme); if (uxthemeModule != nullptr) { shouldAppsUseDarkMode = (ShouldAppsUseDarkModeFunc) GetProcAddress (uxthemeModule, MAKEINTRESOURCEA (132)); if (shouldAppsUseDarkMode != nullptr) darkModeEnabled = shouldAppsUseDarkMode() && ! isHighContrast(); } } #endif } ~NativeDarkModeChangeDetectorImpl() { UnhookWindowsHookEx (hook); } bool isDarkModeEnabled() const noexcept { return darkModeEnabled; } private: static bool isHighContrast() { HIGHCONTRASTW highContrast {}; if (SystemParametersInfoW (SPI_GETHIGHCONTRAST, sizeof (highContrast), &highContrast, false)) return highContrast.dwFlags & HCF_HIGHCONTRASTON; return false; } static LRESULT CALLBACK callWndProc (int nCode, WPARAM wParam, LPARAM lParam) { auto* params = reinterpret_cast (lParam); if (nCode >= 0 && params != nullptr && params->message == WM_SETTINGCHANGE && params->lParam != 0 && CompareStringOrdinal (reinterpret_cast (params->lParam), -1, L"ImmersiveColorSet", -1, true) == CSTR_EQUAL) { Desktop::getInstance().nativeDarkModeChangeDetectorImpl->colourSetChanged(); } return CallNextHookEx ({}, nCode, wParam, lParam); } void colourSetChanged() { if (shouldAppsUseDarkMode != nullptr) { const auto wasDarkModeEnabled = std::exchange (darkModeEnabled, shouldAppsUseDarkMode() && ! isHighContrast()); if (darkModeEnabled != wasDarkModeEnabled) Desktop::getInstance().darkModeChanged(); } } using ShouldAppsUseDarkModeFunc = bool (WINAPI*)(); ShouldAppsUseDarkModeFunc shouldAppsUseDarkMode = nullptr; bool darkModeEnabled = false; HHOOK hook { SetWindowsHookEx (WH_CALLWNDPROC, callWndProc, (HINSTANCE) juce::Process::getCurrentModuleInstanceHandle(), GetCurrentThreadId()) }; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (NativeDarkModeChangeDetectorImpl) }; std::unique_ptr Desktop::createNativeDarkModeChangeDetectorImpl() { return std::make_unique(); } bool Desktop::isDarkModeActive() const { return nativeDarkModeChangeDetectorImpl->isDarkModeEnabled(); } Desktop::DisplayOrientation Desktop::getCurrentOrientation() const { return upright; } int64 getMouseEventTime(); int64 getMouseEventTime() { static int64 eventTimeOffset = 0; static LONG lastMessageTime = 0; const LONG thisMessageTime = GetMessageTime(); if (thisMessageTime < lastMessageTime || lastMessageTime == 0) { lastMessageTime = thisMessageTime; eventTimeOffset = Time::currentTimeMillis() - thisMessageTime; } return eventTimeOffset + thisMessageTime; } //============================================================================== const int extendedKeyModifier = 0x10000; const int KeyPress::spaceKey = VK_SPACE; const int KeyPress::returnKey = VK_RETURN; const int KeyPress::escapeKey = VK_ESCAPE; const int KeyPress::backspaceKey = VK_BACK; const int KeyPress::deleteKey = VK_DELETE | extendedKeyModifier; const int KeyPress::insertKey = VK_INSERT | extendedKeyModifier; const int KeyPress::tabKey = VK_TAB; const int KeyPress::leftKey = VK_LEFT | extendedKeyModifier; const int KeyPress::rightKey = VK_RIGHT | extendedKeyModifier; const int KeyPress::upKey = VK_UP | extendedKeyModifier; const int KeyPress::downKey = VK_DOWN | extendedKeyModifier; const int KeyPress::homeKey = VK_HOME | extendedKeyModifier; const int KeyPress::endKey = VK_END | extendedKeyModifier; const int KeyPress::pageUpKey = VK_PRIOR | extendedKeyModifier; const int KeyPress::pageDownKey = VK_NEXT | extendedKeyModifier; const int KeyPress::F1Key = VK_F1 | extendedKeyModifier; const int KeyPress::F2Key = VK_F2 | extendedKeyModifier; const int KeyPress::F3Key = VK_F3 | extendedKeyModifier; const int KeyPress::F4Key = VK_F4 | extendedKeyModifier; const int KeyPress::F5Key = VK_F5 | extendedKeyModifier; const int KeyPress::F6Key = VK_F6 | extendedKeyModifier; const int KeyPress::F7Key = VK_F7 | extendedKeyModifier; const int KeyPress::F8Key = VK_F8 | extendedKeyModifier; const int KeyPress::F9Key = VK_F9 | extendedKeyModifier; const int KeyPress::F10Key = VK_F10 | extendedKeyModifier; const int KeyPress::F11Key = VK_F11 | extendedKeyModifier; const int KeyPress::F12Key = VK_F12 | extendedKeyModifier; const int KeyPress::F13Key = VK_F13 | extendedKeyModifier; const int KeyPress::F14Key = VK_F14 | extendedKeyModifier; const int KeyPress::F15Key = VK_F15 | extendedKeyModifier; const int KeyPress::F16Key = VK_F16 | extendedKeyModifier; const int KeyPress::F17Key = VK_F17 | extendedKeyModifier; const int KeyPress::F18Key = VK_F18 | extendedKeyModifier; const int KeyPress::F19Key = VK_F19 | extendedKeyModifier; const int KeyPress::F20Key = VK_F20 | extendedKeyModifier; const int KeyPress::F21Key = VK_F21 | extendedKeyModifier; const int KeyPress::F22Key = VK_F22 | extendedKeyModifier; const int KeyPress::F23Key = VK_F23 | extendedKeyModifier; const int KeyPress::F24Key = VK_F24 | extendedKeyModifier; const int KeyPress::F25Key = 0x31000; // Windows doesn't support F-keys 25 or higher const int KeyPress::F26Key = 0x31001; const int KeyPress::F27Key = 0x31002; const int KeyPress::F28Key = 0x31003; const int KeyPress::F29Key = 0x31004; const int KeyPress::F30Key = 0x31005; const int KeyPress::F31Key = 0x31006; const int KeyPress::F32Key = 0x31007; const int KeyPress::F33Key = 0x31008; const int KeyPress::F34Key = 0x31009; const int KeyPress::F35Key = 0x3100a; const int KeyPress::numberPad0 = VK_NUMPAD0 | extendedKeyModifier; const int KeyPress::numberPad1 = VK_NUMPAD1 | extendedKeyModifier; const int KeyPress::numberPad2 = VK_NUMPAD2 | extendedKeyModifier; const int KeyPress::numberPad3 = VK_NUMPAD3 | extendedKeyModifier; const int KeyPress::numberPad4 = VK_NUMPAD4 | extendedKeyModifier; const int KeyPress::numberPad5 = VK_NUMPAD5 | extendedKeyModifier; const int KeyPress::numberPad6 = VK_NUMPAD6 | extendedKeyModifier; const int KeyPress::numberPad7 = VK_NUMPAD7 | extendedKeyModifier; const int KeyPress::numberPad8 = VK_NUMPAD8 | extendedKeyModifier; const int KeyPress::numberPad9 = VK_NUMPAD9 | extendedKeyModifier; const int KeyPress::numberPadAdd = VK_ADD | extendedKeyModifier; const int KeyPress::numberPadSubtract = VK_SUBTRACT | extendedKeyModifier; const int KeyPress::numberPadMultiply = VK_MULTIPLY | extendedKeyModifier; const int KeyPress::numberPadDivide = VK_DIVIDE | extendedKeyModifier; const int KeyPress::numberPadSeparator = VK_SEPARATOR | extendedKeyModifier; const int KeyPress::numberPadDecimalPoint = VK_DECIMAL | extendedKeyModifier; const int KeyPress::numberPadEquals = 0x92 /*VK_OEM_NEC_EQUAL*/ | extendedKeyModifier; const int KeyPress::numberPadDelete = VK_DELETE | extendedKeyModifier; const int KeyPress::playKey = 0x30000; const int KeyPress::stopKey = 0x30001; const int KeyPress::fastForwardKey = 0x30002; const int KeyPress::rewindKey = 0x30003; //============================================================================== class WindowsBitmapImage : public ImagePixelData { public: WindowsBitmapImage (const Image::PixelFormat format, const int w, const int h, const bool clearImage) : ImagePixelData (format, w, h) { jassert (format == Image::RGB || format == Image::ARGB); static bool alwaysUse32Bits = isGraphicsCard32Bit(); // NB: for 32-bit cards, it's faster to use a 32-bit image. pixelStride = (alwaysUse32Bits || format == Image::ARGB) ? 4 : 3; lineStride = -((w * pixelStride + 3) & ~3); zerostruct (bitmapInfo); bitmapInfo.bV4Size = sizeof (BITMAPV4HEADER); bitmapInfo.bV4Width = w; bitmapInfo.bV4Height = h; bitmapInfo.bV4Planes = 1; bitmapInfo.bV4CSType = 1; bitmapInfo.bV4BitCount = (unsigned short) (pixelStride * 8); if (format == Image::ARGB) { bitmapInfo.bV4AlphaMask = 0xff000000; bitmapInfo.bV4RedMask = 0xff0000; bitmapInfo.bV4GreenMask = 0xff00; bitmapInfo.bV4BlueMask = 0xff; bitmapInfo.bV4V4Compression = BI_BITFIELDS; } else { bitmapInfo.bV4V4Compression = BI_RGB; } { ScopedDeviceContext deviceContext { nullptr }; hdc = CreateCompatibleDC (deviceContext.dc); } SetMapMode (hdc, MM_TEXT); hBitmap = CreateDIBSection (hdc, (BITMAPINFO*) &(bitmapInfo), DIB_RGB_COLORS, (void**) &bitmapData, nullptr, 0); if (hBitmap != nullptr) previousBitmap = SelectObject (hdc, hBitmap); if (format == Image::ARGB && clearImage) zeromem (bitmapData, (size_t) std::abs (h * lineStride)); imageData = bitmapData - (lineStride * (h - 1)); } ~WindowsBitmapImage() override { SelectObject (hdc, previousBitmap); // Selecting the previous bitmap before deleting the DC avoids a warning in BoundsChecker DeleteDC (hdc); DeleteObject (hBitmap); } std::unique_ptr createType() const override { return std::make_unique(); } std::unique_ptr createLowLevelContext() override { sendDataChangeMessage(); return std::make_unique (Image (this)); } void initialiseBitmapData (Image::BitmapData& bitmap, int x, int y, Image::BitmapData::ReadWriteMode mode) override { const auto offset = (size_t) (x * pixelStride + y * lineStride); bitmap.data = imageData + offset; bitmap.size = (size_t) (lineStride * height) - offset; bitmap.pixelFormat = pixelFormat; bitmap.lineStride = lineStride; bitmap.pixelStride = pixelStride; if (mode != Image::BitmapData::readOnly) sendDataChangeMessage(); } ImagePixelData::Ptr clone() override { auto im = new WindowsBitmapImage (pixelFormat, width, height, false); for (int i = 0; i < height; ++i) memcpy (im->imageData + i * lineStride, imageData + i * lineStride, (size_t) lineStride); return im; } void blitToWindow (HWND hwnd, HDC dc, bool transparent, int x, int y, uint8 updateLayeredWindowAlpha) noexcept { SetMapMode (dc, MM_TEXT); if (transparent) { auto windowBounds = getWindowScreenRect (hwnd); POINT p = { -x, -y }; POINT pos = { windowBounds.left, windowBounds.top }; SIZE size = { windowBounds.right - windowBounds.left, windowBounds.bottom - windowBounds.top }; BLENDFUNCTION bf; bf.AlphaFormat = 1 /*AC_SRC_ALPHA*/; bf.BlendFlags = 0; bf.BlendOp = AC_SRC_OVER; bf.SourceConstantAlpha = updateLayeredWindowAlpha; UpdateLayeredWindow (hwnd, nullptr, &pos, &size, hdc, &p, 0, &bf, 2 /*ULW_ALPHA*/); } else { StretchDIBits (dc, x, y, width, height, 0, 0, width, height, bitmapData, (const BITMAPINFO*) &bitmapInfo, DIB_RGB_COLORS, SRCCOPY); } } HBITMAP hBitmap; HGDIOBJ previousBitmap; BITMAPV4HEADER bitmapInfo; HDC hdc; uint8* bitmapData; int pixelStride, lineStride; uint8* imageData; private: static bool isGraphicsCard32Bit() { ScopedDeviceContext deviceContext { nullptr }; return GetDeviceCaps (deviceContext.dc, BITSPIXEL) > 24; } JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (WindowsBitmapImage) }; //============================================================================== Image createSnapshotOfNativeWindow (void* nativeWindowHandle) { auto hwnd = (HWND) nativeWindowHandle; auto r = convertPhysicalScreenRectangleToLogical (rectangleFromRECT (getWindowScreenRect (hwnd)), hwnd); const auto w = r.getWidth(); const auto h = r.getHeight(); auto nativeBitmap = new WindowsBitmapImage (Image::RGB, w, h, true); Image bitmap (nativeBitmap); ScopedDeviceContext deviceContext { hwnd }; if (isPerMonitorDPIAwareProcess()) { auto scale = getScaleFactorForWindow (hwnd); auto prevStretchMode = SetStretchBltMode (nativeBitmap->hdc, HALFTONE); SetBrushOrgEx (nativeBitmap->hdc, 0, 0, nullptr); StretchBlt (nativeBitmap->hdc, 0, 0, w, h, deviceContext.dc, 0, 0, roundToInt (w * scale), roundToInt (h * scale), SRCCOPY); SetStretchBltMode (nativeBitmap->hdc, prevStretchMode); } else { BitBlt (nativeBitmap->hdc, 0, 0, w, h, deviceContext.dc, 0, 0, SRCCOPY); } return SoftwareImageType().convert (bitmap); } //============================================================================== namespace IconConverters { static Image createImageFromHICON (HICON icon) { if (icon == nullptr) return {}; struct ScopedICONINFO : public ICONINFO { ScopedICONINFO() { hbmColor = nullptr; hbmMask = nullptr; } ~ScopedICONINFO() { if (hbmColor != nullptr) ::DeleteObject (hbmColor); if (hbmMask != nullptr) ::DeleteObject (hbmMask); } }; ScopedICONINFO info; if (! ::GetIconInfo (icon, &info)) return {}; BITMAP bm; if (! (::GetObject (info.hbmColor, sizeof (BITMAP), &bm) && bm.bmWidth > 0 && bm.bmHeight > 0)) return {}; ScopedDeviceContext deviceContext { nullptr }; if (auto* dc = ::CreateCompatibleDC (deviceContext.dc)) { BITMAPV5HEADER header = {}; header.bV5Size = sizeof (BITMAPV5HEADER); header.bV5Width = bm.bmWidth; header.bV5Height = -bm.bmHeight; header.bV5Planes = 1; header.bV5Compression = BI_RGB; header.bV5BitCount = 32; header.bV5RedMask = 0x00FF0000; header.bV5GreenMask = 0x0000FF00; header.bV5BlueMask = 0x000000FF; header.bV5AlphaMask = 0xFF000000; header.bV5CSType = 0x57696E20; // 'Win ' header.bV5Intent = LCS_GM_IMAGES; uint32* bitmapImageData = nullptr; if (auto* dib = ::CreateDIBSection (deviceContext.dc, (BITMAPINFO*) &header, DIB_RGB_COLORS, (void**) &bitmapImageData, nullptr, 0)) { auto oldObject = ::SelectObject (dc, dib); auto numPixels = bm.bmWidth * bm.bmHeight; auto numColourComponents = (size_t) numPixels * 4; // Windows icon data comes as two layers, an XOR mask which contains the bulk // of the image data and an AND mask which provides the transparency. Annoyingly // the XOR mask can also contain an alpha channel, in which case the transparency // mask should not be applied, but there's no way to find out a priori if the XOR // mask contains an alpha channel. HeapBlock opacityMask (numPixels); memset (bitmapImageData, 0, numColourComponents); ::DrawIconEx (dc, 0, 0, icon, bm.bmWidth, bm.bmHeight, 0, nullptr, DI_MASK); for (int i = 0; i < numPixels; ++i) opacityMask[i] = (bitmapImageData[i] == 0); Image result = Image (Image::ARGB, bm.bmWidth, bm.bmHeight, true); Image::BitmapData imageData (result, Image::BitmapData::readWrite); memset (bitmapImageData, 0, numColourComponents); ::DrawIconEx (dc, 0, 0, icon, bm.bmWidth, bm.bmHeight, 0, nullptr, DI_NORMAL); memcpy (imageData.data, bitmapImageData, numColourComponents); auto imageHasAlphaChannel = [&imageData, numPixels]() { for (int i = 0; i < numPixels; ++i) if (imageData.data[i * 4] != 0) return true; return false; }; if (! imageHasAlphaChannel()) for (int i = 0; i < numPixels; ++i) imageData.data[i * 4] = opacityMask[i] ? 0xff : 0x00; ::SelectObject (dc, oldObject); ::DeleteObject (dib); ::DeleteDC (dc); return result; } ::DeleteDC (dc); } return {}; } HICON createHICONFromImage (const Image& image, const BOOL isIcon, int hotspotX, int hotspotY); HICON createHICONFromImage (const Image& image, const BOOL isIcon, int hotspotX, int hotspotY) { auto nativeBitmap = new WindowsBitmapImage (Image::ARGB, image.getWidth(), image.getHeight(), true); Image bitmap (nativeBitmap); { Graphics g (bitmap); g.drawImageAt (image, 0, 0); } auto mask = CreateBitmap (image.getWidth(), image.getHeight(), 1, 1, nullptr); ICONINFO info; info.fIcon = isIcon; info.xHotspot = (DWORD) hotspotX; info.yHotspot = (DWORD) hotspotY; info.hbmMask = mask; info.hbmColor = nativeBitmap->hBitmap; auto hi = CreateIconIndirect (&info); DeleteObject (mask); return hi; } } // namespace IconConverters //============================================================================== JUCE_IUNKNOWNCLASS (ITipInvocation, "37c994e7-432b-4834-a2f7-dce1f13b834b") { static CLSID getCLSID() noexcept { return { 0x4ce576fa, 0x83dc, 0x4f88, { 0x95, 0x1c, 0x9d, 0x07, 0x82, 0xb4, 0xe3, 0x76 } }; } JUCE_COMCALL Toggle (HWND) = 0; }; } // namespace juce #ifdef __CRT_UUID_DECL __CRT_UUID_DECL (juce::ITipInvocation, 0x37c994e7, 0x432b, 0x4834, 0xa2, 0xf7, 0xdc, 0xe1, 0xf1, 0x3b, 0x83, 0x4b) #endif namespace juce { struct OnScreenKeyboard : public DeletedAtShutdown, private Timer { void activate() { shouldBeActive = true; startTimer (10); } void deactivate() { shouldBeActive = false; startTimer (10); } JUCE_DECLARE_SINGLETON_SINGLETHREADED (OnScreenKeyboard, false) private: OnScreenKeyboard() { tipInvocation.CoCreateInstance (ITipInvocation::getCLSID(), CLSCTX_INPROC_HANDLER | CLSCTX_LOCAL_SERVER); } ~OnScreenKeyboard() override { clearSingletonInstance(); } void timerCallback() override { stopTimer(); if (reentrant || tipInvocation == nullptr) return; const ScopedValueSetter setter (reentrant, true, false); auto isActive = isKeyboardVisible(); if (isActive != shouldBeActive) { if (! isActive) { tipInvocation->Toggle (GetDesktopWindow()); } else { if (auto hwnd = FindWindow (L"IPTip_Main_Window", nullptr)) PostMessage (hwnd, WM_SYSCOMMAND, (int) SC_CLOSE, 0); } } } bool isVisible() { if (auto hwnd = FindWindowEx (nullptr, nullptr, L"ApplicationFrameWindow", nullptr)) return FindWindowEx (hwnd, nullptr, L"Windows.UI.Core.CoreWindow", L"Microsoft Text Input Application") != nullptr; return false; } bool isVisibleLegacy() { if (auto hwnd = FindWindow (L"IPTip_Main_Window", nullptr)) { auto style = GetWindowLong (hwnd, GWL_STYLE); return (style & WS_DISABLED) == 0 && (style & WS_VISIBLE) != 0; } return false; } bool isKeyboardVisible() { if (isVisible()) return true; // isVisible() may fail on Win10 versions < 1709 so try the old method too return isVisibleLegacy(); } bool shouldBeActive = false, reentrant = false; ComSmartPtr tipInvocation; }; JUCE_IMPLEMENT_SINGLETON (OnScreenKeyboard) //============================================================================== struct HSTRING_PRIVATE; typedef HSTRING_PRIVATE* HSTRING; struct IInspectable : public IUnknown { JUCE_COMCALL GetIids (ULONG* ,IID**) = 0; JUCE_COMCALL GetRuntimeClassName (HSTRING*) = 0; JUCE_COMCALL GetTrustLevel (void*) = 0; }; JUCE_COMCLASS (IUIViewSettingsInterop, "3694dbf9-8f68-44be-8ff5-195c98ede8a6") : public IInspectable { JUCE_COMCALL GetForWindow (HWND, REFIID, void**) = 0; }; JUCE_COMCLASS (IUIViewSettings, "c63657f6-8850-470d-88f8-455e16ea2c26") : public IInspectable { enum UserInteractionMode { Mouse = 0, Touch = 1 }; JUCE_COMCALL GetUserInteractionMode (UserInteractionMode*) = 0; }; } // namespace juce #ifdef __CRT_UUID_DECL __CRT_UUID_DECL (juce::IUIViewSettingsInterop, 0x3694dbf9, 0x8f68, 0x44be, 0x8f, 0xf5, 0x19, 0x5c, 0x98, 0xed, 0xe8, 0xa6) __CRT_UUID_DECL (juce::IUIViewSettings, 0xc63657f6, 0x8850, 0x470d, 0x88, 0xf8, 0x45, 0x5e, 0x16, 0xea, 0x2c, 0x26) #endif namespace juce { struct UWPUIViewSettings { UWPUIViewSettings() { ComBaseModule dll (L"api-ms-win-core-winrt-l1-1-0"); if (dll.h != nullptr) { roInitialize = (RoInitializeFuncPtr) ::GetProcAddress (dll.h, "RoInitialize"); roGetActivationFactory = (RoGetActivationFactoryFuncPtr) ::GetProcAddress (dll.h, "RoGetActivationFactory"); createHString = (WindowsCreateStringFuncPtr) ::GetProcAddress (dll.h, "WindowsCreateString"); deleteHString = (WindowsDeleteStringFuncPtr) ::GetProcAddress (dll.h, "WindowsDeleteString"); if (roInitialize == nullptr || roGetActivationFactory == nullptr || createHString == nullptr || deleteHString == nullptr) return; auto status = roInitialize (1); if (status != S_OK && status != S_FALSE && (unsigned) status != 0x80010106L) return; LPCWSTR uwpClassName = L"Windows.UI.ViewManagement.UIViewSettings"; HSTRING uwpClassId = nullptr; if (createHString (uwpClassName, (::UINT32) wcslen (uwpClassName), &uwpClassId) != S_OK || uwpClassId == nullptr) return; JUCE_BEGIN_IGNORE_WARNINGS_GCC_LIKE ("-Wlanguage-extension-token") status = roGetActivationFactory (uwpClassId, __uuidof (IUIViewSettingsInterop), (void**) viewSettingsInterop.resetAndGetPointerAddress()); JUCE_END_IGNORE_WARNINGS_GCC_LIKE deleteHString (uwpClassId); if (status != S_OK || viewSettingsInterop == nullptr) return; // move dll into member var comBaseDLL = std::move (dll); } } bool isTabletModeActivatedForWindow (::HWND hWnd) const { if (viewSettingsInterop == nullptr) return false; ComSmartPtr viewSettings; JUCE_BEGIN_IGNORE_WARNINGS_GCC_LIKE ("-Wlanguage-extension-token") if (viewSettingsInterop->GetForWindow (hWnd, __uuidof (IUIViewSettings), (void**) viewSettings.resetAndGetPointerAddress()) == S_OK && viewSettings != nullptr) { IUIViewSettings::UserInteractionMode mode; if (viewSettings->GetUserInteractionMode (&mode) == S_OK) return mode == IUIViewSettings::Touch; } JUCE_END_IGNORE_WARNINGS_GCC_LIKE return false; } private: //============================================================================== struct ComBaseModule { ComBaseModule() = default; ComBaseModule (LPCWSTR libraryName) : h (::LoadLibrary (libraryName)) {} ComBaseModule (ComBaseModule&& o) : h (o.h) { o.h = nullptr; } ~ComBaseModule() { release(); } void release() { if (h != nullptr) ::FreeLibrary (h); h = nullptr; } ComBaseModule& operator= (ComBaseModule&& o) { release(); h = o.h; o.h = nullptr; return *this; } HMODULE h = {}; }; using RoInitializeFuncPtr = HRESULT (WINAPI*) (int); using RoGetActivationFactoryFuncPtr = HRESULT (WINAPI*) (HSTRING, REFIID, void**); using WindowsCreateStringFuncPtr = HRESULT (WINAPI*) (LPCWSTR,UINT32, HSTRING*); using WindowsDeleteStringFuncPtr = HRESULT (WINAPI*) (HSTRING); ComBaseModule comBaseDLL; ComSmartPtr viewSettingsInterop; RoInitializeFuncPtr roInitialize; RoGetActivationFactoryFuncPtr roGetActivationFactory; WindowsCreateStringFuncPtr createHString; WindowsDeleteStringFuncPtr deleteHString; }; //============================================================================== static HMONITOR getMonitorFromOutput (ComSmartPtr output) { DXGI_OUTPUT_DESC desc = {}; return (FAILED (output->GetDesc (&desc)) || ! desc.AttachedToDesktop) ? nullptr : desc.Monitor; } struct VBlankListener { virtual void onVBlank() = 0; }; //============================================================================== class VSyncThread : private Thread, private AsyncUpdater { public: VSyncThread (ComSmartPtr out, HMONITOR mon, VBlankListener& listener) : Thread ("VSyncThread"), output (out), monitor (mon) { listeners.push_back (listener); startThread (10); } ~VSyncThread() override { stopThread (-1); cancelPendingUpdate(); } void updateMonitor() { monitor = getMonitorFromOutput (output); } HMONITOR getMonitor() const noexcept { return monitor; } void addListener (VBlankListener& listener) { listeners.push_back (listener); } bool removeListener (const VBlankListener& listener) { auto it = std::find_if (listeners.cbegin(), listeners.cend(), [&listener] (const auto& l) { return &(l.get()) == &listener; }); if (it != listeners.cend()) { listeners.erase (it); return true; } return false; } bool hasNoListeners() const noexcept { return listeners.empty(); } bool hasListener (const VBlankListener& listener) const noexcept { return std::any_of (listeners.cbegin(), listeners.cend(), [&listener] (const auto& l) { return &(l.get()) == &listener; }); } private: //============================================================================== void run() override { while (! threadShouldExit()) { if (output->WaitForVBlank() == S_OK) triggerAsyncUpdate(); else Thread::sleep (1); } } void handleAsyncUpdate() override { for (auto& listener : listeners) listener.get().onVBlank(); } //============================================================================== ComSmartPtr output; HMONITOR monitor = nullptr; std::vector> listeners; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (VSyncThread) JUCE_DECLARE_NON_MOVEABLE (VSyncThread) }; //============================================================================== class VBlankDispatcher : public DeletedAtShutdown { public: void updateDisplay (VBlankListener& listener, HMONITOR monitor) { if (monitor == nullptr) { removeListener (listener); return; } auto threadWithListener = threads.end(); auto threadWithMonitor = threads.end(); for (auto it = threads.begin(); it != threads.end(); ++it) { if ((*it)->hasListener (listener)) threadWithListener = it; if ((*it)->getMonitor() == monitor) threadWithMonitor = it; if (threadWithListener != threads.end() && threadWithMonitor != threads.end()) { if (threadWithListener == threadWithMonitor) return; (*threadWithMonitor)->addListener (listener); // This may invalidate iterators, so be careful! removeListener (threadWithListener, listener); return; } } if (threadWithMonitor != threads.end()) { (*threadWithMonitor)->addListener (listener); return; } if (threadWithListener != threads.end()) removeListener (threadWithListener, listener); for (auto adapter : adapters) { UINT i = 0; ComSmartPtr output; while (adapter->EnumOutputs (i, output.resetAndGetPointerAddress()) != DXGI_ERROR_NOT_FOUND) { if (getMonitorFromOutput (output) == monitor) { threads.emplace_back (std::make_unique (output, monitor, listener)); return; } ++i; } } } void removeListener (const VBlankListener& listener) { for (auto it = threads.begin(); it != threads.end(); ++it) if (removeListener (it, listener)) return; } void reconfigureDisplays() { adapters.clear(); ComSmartPtr factory; JUCE_BEGIN_IGNORE_WARNINGS_GCC_LIKE ("-Wlanguage-extension-token") CreateDXGIFactory (__uuidof (IDXGIFactory), (void**)factory.resetAndGetPointerAddress()); JUCE_END_IGNORE_WARNINGS_GCC_LIKE UINT i = 0; ComSmartPtr adapter; while (factory->EnumAdapters (i, adapter.resetAndGetPointerAddress()) != DXGI_ERROR_NOT_FOUND) { adapters.push_back (adapter); ++i; } for (auto& thread : threads) thread->updateMonitor(); threads.erase (std::remove_if (threads.begin(), threads.end(), [] (const auto& thread) { return thread->getMonitor() == nullptr; }), threads.end()); } JUCE_DECLARE_SINGLETON_SINGLETHREADED (VBlankDispatcher, true) private: //============================================================================== using Threads = std::vector>; VBlankDispatcher() { reconfigureDisplays(); } ~VBlankDispatcher() override { threads.clear(); clearSingletonInstance(); } // This may delete the corresponding thread and invalidate iterators, // so be careful! bool removeListener (Threads::iterator it, const VBlankListener& listener) { if ((*it)->removeListener (listener)) { if ((*it)->hasNoListeners()) threads.erase (it); return true; } return false; } //============================================================================== std::vector> adapters; Threads threads; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (VBlankDispatcher) JUCE_DECLARE_NON_MOVEABLE (VBlankDispatcher) }; JUCE_IMPLEMENT_SINGLETON (VBlankDispatcher) //============================================================================== class HWNDComponentPeer : public ComponentPeer, private VBlankListener, private Timer #if JUCE_MODULE_AVAILABLE_juce_audio_plugin_client , public ModifierKeyReceiver #endif { public: enum RenderingEngineType { softwareRenderingEngine = 0, direct2DRenderingEngine }; //============================================================================== HWNDComponentPeer (Component& comp, int windowStyleFlags, HWND parent, bool nonRepainting) : ComponentPeer (comp, windowStyleFlags), dontRepaint (nonRepainting), parentToAddTo (parent), currentRenderingEngine (softwareRenderingEngine) { callFunctionIfNotLocked (&createWindowCallback, this); setTitle (component.getName()); updateShadower(); OnScreenKeyboard::getInstance(); getNativeRealtimeModifiers = [] { HWNDComponentPeer::updateKeyModifiers(); int mouseMods = 0; if (HWNDComponentPeer::isKeyDown (VK_LBUTTON)) mouseMods |= ModifierKeys::leftButtonModifier; if (HWNDComponentPeer::isKeyDown (VK_RBUTTON)) mouseMods |= ModifierKeys::rightButtonModifier; if (HWNDComponentPeer::isKeyDown (VK_MBUTTON)) mouseMods |= ModifierKeys::middleButtonModifier; ModifierKeys::currentModifiers = ModifierKeys::currentModifiers.withoutMouseButtons().withFlags (mouseMods); return ModifierKeys::currentModifiers; }; if (updateCurrentMonitor()) VBlankDispatcher::getInstance()->updateDisplay (*this, currentMonitor); } ~HWNDComponentPeer() override { VBlankDispatcher::getInstance()->removeListener (*this); // do this first to avoid messages arriving for this window before it's destroyed JuceWindowIdentifier::setAsJUCEWindow (hwnd, false); if (isAccessibilityActive) WindowsAccessibility::revokeUIAMapEntriesForWindow (hwnd); shadower = nullptr; currentTouches.deleteAllTouchesForPeer (this); callFunctionIfNotLocked (&destroyWindowCallback, (void*) hwnd); if (currentWindowIcon != nullptr) DestroyIcon (currentWindowIcon); if (dropTarget != nullptr) { dropTarget->peerIsDeleted = true; dropTarget->Release(); dropTarget = nullptr; } #if JUCE_DIRECT2D direct2DContext = nullptr; #endif } //============================================================================== void* getNativeHandle() const override { return hwnd; } void setVisible (bool shouldBeVisible) override { const ScopedValueSetter scope (shouldIgnoreModalDismiss, true); ShowWindow (hwnd, shouldBeVisible ? SW_SHOWNA : SW_HIDE); if (shouldBeVisible) InvalidateRect (hwnd, nullptr, 0); else lastPaintTime = 0; } void setTitle (const String& title) override { // Unfortunately some ancient bits of win32 mean you can only perform this operation from the message thread. JUCE_ASSERT_MESSAGE_THREAD SetWindowText (hwnd, title.toWideCharPointer()); } void repaintNowIfTransparent() { if (isUsingUpdateLayeredWindow() && lastPaintTime > 0 && Time::getMillisecondCounter() > lastPaintTime + 30) handlePaintMessage(); } void updateBorderSize() { WINDOWINFO info; info.cbSize = sizeof (info); if (GetWindowInfo (hwnd, &info)) windowBorder = BorderSize (roundToInt ((info.rcClient.top - info.rcWindow.top) / scaleFactor), roundToInt ((info.rcClient.left - info.rcWindow.left) / scaleFactor), roundToInt ((info.rcWindow.bottom - info.rcClient.bottom) / scaleFactor), roundToInt ((info.rcWindow.right - info.rcClient.right) / scaleFactor)); #if JUCE_DIRECT2D if (direct2DContext != nullptr) direct2DContext->resized(); #endif } void setBounds (const Rectangle& bounds, bool isNowFullScreen) override { // If we try to set new bounds while handling an existing position change, // Windows may get confused about our current scale and size. // This can happen when moving a window between displays, because the mouse-move // generator in handlePositionChanged can cause the window to move again. if (inHandlePositionChanged) return; const ScopedValueSetter scope (shouldIgnoreModalDismiss, true); fullScreen = isNowFullScreen; auto newBounds = windowBorder.addedTo (bounds); if (isUsingUpdateLayeredWindow()) { if (auto parentHwnd = GetParent (hwnd)) { auto parentRect = convertPhysicalScreenRectangleToLogical (rectangleFromRECT (getWindowScreenRect (parentHwnd)), hwnd); newBounds.translate (parentRect.getX(), parentRect.getY()); } } auto oldBounds = getBounds(); const bool hasMoved = (oldBounds.getPosition() != bounds.getPosition()); const bool hasResized = (oldBounds.getWidth() != bounds.getWidth() || oldBounds.getHeight() != bounds.getHeight()); DWORD flags = SWP_NOACTIVATE | SWP_NOZORDER | SWP_NOOWNERZORDER; if (! hasMoved) flags |= SWP_NOMOVE; if (! hasResized) flags |= SWP_NOSIZE; setWindowPos (hwnd, newBounds, flags, ! inDpiChange); if (hasResized && isValidPeer (this)) { updateBorderSize(); repaintNowIfTransparent(); } } Rectangle getBounds() const override { auto bounds = [this] { if (parentToAddTo == nullptr) return convertPhysicalScreenRectangleToLogical (rectangleFromRECT (getWindowScreenRect (hwnd)), hwnd); auto localBounds = rectangleFromRECT (getWindowClientRect (hwnd)); if (isPerMonitorDPIAwareWindow (hwnd)) return (localBounds.toDouble() / getPlatformScaleFactor()).toNearestInt(); return localBounds; }(); return windowBorder.subtractedFrom (bounds); } Point getScreenPosition() const { auto r = convertPhysicalScreenRectangleToLogical (rectangleFromRECT (getWindowScreenRect (hwnd)), hwnd); return { r.getX() + windowBorder.getLeft(), r.getY() + windowBorder.getTop() }; } Point localToGlobal (Point relativePosition) override { return relativePosition + getScreenPosition().toFloat(); } Point globalToLocal (Point screenPosition) override { return screenPosition - getScreenPosition().toFloat(); } using ComponentPeer::localToGlobal; using ComponentPeer::globalToLocal; void setAlpha (float newAlpha) override { const ScopedValueSetter scope (shouldIgnoreModalDismiss, true); auto intAlpha = (uint8) jlimit (0, 255, (int) (newAlpha * 255.0f)); if (component.isOpaque()) { if (newAlpha < 1.0f) { SetWindowLong (hwnd, GWL_EXSTYLE, GetWindowLong (hwnd, GWL_EXSTYLE) | WS_EX_LAYERED); SetLayeredWindowAttributes (hwnd, RGB (0, 0, 0), intAlpha, LWA_ALPHA); } else { SetWindowLong (hwnd, GWL_EXSTYLE, GetWindowLong (hwnd, GWL_EXSTYLE) & ~WS_EX_LAYERED); RedrawWindow (hwnd, nullptr, nullptr, RDW_ERASE | RDW_INVALIDATE | RDW_FRAME | RDW_ALLCHILDREN); } } else { updateLayeredWindowAlpha = intAlpha; component.repaint(); } } void setMinimised (bool shouldBeMinimised) override { const ScopedValueSetter scope (shouldIgnoreModalDismiss, true); if (shouldBeMinimised != isMinimised()) ShowWindow (hwnd, shouldBeMinimised ? SW_MINIMIZE : SW_RESTORE); } bool isMinimised() const override { WINDOWPLACEMENT wp; wp.length = sizeof (WINDOWPLACEMENT); GetWindowPlacement (hwnd, &wp); return wp.showCmd == SW_SHOWMINIMIZED; } void setFullScreen (bool shouldBeFullScreen) override { const ScopedValueSetter scope (shouldIgnoreModalDismiss, true); setMinimised (false); if (isFullScreen() != shouldBeFullScreen) { if (constrainer != nullptr) constrainer->resizeStart(); fullScreen = shouldBeFullScreen; const WeakReference deletionChecker (&component); if (! fullScreen) { auto boundsCopy = lastNonFullscreenBounds; if (hasTitleBar()) ShowWindow (hwnd, SW_SHOWNORMAL); if (! boundsCopy.isEmpty()) setBounds (ScalingHelpers::scaledScreenPosToUnscaled (component, boundsCopy), false); } else { if (hasTitleBar()) ShowWindow (hwnd, SW_SHOWMAXIMIZED); else SendMessageW (hwnd, WM_SETTINGCHANGE, 0, 0); } if (deletionChecker != nullptr) handleMovedOrResized(); if (constrainer != nullptr) constrainer->resizeEnd(); } } bool isFullScreen() const override { if (! hasTitleBar()) return fullScreen; WINDOWPLACEMENT wp; wp.length = sizeof (wp); GetWindowPlacement (hwnd, &wp); return wp.showCmd == SW_SHOWMAXIMIZED; } bool contains (Point localPos, bool trueIfInAChildWindow) const override { auto r = convertPhysicalScreenRectangleToLogical (rectangleFromRECT (getWindowScreenRect (hwnd)), hwnd); if (! r.withZeroOrigin().contains (localPos)) return false; auto w = WindowFromPoint (POINTFromPoint (convertLogicalScreenPointToPhysical (localPos + getScreenPosition(), hwnd))); return w == hwnd || (trueIfInAChildWindow && (IsChild (hwnd, w) != 0)); } OptionalBorderSize getFrameSizeIfPresent() const override { return ComponentPeer::OptionalBorderSize { windowBorder }; } BorderSize getFrameSize() const override { return windowBorder; } bool setAlwaysOnTop (bool alwaysOnTop) override { const bool oldDeactivate = shouldDeactivateTitleBar; shouldDeactivateTitleBar = ((styleFlags & windowIsTemporary) == 0); setWindowZOrder (hwnd, alwaysOnTop ? HWND_TOPMOST : HWND_NOTOPMOST); shouldDeactivateTitleBar = oldDeactivate; if (shadower != nullptr) handleBroughtToFront(); return true; } void toFront (bool makeActive) override { const ScopedValueSetter scope (shouldIgnoreModalDismiss, true); setMinimised (false); const bool oldDeactivate = shouldDeactivateTitleBar; shouldDeactivateTitleBar = ((styleFlags & windowIsTemporary) == 0); callFunctionIfNotLocked (makeActive ? &toFrontCallback1 : &toFrontCallback2, hwnd); shouldDeactivateTitleBar = oldDeactivate; if (! makeActive) { // in this case a broughttofront call won't have occurred, so do it now.. handleBroughtToFront(); } } void toBehind (ComponentPeer* other) override { const ScopedValueSetter scope (shouldIgnoreModalDismiss, true); if (auto* otherPeer = dynamic_cast (other)) { setMinimised (false); // Must be careful not to try to put a topmost window behind a normal one, or Windows // promotes the normal one to be topmost! if (component.isAlwaysOnTop() == otherPeer->getComponent().isAlwaysOnTop()) setWindowZOrder (hwnd, otherPeer->hwnd); else if (otherPeer->getComponent().isAlwaysOnTop()) setWindowZOrder (hwnd, HWND_TOP); } else { jassertfalse; // wrong type of window? } } bool isFocused() const override { return callFunctionIfNotLocked (&getFocusCallback, nullptr) == (void*) hwnd; } void grabFocus() override { const ScopedValueSetter scope (shouldIgnoreModalDismiss, true); const bool oldDeactivate = shouldDeactivateTitleBar; shouldDeactivateTitleBar = ((styleFlags & windowIsTemporary) == 0); callFunctionIfNotLocked (&setFocusCallback, hwnd); shouldDeactivateTitleBar = oldDeactivate; } void textInputRequired (Point, TextInputTarget&) override { if (! hasCreatedCaret) { hasCreatedCaret = true; CreateCaret (hwnd, (HBITMAP) 1, 0, 0); } ShowCaret (hwnd); SetCaretPos (0, 0); if (uwpViewSettings.isTabletModeActivatedForWindow (hwnd)) OnScreenKeyboard::getInstance()->activate(); } void closeInputMethodContext() override { imeHandler.handleSetContext (hwnd, false); } void dismissPendingTextInput() override { closeInputMethodContext(); if (uwpViewSettings.isTabletModeActivatedForWindow (hwnd)) OnScreenKeyboard::getInstance()->deactivate(); } void repaint (const Rectangle& area) override { deferredRepaints.add ((area.toDouble() * getPlatformScaleFactor()).getSmallestIntegerContainer()); } void dispatchDeferredRepaints() { for (auto deferredRect : deferredRepaints) { auto r = RECTFromRectangle (deferredRect); InvalidateRect (hwnd, &r, FALSE); } deferredRepaints.clear(); } void performAnyPendingRepaintsNow() override { if (component.isVisible()) { dispatchDeferredRepaints(); WeakReference localRef (&component); MSG m; if (isUsingUpdateLayeredWindow() || PeekMessage (&m, hwnd, WM_PAINT, WM_PAINT, PM_REMOVE)) if (localRef != nullptr) // (the PeekMessage call can dispatch messages, which may delete this comp) handlePaintMessage(); } } //============================================================================== void onVBlank() override { dispatchDeferredRepaints(); } //============================================================================== static HWNDComponentPeer* getOwnerOfWindow (HWND h) noexcept { if (h != nullptr && JuceWindowIdentifier::isJUCEWindow (h)) return (HWNDComponentPeer*) GetWindowLongPtr (h, 8); return nullptr; } //============================================================================== bool isInside (HWND h) const noexcept { return GetAncestor (hwnd, GA_ROOT) == h; } //============================================================================== static bool isKeyDown (const int key) noexcept { return (GetAsyncKeyState (key) & 0x8000) != 0; } static void updateKeyModifiers() noexcept { int keyMods = 0; if (isKeyDown (VK_SHIFT)) keyMods |= ModifierKeys::shiftModifier; if (isKeyDown (VK_CONTROL)) keyMods |= ModifierKeys::ctrlModifier; if (isKeyDown (VK_MENU)) keyMods |= ModifierKeys::altModifier; // workaround: Windows maps AltGr to left-Ctrl + right-Alt. if (isKeyDown (VK_RMENU) && !isKeyDown (VK_RCONTROL)) { keyMods = (keyMods & ~ModifierKeys::ctrlModifier) | ModifierKeys::altModifier; } ModifierKeys::currentModifiers = ModifierKeys::currentModifiers.withOnlyMouseButtons().withFlags (keyMods); } static void updateModifiersFromWParam (const WPARAM wParam) { int mouseMods = 0; if (wParam & MK_LBUTTON) mouseMods |= ModifierKeys::leftButtonModifier; if (wParam & MK_RBUTTON) mouseMods |= ModifierKeys::rightButtonModifier; if (wParam & MK_MBUTTON) mouseMods |= ModifierKeys::middleButtonModifier; ModifierKeys::currentModifiers = ModifierKeys::currentModifiers.withoutMouseButtons().withFlags (mouseMods); updateKeyModifiers(); } //============================================================================== bool dontRepaint; static ModifierKeys modifiersAtLastCallback; //============================================================================== struct FileDropTarget : public ComBaseClassHelper { FileDropTarget (HWNDComponentPeer& p) : peer (p) {} JUCE_COMRESULT DragEnter (IDataObject* pDataObject, DWORD grfKeyState, POINTL mousePos, DWORD* pdwEffect) override { auto hr = updateFileList (pDataObject); if (FAILED (hr)) return hr; return DragOver (grfKeyState, mousePos, pdwEffect); } JUCE_COMRESULT DragLeave() override { if (peerIsDeleted) return S_FALSE; peer.handleDragExit (dragInfo); return S_OK; } JUCE_COMRESULT DragOver (DWORD /*grfKeyState*/, POINTL mousePos, DWORD* pdwEffect) override { if (peerIsDeleted) return S_FALSE; dragInfo.position = getMousePos (mousePos).roundToInt(); *pdwEffect = peer.handleDragMove (dragInfo) ? (DWORD) DROPEFFECT_COPY : (DWORD) DROPEFFECT_NONE; return S_OK; } JUCE_COMRESULT Drop (IDataObject* pDataObject, DWORD /*grfKeyState*/, POINTL mousePos, DWORD* pdwEffect) override { auto hr = updateFileList (pDataObject); if (FAILED (hr)) return hr; dragInfo.position = getMousePos (mousePos).roundToInt(); *pdwEffect = peer.handleDragDrop (dragInfo) ? (DWORD) DROPEFFECT_COPY : (DWORD) DROPEFFECT_NONE; return S_OK; } HWNDComponentPeer& peer; ComponentPeer::DragInfo dragInfo; bool peerIsDeleted = false; private: Point getMousePos (POINTL mousePos) const { const auto originalPos = pointFromPOINT ({ mousePos.x, mousePos.y }); const auto logicalPos = convertPhysicalScreenPointToLogical (originalPos, peer.hwnd); return ScalingHelpers::screenPosToLocalPos (peer.component, logicalPos.toFloat()); } struct DroppedData { DroppedData (IDataObject* dataObject, CLIPFORMAT type) { FORMATETC format = { type, nullptr, DVASPECT_CONTENT, -1, TYMED_HGLOBAL }; if (SUCCEEDED (error = dataObject->GetData (&format, &medium)) && medium.hGlobal != nullptr) { dataSize = GlobalSize (medium.hGlobal); data = GlobalLock (medium.hGlobal); } } ~DroppedData() { if (data != nullptr && medium.hGlobal != nullptr) GlobalUnlock (medium.hGlobal); } HRESULT error; STGMEDIUM medium { TYMED_HGLOBAL, { nullptr }, nullptr }; void* data = {}; SIZE_T dataSize; }; void parseFileList (HDROP dropFiles) { dragInfo.files.clearQuick(); std::vector nameBuffer; const auto numFiles = DragQueryFile (dropFiles, ~(UINT) 0, nullptr, 0); for (UINT i = 0; i < numFiles; ++i) { const auto bufferSize = DragQueryFile (dropFiles, i, nullptr, 0); nameBuffer.clear(); nameBuffer.resize (bufferSize + 1, 0); // + 1 for the null terminator const auto readCharacters = DragQueryFile (dropFiles, i, nameBuffer.data(), (UINT) nameBuffer.size()); ignoreUnused (readCharacters); jassert (readCharacters == bufferSize); dragInfo.files.add (String (nameBuffer.data())); } } HRESULT updateFileList (IDataObject* const dataObject) { if (peerIsDeleted) return S_FALSE; dragInfo.clear(); { DroppedData fileData (dataObject, CF_HDROP); if (SUCCEEDED (fileData.error)) { parseFileList (static_cast (fileData.data)); return S_OK; } } DroppedData textData (dataObject, CF_UNICODETEXT); if (SUCCEEDED (textData.error)) { dragInfo.text = String (CharPointer_UTF16 ((const WCHAR*) textData.data), CharPointer_UTF16 ((const WCHAR*) addBytesToPointer (textData.data, textData.dataSize))); return S_OK; } return textData.error; } JUCE_DECLARE_NON_COPYABLE (FileDropTarget) }; static bool offerKeyMessageToJUCEWindow (MSG& m) { if (m.message == WM_KEYDOWN || m.message == WM_KEYUP) { if (Component::getCurrentlyFocusedComponent() != nullptr) { if (auto* peer = getOwnerOfWindow (m.hwnd)) { ScopedThreadDPIAwarenessSetter threadDpiAwarenessSetter { m.hwnd }; return m.message == WM_KEYDOWN ? peer->doKeyDown (m.wParam) : peer->doKeyUp (m.wParam); } } } return false; } double getPlatformScaleFactor() const noexcept override { #if ! JUCE_WIN_PER_MONITOR_DPI_AWARE return 1.0; #else if (! isPerMonitorDPIAwareWindow (hwnd)) return 1.0; if (auto* parentHWND = GetParent (hwnd)) { if (auto* parentPeer = getOwnerOfWindow (parentHWND)) return parentPeer->getPlatformScaleFactor(); if (getDPIForWindow != nullptr) return getScaleFactorForWindow (parentHWND); } return scaleFactor; #endif } private: HWND hwnd, parentToAddTo; std::unique_ptr shadower; RenderingEngineType currentRenderingEngine; #if JUCE_DIRECT2D std::unique_ptr direct2DContext; #endif uint32 lastPaintTime = 0; ULONGLONG lastMagnifySize = 0; bool fullScreen = false, isDragging = false, isMouseOver = false, hasCreatedCaret = false, constrainerIsResizing = false; BorderSize windowBorder; HICON currentWindowIcon = nullptr; FileDropTarget* dropTarget = nullptr; uint8 updateLayeredWindowAlpha = 255; UWPUIViewSettings uwpViewSettings; #if JUCE_MODULE_AVAILABLE_juce_audio_plugin_client ModifierKeyProvider* modProvider = nullptr; #endif double scaleFactor = 1.0; bool inDpiChange = 0, inHandlePositionChanged = 0; HMONITOR currentMonitor = nullptr; bool isAccessibilityActive = false; //============================================================================== static MultiTouchMapper currentTouches; //============================================================================== struct TemporaryImage : private Timer { TemporaryImage() {} Image& getImage (bool transparent, int w, int h) { auto format = transparent ? Image::ARGB : Image::RGB; if ((! image.isValid()) || image.getWidth() < w || image.getHeight() < h || image.getFormat() != format) image = Image (new WindowsBitmapImage (format, (w + 31) & ~31, (h + 31) & ~31, false)); startTimer (3000); return image; } void timerCallback() override { stopTimer(); image = {}; } private: Image image; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (TemporaryImage) }; TemporaryImage offscreenImageGenerator; //============================================================================== class WindowClassHolder : private DeletedAtShutdown { public: WindowClassHolder() { // this name has to be different for each app/dll instance because otherwise poor old Windows can // get a bit confused (even despite it not being a process-global window class). String windowClassName ("JUCE_"); windowClassName << String::toHexString (Time::currentTimeMillis()); auto moduleHandle = (HINSTANCE) Process::getCurrentModuleInstanceHandle(); TCHAR moduleFile[1024] = {}; GetModuleFileName (moduleHandle, moduleFile, 1024); WORD iconNum = 0; WNDCLASSEX wcex = {}; wcex.cbSize = sizeof (wcex); wcex.style = CS_OWNDC; wcex.lpfnWndProc = (WNDPROC) windowProc; wcex.lpszClassName = windowClassName.toWideCharPointer(); wcex.cbWndExtra = 32; wcex.hInstance = moduleHandle; wcex.hIcon = ExtractAssociatedIcon (moduleHandle, moduleFile, &iconNum); iconNum = 1; wcex.hIconSm = ExtractAssociatedIcon (moduleHandle, moduleFile, &iconNum); atom = RegisterClassEx (&wcex); jassert (atom != 0); isEventBlockedByModalComps = checkEventBlockedByModalComps; } ~WindowClassHolder() { if (ComponentPeer::getNumPeers() == 0) UnregisterClass (getWindowClassName(), (HINSTANCE) Process::getCurrentModuleInstanceHandle()); clearSingletonInstance(); } LPCTSTR getWindowClassName() const noexcept { return (LPCTSTR) (pointer_sized_uint) atom; } JUCE_DECLARE_SINGLETON_SINGLETHREADED_MINIMAL (WindowClassHolder) private: ATOM atom; static bool isHWNDBlockedByModalComponents (HWND h) { for (int i = Desktop::getInstance().getNumComponents(); --i >= 0;) if (auto* c = Desktop::getInstance().getComponent (i)) if ((! c->isCurrentlyBlockedByAnotherModalComponent()) && IsChild ((HWND) c->getWindowHandle(), h)) return false; return true; } static bool checkEventBlockedByModalComps (const MSG& m) { if (Component::getNumCurrentlyModalComponents() == 0 || JuceWindowIdentifier::isJUCEWindow (m.hwnd)) return false; switch (m.message) { case WM_MOUSEMOVE: case WM_NCMOUSEMOVE: case 0x020A: /* WM_MOUSEWHEEL */ case 0x020E: /* WM_MOUSEHWHEEL */ case WM_KEYUP: case WM_SYSKEYUP: case WM_CHAR: case WM_APPCOMMAND: case WM_LBUTTONUP: case WM_MBUTTONUP: case WM_RBUTTONUP: case WM_MOUSEACTIVATE: case WM_NCMOUSEHOVER: case WM_MOUSEHOVER: case WM_TOUCH: case WM_POINTERUPDATE: case WM_NCPOINTERUPDATE: case WM_POINTERWHEEL: case WM_POINTERHWHEEL: case WM_POINTERUP: case WM_POINTERACTIVATE: return isHWNDBlockedByModalComponents(m.hwnd); case WM_NCLBUTTONDOWN: case WM_NCLBUTTONDBLCLK: case WM_NCRBUTTONDOWN: case WM_NCRBUTTONDBLCLK: case WM_NCMBUTTONDOWN: case WM_NCMBUTTONDBLCLK: case WM_LBUTTONDOWN: case WM_LBUTTONDBLCLK: case WM_MBUTTONDOWN: case WM_MBUTTONDBLCLK: case WM_RBUTTONDOWN: case WM_RBUTTONDBLCLK: case WM_KEYDOWN: case WM_SYSKEYDOWN: case WM_NCPOINTERDOWN: case WM_POINTERDOWN: if (isHWNDBlockedByModalComponents (m.hwnd)) { if (auto* modal = Component::getCurrentlyModalComponent (0)) modal->inputAttemptWhenModal(); return true; } break; default: break; } return false; } JUCE_DECLARE_NON_COPYABLE (WindowClassHolder) }; //============================================================================== static void* createWindowCallback (void* userData) { static_cast (userData)->createWindow(); return nullptr; } void createWindow() { DWORD exstyle = 0; DWORD type = WS_CLIPSIBLINGS | WS_CLIPCHILDREN; if (hasTitleBar()) { type |= WS_OVERLAPPED; if ((styleFlags & windowHasCloseButton) != 0) { type |= WS_SYSMENU; } else { // annoyingly, windows won't let you have a min/max button without a close button jassert ((styleFlags & (windowHasMinimiseButton | windowHasMaximiseButton)) == 0); } if ((styleFlags & windowIsResizable) != 0) type |= WS_THICKFRAME; } else if (parentToAddTo != nullptr) { type |= WS_CHILD; } else { type |= WS_POPUP | WS_SYSMENU; } if ((styleFlags & windowAppearsOnTaskbar) == 0) exstyle |= WS_EX_TOOLWINDOW; else exstyle |= WS_EX_APPWINDOW; if ((styleFlags & windowHasMinimiseButton) != 0) type |= WS_MINIMIZEBOX; if ((styleFlags & windowHasMaximiseButton) != 0) type |= WS_MAXIMIZEBOX; if ((styleFlags & windowIgnoresMouseClicks) != 0) exstyle |= WS_EX_TRANSPARENT; if ((styleFlags & windowIsSemiTransparent) != 0) exstyle |= WS_EX_LAYERED; hwnd = CreateWindowEx (exstyle, WindowClassHolder::getInstance()->getWindowClassName(), L"", type, 0, 0, 0, 0, parentToAddTo, nullptr, (HINSTANCE) Process::getCurrentModuleInstanceHandle(), nullptr); #if JUCE_DEBUG // The DPI-awareness context of this window and JUCE's hidden message window are different. // You normally want these to match otherwise timer events and async messages will happen // in a different context to normal HWND messages which can cause issues with UI scaling. jassert (isPerMonitorDPIAwareWindow (hwnd) == isPerMonitorDPIAwareWindow (juce_messageWindowHandle) || isInScopedDPIAwarenessDisabler()); #endif if (hwnd != nullptr) { SetWindowLongPtr (hwnd, 0, 0); SetWindowLongPtr (hwnd, 8, (LONG_PTR) this); JuceWindowIdentifier::setAsJUCEWindow (hwnd, true); if (dropTarget == nullptr) { HWNDComponentPeer* peer = nullptr; if (dontRepaint) peer = getOwnerOfWindow (parentToAddTo); if (peer == nullptr) peer = this; dropTarget = new FileDropTarget (*peer); } RegisterDragDrop (hwnd, dropTarget); if (canUseMultiTouch()) registerTouchWindow (hwnd, 0); setDPIAwareness(); if (isPerMonitorDPIAwareThread()) scaleFactor = getScaleFactorForWindow (hwnd); setMessageFilter(); updateBorderSize(); checkForPointerAPI(); // This is needed so that our plugin window gets notified of WM_SETTINGCHANGE messages // and can respond to display scale changes if (! JUCEApplication::isStandaloneApp()) settingChangeCallback = ComponentPeer::forceDisplayUpdate; // Calling this function here is (for some reason) necessary to make Windows // correctly enable the menu items that we specify in the wm_initmenu message. GetSystemMenu (hwnd, false); auto alpha = component.getAlpha(); if (alpha < 1.0f) setAlpha (alpha); } else { TCHAR messageBuffer[256] = {}; FormatMessage (FORMAT_MESSAGE_FROM_SYSTEM | FORMAT_MESSAGE_IGNORE_INSERTS, nullptr, GetLastError(), MAKELANGID (LANG_NEUTRAL, SUBLANG_DEFAULT), messageBuffer, (DWORD) numElementsInArray (messageBuffer) - 1, nullptr); DBG (messageBuffer); jassertfalse; } } static BOOL CALLBACK revokeChildDragDropCallback (HWND hwnd, LPARAM) { RevokeDragDrop (hwnd); return TRUE; } static void* destroyWindowCallback (void* handle) { auto hwnd = reinterpret_cast (handle); if (IsWindow (hwnd)) { RevokeDragDrop (hwnd); // NB: we need to do this before DestroyWindow() as child HWNDs will be invalid after EnumChildWindows (hwnd, revokeChildDragDropCallback, 0); DestroyWindow (hwnd); } return nullptr; } static void* toFrontCallback1 (void* h) { BringWindowToTop ((HWND) h); return nullptr; } static void* toFrontCallback2 (void* h) { setWindowZOrder ((HWND) h, HWND_TOP); return nullptr; } static void* setFocusCallback (void* h) { SetFocus ((HWND) h); return nullptr; } static void* getFocusCallback (void*) { return GetFocus(); } bool isUsingUpdateLayeredWindow() const { return ! component.isOpaque(); } bool hasTitleBar() const noexcept { return (styleFlags & windowHasTitleBar) != 0; } void updateShadower() { if (! component.isCurrentlyModal() && (styleFlags & windowHasDropShadow) != 0 && ((! hasTitleBar()) || SystemStats::getOperatingSystemType() < SystemStats::WinVista)) { shadower = component.getLookAndFeel().createDropShadowerForComponent (component); if (shadower != nullptr) shadower->setOwner (&component); } } void setIcon (const Image& newIcon) override { if (auto hicon = IconConverters::createHICONFromImage (newIcon, TRUE, 0, 0)) { SendMessage (hwnd, WM_SETICON, ICON_BIG, (LPARAM) hicon); SendMessage (hwnd, WM_SETICON, ICON_SMALL, (LPARAM) hicon); if (currentWindowIcon != nullptr) DestroyIcon (currentWindowIcon); currentWindowIcon = hicon; } } void setMessageFilter() { using ChangeWindowMessageFilterExFunc = BOOL (WINAPI*) (HWND, UINT, DWORD, PVOID); if (auto changeMessageFilter = (ChangeWindowMessageFilterExFunc) getUser32Function ("ChangeWindowMessageFilterEx")) { changeMessageFilter (hwnd, WM_DROPFILES, 1 /*MSGFLT_ALLOW*/, nullptr); changeMessageFilter (hwnd, WM_COPYDATA, 1 /*MSGFLT_ALLOW*/, nullptr); changeMessageFilter (hwnd, 0x49, 1 /*MSGFLT_ALLOW*/, nullptr); } } struct ChildWindowClippingInfo { HDC dc; HWNDComponentPeer* peer; RectangleList* clip; Point origin; int savedDC; }; static BOOL CALLBACK clipChildWindowCallback (HWND hwnd, LPARAM context) { if (IsWindowVisible (hwnd)) { auto& info = *(ChildWindowClippingInfo*) context; if (GetParent (hwnd) == info.peer->hwnd) { auto clip = rectangleFromRECT (getWindowClientRect (hwnd)); info.clip->subtract (clip - info.origin); if (info.savedDC == 0) info.savedDC = SaveDC (info.dc); ExcludeClipRect (info.dc, clip.getX(), clip.getY(), clip.getRight(), clip.getBottom()); } } return TRUE; } //============================================================================== void handlePaintMessage() { #if JUCE_DIRECT2D if (direct2DContext != nullptr) { RECT r; if (GetUpdateRect (hwnd, &r, false)) { direct2DContext->start(); direct2DContext->clipToRectangle (convertPhysicalScreenRectangleToLogical (rectangleFromRECT (r), hwnd)); handlePaint (*direct2DContext); direct2DContext->end(); ValidateRect (hwnd, &r); } } else #endif { HRGN rgn = CreateRectRgn (0, 0, 0, 0); const int regionType = GetUpdateRgn (hwnd, rgn, false); PAINTSTRUCT paintStruct; HDC dc = BeginPaint (hwnd, &paintStruct); // Note this can immediately generate a WM_NCPAINT // message and become re-entrant, but that's OK // if something in a paint handler calls, e.g. a message box, this can become reentrant and // corrupt the image it's using to paint into, so do a check here. static bool reentrant = false; if (! reentrant) { const ScopedValueSetter setter (reentrant, true, false); if (dontRepaint) component.handleCommandMessage (0); // (this triggers a repaint in the openGL context) else performPaint (dc, rgn, regionType, paintStruct); } DeleteObject (rgn); EndPaint (hwnd, &paintStruct); #if JUCE_MSVC _fpreset(); // because some graphics cards can unmask FP exceptions #endif } lastPaintTime = Time::getMillisecondCounter(); } void performPaint (HDC dc, HRGN rgn, int regionType, PAINTSTRUCT& paintStruct) { int x = paintStruct.rcPaint.left; int y = paintStruct.rcPaint.top; int w = paintStruct.rcPaint.right - x; int h = paintStruct.rcPaint.bottom - y; const bool transparent = isUsingUpdateLayeredWindow(); if (transparent) { // it's not possible to have a transparent window with a title bar at the moment! jassert (! hasTitleBar()); auto r = getWindowScreenRect (hwnd); x = y = 0; w = r.right - r.left; h = r.bottom - r.top; } if (w > 0 && h > 0) { Image& offscreenImage = offscreenImageGenerator.getImage (transparent, w, h); RectangleList contextClip; const Rectangle clipBounds (w, h); bool needToPaintAll = true; if (regionType == COMPLEXREGION && ! transparent) { HRGN clipRgn = CreateRectRgnIndirect (&paintStruct.rcPaint); CombineRgn (rgn, rgn, clipRgn, RGN_AND); DeleteObject (clipRgn); std::aligned_storage<8192, alignof (RGNDATA)>::type rgnData; const DWORD res = GetRegionData (rgn, sizeof (rgnData), (RGNDATA*) &rgnData); if (res > 0 && res <= sizeof (rgnData)) { const RGNDATAHEADER* const hdr = &(((const RGNDATA*) &rgnData)->rdh); if (hdr->iType == RDH_RECTANGLES && hdr->rcBound.right - hdr->rcBound.left >= w && hdr->rcBound.bottom - hdr->rcBound.top >= h) { needToPaintAll = false; auto rects = unalignedPointerCast ((char*) &rgnData + sizeof (RGNDATAHEADER)); for (int i = (int) ((RGNDATA*) &rgnData)->rdh.nCount; --i >= 0;) { if (rects->right <= x + w && rects->bottom <= y + h) { const int cx = jmax (x, (int) rects->left); contextClip.addWithoutMerging (Rectangle (cx - x, rects->top - y, rects->right - cx, rects->bottom - rects->top) .getIntersection (clipBounds)); } else { needToPaintAll = true; break; } ++rects; } } } } if (needToPaintAll) { contextClip.clear(); contextClip.addWithoutMerging (Rectangle (w, h)); } ChildWindowClippingInfo childClipInfo = { dc, this, &contextClip, Point (x, y), 0 }; EnumChildWindows (hwnd, clipChildWindowCallback, (LPARAM) &childClipInfo); if (! contextClip.isEmpty()) { if (transparent) for (auto& i : contextClip) offscreenImage.clear (i); { auto context = component.getLookAndFeel() .createGraphicsContext (offscreenImage, { -x, -y }, contextClip); context->addTransform (AffineTransform::scale ((float) getPlatformScaleFactor())); handlePaint (*context); } static_cast (offscreenImage.getPixelData()) ->blitToWindow (hwnd, dc, transparent, x, y, updateLayeredWindowAlpha); } if (childClipInfo.savedDC != 0) RestoreDC (dc, childClipInfo.savedDC); } } //============================================================================== void doMouseEvent (Point position, float pressure, float orientation = 0.0f, ModifierKeys mods = ModifierKeys::currentModifiers) { handleMouseEvent (MouseInputSource::InputSourceType::mouse, position, mods, pressure, orientation, getMouseEventTime()); } StringArray getAvailableRenderingEngines() override { StringArray s ("Software Renderer"); #if JUCE_DIRECT2D if (SystemStats::getOperatingSystemType() >= SystemStats::Windows7) s.add ("Direct2D"); #endif return s; } int getCurrentRenderingEngine() const override { return currentRenderingEngine; } #if JUCE_DIRECT2D void updateDirect2DContext() { if (currentRenderingEngine != direct2DRenderingEngine) direct2DContext = nullptr; else if (direct2DContext == nullptr) direct2DContext.reset (new Direct2DLowLevelGraphicsContext (hwnd)); } #endif void setCurrentRenderingEngine (int index) override { ignoreUnused (index); #if JUCE_DIRECT2D if (getAvailableRenderingEngines().size() > 1) { currentRenderingEngine = index == 1 ? direct2DRenderingEngine : softwareRenderingEngine; updateDirect2DContext(); repaint (component.getLocalBounds()); } #endif } static uint32 getMinTimeBetweenMouseMoves() { if (SystemStats::getOperatingSystemType() >= SystemStats::WinVista) return 0; return 1000 / 60; // Throttling the incoming mouse-events seems to still be needed in XP.. } bool isTouchEvent() noexcept { if (registerTouchWindow == nullptr) return false; // Relevant info about touch/pen detection flags: // https://msdn.microsoft.com/en-us/library/windows/desktop/ms703320(v=vs.85).aspx // http://www.petertissen.de/?p=4 return ((uint32_t) GetMessageExtraInfo() & 0xFFFFFF80 /*SIGNATURE_MASK*/) == 0xFF515780 /*MI_WP_SIGNATURE*/; } static bool areOtherTouchSourcesActive() { for (auto& ms : Desktop::getInstance().getMouseSources()) if (ms.isDragging() && (ms.getType() == MouseInputSource::InputSourceType::touch || ms.getType() == MouseInputSource::InputSourceType::pen)) return true; return false; } void doMouseMove (Point position, bool isMouseDownEvent) { ModifierKeys modsToSend (ModifierKeys::currentModifiers); // this will be handled by WM_TOUCH if (isTouchEvent() || areOtherTouchSourcesActive()) return; if (! isMouseOver) { isMouseOver = true; // This avoids a rare stuck-button problem when focus is lost unexpectedly, but must // not be called as part of a move, in case it's actually a mouse-drag from another // app which ends up here when we get focus before the mouse is released.. if (isMouseDownEvent && getNativeRealtimeModifiers != nullptr) getNativeRealtimeModifiers(); updateKeyModifiers(); #if JUCE_MODULE_AVAILABLE_juce_audio_plugin_client if (modProvider != nullptr) ModifierKeys::currentModifiers = ModifierKeys::currentModifiers.withFlags (modProvider->getWin32Modifiers()); #endif TRACKMOUSEEVENT tme; tme.cbSize = sizeof (tme); tme.dwFlags = TME_LEAVE; tme.hwndTrack = hwnd; tme.dwHoverTime = 0; if (! TrackMouseEvent (&tme)) jassertfalse; Desktop::getInstance().getMainMouseSource().forceMouseCursorUpdate(); } else if (! isDragging) { if (! contains (position.roundToInt(), false)) return; } static uint32 lastMouseTime = 0; static auto minTimeBetweenMouses = getMinTimeBetweenMouseMoves(); auto now = Time::getMillisecondCounter(); if (! Desktop::getInstance().getMainMouseSource().isDragging()) modsToSend = modsToSend.withoutMouseButtons(); if (now >= lastMouseTime + minTimeBetweenMouses) { lastMouseTime = now; doMouseEvent (position, MouseInputSource::defaultPressure, MouseInputSource::defaultOrientation, modsToSend); } } void doMouseDown (Point position, const WPARAM wParam) { // this will be handled by WM_TOUCH if (isTouchEvent() || areOtherTouchSourcesActive()) return; if (GetCapture() != hwnd) SetCapture (hwnd); doMouseMove (position, true); if (isValidPeer (this)) { updateModifiersFromWParam (wParam); #if JUCE_MODULE_AVAILABLE_juce_audio_plugin_client if (modProvider != nullptr) ModifierKeys::currentModifiers = ModifierKeys::currentModifiers.withFlags (modProvider->getWin32Modifiers()); #endif isDragging = true; doMouseEvent (position, MouseInputSource::defaultPressure); } } void doMouseUp (Point position, const WPARAM wParam) { // this will be handled by WM_TOUCH if (isTouchEvent() || areOtherTouchSourcesActive()) return; updateModifiersFromWParam (wParam); #if JUCE_MODULE_AVAILABLE_juce_audio_plugin_client if (modProvider != nullptr) ModifierKeys::currentModifiers = ModifierKeys::currentModifiers.withFlags (modProvider->getWin32Modifiers()); #endif const bool wasDragging = isDragging; isDragging = false; // release the mouse capture if the user has released all buttons if ((wParam & (MK_LBUTTON | MK_RBUTTON | MK_MBUTTON)) == 0 && hwnd == GetCapture()) ReleaseCapture(); // NB: under some circumstances (e.g. double-clicking a native title bar), a mouse-up can // arrive without a mouse-down, so in that case we need to avoid sending a message. if (wasDragging) doMouseEvent (position, MouseInputSource::defaultPressure); } void doCaptureChanged() { if (constrainerIsResizing) { if (constrainer != nullptr) constrainer->resizeEnd(); constrainerIsResizing = false; } if (isDragging) doMouseUp (getCurrentMousePos(), (WPARAM) 0); } void doMouseExit() { isMouseOver = false; if (! areOtherTouchSourcesActive()) doMouseEvent (getCurrentMousePos(), MouseInputSource::defaultPressure); } ComponentPeer* findPeerUnderMouse (Point& localPos) { auto currentMousePos = getPOINTFromLParam ((LPARAM) GetMessagePos()); // Because Windows stupidly sends all wheel events to the window with the keyboard // focus, we have to redirect them here according to the mouse pos.. auto* peer = getOwnerOfWindow (WindowFromPoint (currentMousePos)); if (peer == nullptr) peer = this; localPos = peer->globalToLocal (convertPhysicalScreenPointToLogical (pointFromPOINT (currentMousePos), hwnd).toFloat()); return peer; } static MouseInputSource::InputSourceType getPointerType (WPARAM wParam) { if (getPointerTypeFunction != nullptr) { POINTER_INPUT_TYPE pointerType; if (getPointerTypeFunction (GET_POINTERID_WPARAM (wParam), &pointerType)) { if (pointerType == 2) return MouseInputSource::InputSourceType::touch; if (pointerType == 3) return MouseInputSource::InputSourceType::pen; } } return MouseInputSource::InputSourceType::mouse; } void doMouseWheel (const WPARAM wParam, const bool isVertical) { updateKeyModifiers(); const float amount = jlimit (-1000.0f, 1000.0f, 0.5f * (short) HIWORD (wParam)); MouseWheelDetails wheel; wheel.deltaX = isVertical ? 0.0f : amount / -256.0f; wheel.deltaY = isVertical ? amount / 256.0f : 0.0f; wheel.isReversed = false; wheel.isSmooth = false; wheel.isInertial = false; Point localPos; if (auto* peer = findPeerUnderMouse (localPos)) peer->handleMouseWheel (getPointerType (wParam), localPos, getMouseEventTime(), wheel); } bool doGestureEvent (LPARAM lParam) { GESTUREINFO gi; zerostruct (gi); gi.cbSize = sizeof (gi); if (getGestureInfo != nullptr && getGestureInfo ((HGESTUREINFO) lParam, &gi)) { updateKeyModifiers(); Point localPos; if (auto* peer = findPeerUnderMouse (localPos)) { switch (gi.dwID) { case 3: /*GID_ZOOM*/ if (gi.dwFlags != 1 /*GF_BEGIN*/ && lastMagnifySize > 0) peer->handleMagnifyGesture (MouseInputSource::InputSourceType::touch, localPos, getMouseEventTime(), (float) ((double) gi.ullArguments / (double) lastMagnifySize)); lastMagnifySize = gi.ullArguments; return true; case 4: /*GID_PAN*/ case 5: /*GID_ROTATE*/ case 6: /*GID_TWOFINGERTAP*/ case 7: /*GID_PRESSANDTAP*/ default: break; } } } return false; } LRESULT doTouchEvent (const int numInputs, HTOUCHINPUT eventHandle) { if ((styleFlags & windowIgnoresMouseClicks) != 0) if (auto* parent = getOwnerOfWindow (GetParent (hwnd))) if (parent != this) return parent->doTouchEvent (numInputs, eventHandle); HeapBlock inputInfo (numInputs); if (getTouchInputInfo (eventHandle, (UINT) numInputs, inputInfo, sizeof (TOUCHINPUT))) { for (int i = 0; i < numInputs; ++i) { auto flags = inputInfo[i].dwFlags; if ((flags & (TOUCHEVENTF_DOWN | TOUCHEVENTF_MOVE | TOUCHEVENTF_UP)) != 0) if (! handleTouchInput (inputInfo[i], (flags & TOUCHEVENTF_DOWN) != 0, (flags & TOUCHEVENTF_UP) != 0)) return 0; // abandon method if this window was deleted by the callback } } closeTouchInputHandle (eventHandle); return 0; } bool handleTouchInput (const TOUCHINPUT& touch, const bool isDown, const bool isUp, const float touchPressure = MouseInputSource::defaultPressure, const float orientation = 0.0f) { auto isCancel = false; const auto touchIndex = currentTouches.getIndexOfTouch (this, touch.dwID); const auto time = getMouseEventTime(); const auto pos = globalToLocal (convertPhysicalScreenPointToLogical (pointFromPOINT ({ roundToInt (touch.x / 100.0f), roundToInt (touch.y / 100.0f) }), hwnd).toFloat()); const auto pressure = touchPressure; auto modsToSend = ModifierKeys::currentModifiers; if (isDown) { ModifierKeys::currentModifiers = ModifierKeys::currentModifiers.withoutMouseButtons().withFlags (ModifierKeys::leftButtonModifier); modsToSend = ModifierKeys::currentModifiers; // this forces a mouse-enter/up event, in case for some reason we didn't get a mouse-up before. handleMouseEvent (MouseInputSource::InputSourceType::touch, pos, modsToSend.withoutMouseButtons(), pressure, orientation, time, {}, touchIndex); if (! isValidPeer (this)) // (in case this component was deleted by the event) return false; } else if (isUp) { modsToSend = modsToSend.withoutMouseButtons(); ModifierKeys::currentModifiers = modsToSend; currentTouches.clearTouch (touchIndex); if (! currentTouches.areAnyTouchesActive()) isCancel = true; } else { modsToSend = ModifierKeys::currentModifiers.withoutMouseButtons().withFlags (ModifierKeys::leftButtonModifier); } handleMouseEvent (MouseInputSource::InputSourceType::touch, pos, modsToSend, pressure, orientation, time, {}, touchIndex); if (! isValidPeer (this)) return false; if (isUp) { handleMouseEvent (MouseInputSource::InputSourceType::touch, MouseInputSource::offscreenMousePos, ModifierKeys::currentModifiers.withoutMouseButtons(), pressure, orientation, time, {}, touchIndex); if (! isValidPeer (this)) return false; if (isCancel) { currentTouches.clear(); ModifierKeys::currentModifiers = ModifierKeys::currentModifiers.withoutMouseButtons(); } } return true; } bool handlePointerInput (WPARAM wParam, LPARAM lParam, const bool isDown, const bool isUp) { if (! canUsePointerAPI) return false; auto pointerType = getPointerType (wParam); if (pointerType == MouseInputSource::InputSourceType::touch) { POINTER_TOUCH_INFO touchInfo; if (! getPointerTouchInfo (GET_POINTERID_WPARAM (wParam), &touchInfo)) return false; const auto pressure = touchInfo.touchMask & TOUCH_MASK_PRESSURE ? static_cast (touchInfo.pressure) : MouseInputSource::defaultPressure; const auto orientation = touchInfo.touchMask & TOUCH_MASK_ORIENTATION ? degreesToRadians (static_cast (touchInfo.orientation)) : MouseInputSource::defaultOrientation; if (! handleTouchInput (emulateTouchEventFromPointer (touchInfo.pointerInfo.ptPixelLocationRaw, wParam), isDown, isUp, pressure, orientation)) return false; } else if (pointerType == MouseInputSource::InputSourceType::pen) { POINTER_PEN_INFO penInfo; if (! getPointerPenInfo (GET_POINTERID_WPARAM (wParam), &penInfo)) return false; const auto pressure = (penInfo.penMask & PEN_MASK_PRESSURE) ? (float) penInfo.pressure / 1024.0f : MouseInputSource::defaultPressure; if (! handlePenInput (penInfo, globalToLocal (convertPhysicalScreenPointToLogical (pointFromPOINT (getPOINTFromLParam (lParam)), hwnd).toFloat()), pressure, isDown, isUp)) return false; } else { return false; } return true; } TOUCHINPUT emulateTouchEventFromPointer (POINT p, WPARAM wParam) { TOUCHINPUT touchInput; touchInput.dwID = GET_POINTERID_WPARAM (wParam); touchInput.x = p.x * 100; touchInput.y = p.y * 100; return touchInput; } bool handlePenInput (POINTER_PEN_INFO penInfo, Point pos, const float pressure, bool isDown, bool isUp) { const auto time = getMouseEventTime(); ModifierKeys modsToSend (ModifierKeys::currentModifiers); PenDetails penDetails; penDetails.rotation = (penInfo.penMask & PEN_MASK_ROTATION) ? degreesToRadians (static_cast (penInfo.rotation)) : MouseInputSource::defaultRotation; penDetails.tiltX = (penInfo.penMask & PEN_MASK_TILT_X) ? (float) penInfo.tiltX / 90.0f : MouseInputSource::defaultTiltX; penDetails.tiltY = (penInfo.penMask & PEN_MASK_TILT_Y) ? (float) penInfo.tiltY / 90.0f : MouseInputSource::defaultTiltY; auto pInfoFlags = penInfo.pointerInfo.pointerFlags; if ((pInfoFlags & POINTER_FLAG_FIRSTBUTTON) != 0) ModifierKeys::currentModifiers = ModifierKeys::currentModifiers.withoutMouseButtons().withFlags (ModifierKeys::leftButtonModifier); else if ((pInfoFlags & POINTER_FLAG_SECONDBUTTON) != 0) ModifierKeys::currentModifiers = ModifierKeys::currentModifiers.withoutMouseButtons().withFlags (ModifierKeys::rightButtonModifier); if (isDown) { modsToSend = ModifierKeys::currentModifiers; // this forces a mouse-enter/up event, in case for some reason we didn't get a mouse-up before. handleMouseEvent (MouseInputSource::InputSourceType::pen, pos, modsToSend.withoutMouseButtons(), pressure, MouseInputSource::defaultOrientation, time, penDetails); if (! isValidPeer (this)) // (in case this component was deleted by the event) return false; } else if (isUp || ! (pInfoFlags & POINTER_FLAG_INCONTACT)) { modsToSend = modsToSend.withoutMouseButtons(); ModifierKeys::currentModifiers = ModifierKeys::currentModifiers.withoutMouseButtons(); } handleMouseEvent (MouseInputSource::InputSourceType::pen, pos, modsToSend, pressure, MouseInputSource::defaultOrientation, time, penDetails); if (! isValidPeer (this)) // (in case this component was deleted by the event) return false; if (isUp) { handleMouseEvent (MouseInputSource::InputSourceType::pen, MouseInputSource::offscreenMousePos, ModifierKeys::currentModifiers, pressure, MouseInputSource::defaultOrientation, time, penDetails); if (! isValidPeer (this)) return false; } return true; } //============================================================================== void sendModifierKeyChangeIfNeeded() { if (modifiersAtLastCallback != ModifierKeys::currentModifiers) { modifiersAtLastCallback = ModifierKeys::currentModifiers; handleModifierKeysChange(); } } bool doKeyUp (const WPARAM key) { updateKeyModifiers(); switch (key) { case VK_SHIFT: case VK_CONTROL: case VK_MENU: case VK_CAPITAL: case VK_LWIN: case VK_RWIN: case VK_APPS: case VK_NUMLOCK: case VK_SCROLL: case VK_LSHIFT: case VK_RSHIFT: case VK_LCONTROL: case VK_LMENU: case VK_RCONTROL: case VK_RMENU: sendModifierKeyChangeIfNeeded(); } return handleKeyUpOrDown (false) || Component::getCurrentlyModalComponent() != nullptr; } bool doKeyDown (const WPARAM key) { updateKeyModifiers(); bool used = false; switch (key) { case VK_SHIFT: case VK_LSHIFT: case VK_RSHIFT: case VK_CONTROL: case VK_LCONTROL: case VK_RCONTROL: case VK_MENU: case VK_LMENU: case VK_RMENU: case VK_LWIN: case VK_RWIN: case VK_CAPITAL: case VK_NUMLOCK: case VK_SCROLL: case VK_APPS: used = handleKeyUpOrDown (true); sendModifierKeyChangeIfNeeded(); break; case VK_LEFT: case VK_RIGHT: case VK_UP: case VK_DOWN: case VK_PRIOR: case VK_NEXT: case VK_HOME: case VK_END: case VK_DELETE: case VK_INSERT: case VK_F1: case VK_F2: case VK_F3: case VK_F4: case VK_F5: case VK_F6: case VK_F7: case VK_F8: case VK_F9: case VK_F10: case VK_F11: case VK_F12: case VK_F13: case VK_F14: case VK_F15: case VK_F16: case VK_F17: case VK_F18: case VK_F19: case VK_F20: case VK_F21: case VK_F22: case VK_F23: case VK_F24: used = handleKeyUpOrDown (true); used = handleKeyPress (extendedKeyModifier | (int) key, 0) || used; break; default: used = handleKeyUpOrDown (true); { MSG msg; if (! PeekMessage (&msg, hwnd, WM_CHAR, WM_DEADCHAR, PM_NOREMOVE)) { // if there isn't a WM_CHAR or WM_DEADCHAR message pending, we need to // manually generate the key-press event that matches this key-down. const UINT keyChar = MapVirtualKey ((UINT) key, 2); const UINT scanCode = MapVirtualKey ((UINT) key, 0); BYTE keyState[256]; ignoreUnused (GetKeyboardState (keyState)); WCHAR text[16] = { 0 }; if (ToUnicode ((UINT) key, scanCode, keyState, text, 8, 0) != 1) text[0] = 0; used = handleKeyPress ((int) LOWORD (keyChar), (juce_wchar) text[0]) || used; } } break; } return used || (Component::getCurrentlyModalComponent() != nullptr); } bool doKeyChar (int key, const LPARAM flags) { updateKeyModifiers(); auto textChar = (juce_wchar) key; const int virtualScanCode = (flags >> 16) & 0xff; if (key >= '0' && key <= '9') { switch (virtualScanCode) // check for a numeric keypad scan-code { case 0x52: case 0x4f: case 0x50: case 0x51: case 0x4b: case 0x4c: case 0x4d: case 0x47: case 0x48: case 0x49: key = (key - '0') + KeyPress::numberPad0; break; default: break; } } else { // convert the scan code to an unmodified character code.. const UINT virtualKey = MapVirtualKey ((UINT) virtualScanCode, 1); UINT keyChar = MapVirtualKey (virtualKey, 2); keyChar = LOWORD (keyChar); if (keyChar != 0) key = (int) keyChar; // avoid sending junk text characters for some control-key combinations if (textChar < ' ' && ModifierKeys::currentModifiers.testFlags (ModifierKeys::ctrlModifier | ModifierKeys::altModifier)) textChar = 0; } return handleKeyPress (key, textChar); } void forwardMessageToParent (UINT message, WPARAM wParam, LPARAM lParam) const { if (HWND parentH = GetParent (hwnd)) PostMessage (parentH, message, wParam, lParam); } bool doAppCommand (const LPARAM lParam) { int key = 0; switch (GET_APPCOMMAND_LPARAM (lParam)) { case APPCOMMAND_MEDIA_PLAY_PAUSE: key = KeyPress::playKey; break; case APPCOMMAND_MEDIA_STOP: key = KeyPress::stopKey; break; case APPCOMMAND_MEDIA_NEXTTRACK: key = KeyPress::fastForwardKey; break; case APPCOMMAND_MEDIA_PREVIOUSTRACK: key = KeyPress::rewindKey; break; default: break; } if (key != 0) { updateKeyModifiers(); if (hwnd == GetActiveWindow()) return handleKeyPress (key, 0); } return false; } bool isConstrainedNativeWindow() const { return constrainer != nullptr && (styleFlags & (windowHasTitleBar | windowIsResizable)) == (windowHasTitleBar | windowIsResizable) && ! isKioskMode(); } Rectangle getCurrentScaledBounds() const { return ScalingHelpers::unscaledScreenPosToScaled (component, windowBorder.addedTo (ScalingHelpers::scaledScreenPosToUnscaled (component, component.getBounds()))); } LRESULT handleSizeConstraining (RECT& r, const WPARAM wParam) { if (isConstrainedNativeWindow()) { const auto logicalBounds = convertPhysicalScreenRectangleToLogical (rectangleFromRECT (r).toFloat(), hwnd); auto pos = ScalingHelpers::unscaledScreenPosToScaled (component, logicalBounds).toNearestInt(); const auto original = getCurrentScaledBounds(); constrainer->checkBounds (pos, original, Desktop::getInstance().getDisplays().getTotalBounds (true), wParam == WMSZ_TOP || wParam == WMSZ_TOPLEFT || wParam == WMSZ_TOPRIGHT, wParam == WMSZ_LEFT || wParam == WMSZ_TOPLEFT || wParam == WMSZ_BOTTOMLEFT, wParam == WMSZ_BOTTOM || wParam == WMSZ_BOTTOMLEFT || wParam == WMSZ_BOTTOMRIGHT, wParam == WMSZ_RIGHT || wParam == WMSZ_TOPRIGHT || wParam == WMSZ_BOTTOMRIGHT); r = RECTFromRectangle (convertLogicalScreenRectangleToPhysical (ScalingHelpers::scaledScreenPosToUnscaled (component, pos.toFloat()).toNearestInt(), hwnd)); } return TRUE; } LRESULT handlePositionChanging (WINDOWPOS& wp) { if (isConstrainedNativeWindow() && ! isFullScreen()) { if ((wp.flags & (SWP_NOMOVE | SWP_NOSIZE)) != (SWP_NOMOVE | SWP_NOSIZE) && (wp.x > -32000 && wp.y > -32000) && ! Component::isMouseButtonDownAnywhere()) { const auto logicalBounds = convertPhysicalScreenRectangleToLogical (rectangleFromRECT ({ wp.x, wp.y, wp.x + wp.cx, wp.y + wp.cy }).toFloat(), hwnd); auto pos = ScalingHelpers::unscaledScreenPosToScaled (component, logicalBounds).toNearestInt(); const auto original = getCurrentScaledBounds(); constrainer->checkBounds (pos, original, Desktop::getInstance().getDisplays().getTotalBounds (true), pos.getY() != original.getY() && pos.getBottom() == original.getBottom(), pos.getX() != original.getX() && pos.getRight() == original.getRight(), pos.getY() == original.getY() && pos.getBottom() != original.getBottom(), pos.getX() == original.getX() && pos.getRight() != original.getRight()); auto physicalBounds = convertLogicalScreenRectangleToPhysical (ScalingHelpers::scaledScreenPosToUnscaled (component, pos.toFloat()), hwnd); auto getNewPositionIfNotRoundingError = [] (int posIn, float newPos) { return (std::abs ((float) posIn - newPos) >= 1.0f) ? roundToInt (newPos) : posIn; }; wp.x = getNewPositionIfNotRoundingError (wp.x, physicalBounds.getX()); wp.y = getNewPositionIfNotRoundingError (wp.y, physicalBounds.getY()); wp.cx = getNewPositionIfNotRoundingError (wp.cx, physicalBounds.getWidth()); wp.cy = getNewPositionIfNotRoundingError (wp.cy, physicalBounds.getHeight()); } } if (((wp.flags & SWP_SHOWWINDOW) != 0 && ! component.isVisible())) component.setVisible (true); else if (((wp.flags & SWP_HIDEWINDOW) != 0 && component.isVisible())) component.setVisible (false); return 0; } bool updateCurrentMonitor() { auto monitor = MonitorFromWindow (hwnd, MONITOR_DEFAULTTONULL); return std::exchange (currentMonitor, monitor) != monitor; } bool handlePositionChanged() { auto pos = getCurrentMousePos(); if (contains (pos.roundToInt(), false)) { const ScopedValueSetter scope (inHandlePositionChanged, true); if (! areOtherTouchSourcesActive()) doMouseEvent (pos, MouseInputSource::defaultPressure); if (! isValidPeer (this)) return true; } handleMovedOrResized(); if (updateCurrentMonitor()) VBlankDispatcher::getInstance()->updateDisplay (*this, currentMonitor); return ! dontRepaint; // to allow non-accelerated openGL windows to draw themselves correctly. } //============================================================================== LRESULT handleDPIChanging (int newDPI, RECT newRect) { // Sometimes, windows that should not be automatically scaled (secondary windows in plugins) // are sent WM_DPICHANGED. The size suggested by the OS is incorrect for our unscaled // window, so we should ignore it. if (! isPerMonitorDPIAwareWindow (hwnd)) return 0; const auto newScale = (double) newDPI / USER_DEFAULT_SCREEN_DPI; if (approximatelyEqual (scaleFactor, newScale)) return 0; scaleFactor = newScale; { const ScopedValueSetter setter (inDpiChange, true); SetWindowPos (hwnd, nullptr, newRect.left, newRect.top, newRect.right - newRect.left, newRect.bottom - newRect.top, SWP_NOZORDER | SWP_NOACTIVATE); } // This is to handle reentrancy. If responding to a DPI change triggers further DPI changes, // we should only notify listeners and resize windows once all of the DPI changes have // resolved. if (inDpiChange) { // Danger! Re-entrant call to handleDPIChanging. // Please report this issue on the JUCE forum, along with instructions // so that a JUCE developer can reproduce the issue. jassertfalse; return 0; } updateShadower(); InvalidateRect (hwnd, nullptr, FALSE); scaleFactorListeners.call ([this] (ScaleFactorListener& l) { l.nativeScaleFactorChanged (scaleFactor); }); return 0; } //============================================================================== void handleAppActivation (const WPARAM wParam) { modifiersAtLastCallback = -1; updateKeyModifiers(); if (isMinimised()) { component.repaint(); handleMovedOrResized(); if (! isValidPeer (this)) return; } auto* underMouse = component.getComponentAt (component.getMouseXYRelative()); if (underMouse == nullptr) underMouse = &component; if (underMouse->isCurrentlyBlockedByAnotherModalComponent()) { if (LOWORD (wParam) == WA_CLICKACTIVE) Component::getCurrentlyModalComponent()->inputAttemptWhenModal(); else ModalComponentManager::getInstance()->bringModalComponentsToFront(); } else { handleBroughtToFront(); } } void handlePowerBroadcast (WPARAM wParam) { if (auto* app = JUCEApplicationBase::getInstance()) { switch (wParam) { case PBT_APMSUSPEND: app->suspended(); break; case PBT_APMQUERYSUSPENDFAILED: case PBT_APMRESUMECRITICAL: case PBT_APMRESUMESUSPEND: case PBT_APMRESUMEAUTOMATIC: app->resumed(); break; default: break; } } } void handleLeftClickInNCArea (WPARAM wParam) { if (! sendInputAttemptWhenModalMessage()) { switch (wParam) { case HTBOTTOM: case HTBOTTOMLEFT: case HTBOTTOMRIGHT: case HTGROWBOX: case HTLEFT: case HTRIGHT: case HTTOP: case HTTOPLEFT: case HTTOPRIGHT: if (isConstrainedNativeWindow()) { constrainerIsResizing = true; constrainer->resizeStart(); } break; default: break; } } } void initialiseSysMenu (HMENU menu) const { if (! hasTitleBar()) { if (isFullScreen()) { EnableMenuItem (menu, SC_RESTORE, MF_BYCOMMAND | MF_ENABLED); EnableMenuItem (menu, SC_MOVE, MF_BYCOMMAND | MF_GRAYED); } else if (! isMinimised()) { EnableMenuItem (menu, SC_MAXIMIZE, MF_BYCOMMAND | MF_GRAYED); } } } void doSettingChange() { forceDisplayUpdate(); if (fullScreen && ! isMinimised()) setWindowPos (hwnd, ScalingHelpers::scaledScreenPosToUnscaled (component, Desktop::getInstance().getDisplays() .getDisplayForRect (component.getScreenBounds())->userArea), SWP_NOACTIVATE | SWP_NOOWNERZORDER | SWP_NOZORDER | SWP_NOSENDCHANGING); auto* dispatcher = VBlankDispatcher::getInstance(); dispatcher->reconfigureDisplays(); updateCurrentMonitor(); dispatcher->updateDisplay (*this, currentMonitor); } //============================================================================== #if JUCE_MODULE_AVAILABLE_juce_audio_plugin_client void setModifierKeyProvider (ModifierKeyProvider* provider) override { modProvider = provider; } void removeModifierKeyProvider() override { modProvider = nullptr; } #endif public: static LRESULT CALLBACK windowProc (HWND h, UINT message, WPARAM wParam, LPARAM lParam) { // Ensure that non-client areas are scaled for per-monitor DPI awareness v1 - can't // do this in peerWindowProc as we have no window at this point if (message == WM_NCCREATE && enableNonClientDPIScaling != nullptr) enableNonClientDPIScaling (h); if (auto* peer = getOwnerOfWindow (h)) { jassert (isValidPeer (peer)); return peer->peerWindowProc (h, message, wParam, lParam); } return DefWindowProcW (h, message, wParam, lParam); } private: static void* callFunctionIfNotLocked (MessageCallbackFunction* callback, void* userData) { auto& mm = *MessageManager::getInstance(); if (mm.currentThreadHasLockedMessageManager()) return callback (userData); return mm.callFunctionOnMessageThread (callback, userData); } static POINT getPOINTFromLParam (LPARAM lParam) noexcept { return { GET_X_LPARAM (lParam), GET_Y_LPARAM (lParam) }; } Point getPointFromLocalLParam (LPARAM lParam) noexcept { auto p = pointFromPOINT (getPOINTFromLParam (lParam)); if (isPerMonitorDPIAwareWindow (hwnd)) { // LPARAM is relative to this window's top-left but may be on a different monitor so we need to calculate the // physical screen position and then convert this to local logical coordinates auto r = getWindowScreenRect (hwnd); return globalToLocal (Desktop::getInstance().getDisplays().physicalToLogical (pointFromPOINT ({ r.left + p.x + roundToInt (windowBorder.getLeft() * scaleFactor), r.top + p.y + roundToInt (windowBorder.getTop() * scaleFactor) })).toFloat()); } return p.toFloat(); } Point getCurrentMousePos() noexcept { return globalToLocal (convertPhysicalScreenPointToLogical (pointFromPOINT (getPOINTFromLParam ((LPARAM) GetMessagePos())), hwnd).toFloat()); } LRESULT peerWindowProc (HWND h, UINT message, WPARAM wParam, LPARAM lParam) { switch (message) { //============================================================================== case WM_NCHITTEST: if ((styleFlags & windowIgnoresMouseClicks) != 0) return HTTRANSPARENT; if (! hasTitleBar()) return HTCLIENT; break; //============================================================================== case WM_PAINT: handlePaintMessage(); return 0; case WM_NCPAINT: handlePaintMessage(); // this must be done, even with native titlebars, or there are rendering artifacts. if (hasTitleBar()) break; // let the DefWindowProc handle drawing the frame. return 0; case WM_ERASEBKGND: case WM_NCCALCSIZE: if (hasTitleBar()) break; return 1; //============================================================================== case WM_POINTERUPDATE: if (handlePointerInput (wParam, lParam, false, false)) return 0; break; case WM_POINTERDOWN: if (handlePointerInput (wParam, lParam, true, false)) return 0; break; case WM_POINTERUP: if (handlePointerInput (wParam, lParam, false, true)) return 0; break; //============================================================================== case WM_MOUSEMOVE: doMouseMove (getPointFromLocalLParam (lParam), false); return 0; case WM_POINTERLEAVE: case WM_MOUSELEAVE: doMouseExit(); return 0; case WM_LBUTTONDOWN: case WM_MBUTTONDOWN: case WM_RBUTTONDOWN: doMouseDown (getPointFromLocalLParam (lParam), wParam); return 0; case WM_LBUTTONUP: case WM_MBUTTONUP: case WM_RBUTTONUP: doMouseUp (getPointFromLocalLParam (lParam), wParam); return 0; case WM_POINTERWHEEL: case 0x020A: /* WM_MOUSEWHEEL */ doMouseWheel (wParam, true); return 0; case WM_POINTERHWHEEL: case 0x020E: /* WM_MOUSEHWHEEL */ doMouseWheel (wParam, false); return 0; case WM_CAPTURECHANGED: doCaptureChanged(); return 0; case WM_NCPOINTERUPDATE: case WM_NCMOUSEMOVE: if (hasTitleBar()) break; return 0; case WM_TOUCH: if (getTouchInputInfo != nullptr) return doTouchEvent ((int) wParam, (HTOUCHINPUT) lParam); break; case 0x119: /* WM_GESTURE */ if (doGestureEvent (lParam)) return 0; break; //============================================================================== case WM_SIZING: return handleSizeConstraining (*(RECT*) lParam, wParam); case WM_WINDOWPOSCHANGING: return handlePositionChanging (*(WINDOWPOS*) lParam); case 0x2e0: /* WM_DPICHANGED */ return handleDPIChanging ((int) HIWORD (wParam), *(RECT*) lParam); case WM_WINDOWPOSCHANGED: { const WINDOWPOS& wPos = *reinterpret_cast (lParam); if ((wPos.flags & SWP_NOMOVE) != 0 && (wPos.flags & SWP_NOSIZE) != 0) startTimer (100); else if (handlePositionChanged()) return 0; } break; //============================================================================== case WM_KEYDOWN: case WM_SYSKEYDOWN: if (doKeyDown (wParam)) return 0; forwardMessageToParent (message, wParam, lParam); break; case WM_KEYUP: case WM_SYSKEYUP: if (doKeyUp (wParam)) return 0; forwardMessageToParent (message, wParam, lParam); break; case WM_CHAR: if (doKeyChar ((int) wParam, lParam)) return 0; forwardMessageToParent (message, wParam, lParam); break; case WM_APPCOMMAND: if (doAppCommand (lParam)) return TRUE; break; case WM_MENUCHAR: // triggered when alt+something is pressed return MNC_CLOSE << 16; // (avoids making the default system beep) //============================================================================== case WM_SETFOCUS: updateKeyModifiers(); handleFocusGain(); break; case WM_KILLFOCUS: if (hasCreatedCaret) { hasCreatedCaret = false; DestroyCaret(); } handleFocusLoss(); if (auto* modal = Component::getCurrentlyModalComponent()) if (auto* peer = modal->getPeer()) if ((peer->getStyleFlags() & ComponentPeer::windowIsTemporary) != 0) sendInputAttemptWhenModalMessage(); break; case WM_ACTIVATEAPP: // Windows does weird things to process priority when you swap apps, // so this forces an update when the app is brought to the front if (wParam != FALSE) juce_repeatLastProcessPriority(); else Desktop::getInstance().setKioskModeComponent (nullptr); // turn kiosk mode off if we lose focus juce_checkCurrentlyFocusedTopLevelWindow(); modifiersAtLastCallback = -1; return 0; case WM_ACTIVATE: if (LOWORD (wParam) == WA_ACTIVE || LOWORD (wParam) == WA_CLICKACTIVE) { handleAppActivation (wParam); return 0; } break; case WM_NCACTIVATE: // while a temporary window is being shown, prevent Windows from deactivating the // title bars of our main windows. if (wParam == 0 && ! shouldDeactivateTitleBar) wParam = TRUE; // change this and let it get passed to the DefWindowProc. break; case WM_POINTERACTIVATE: case WM_MOUSEACTIVATE: if (! component.getMouseClickGrabsKeyboardFocus()) return MA_NOACTIVATE; break; case WM_SHOWWINDOW: if (wParam != 0) { component.setVisible (true); handleBroughtToFront(); } break; case WM_CLOSE: if (! component.isCurrentlyBlockedByAnotherModalComponent()) handleUserClosingWindow(); return 0; #if JUCE_REMOVE_COMPONENT_FROM_DESKTOP_ON_WM_DESTROY case WM_DESTROY: getComponent().removeFromDesktop(); return 0; #endif case WM_QUERYENDSESSION: if (auto* app = JUCEApplicationBase::getInstance()) { app->systemRequestedQuit(); return MessageManager::getInstance()->hasStopMessageBeenSent(); } return TRUE; case WM_POWERBROADCAST: handlePowerBroadcast (wParam); break; case WM_SYNCPAINT: return 0; case WM_DISPLAYCHANGE: InvalidateRect (h, nullptr, 0); // intentional fall-through... JUCE_FALLTHROUGH case WM_SETTINGCHANGE: // note the fall-through in the previous case! doSettingChange(); break; case WM_INITMENU: initialiseSysMenu ((HMENU) wParam); break; case WM_SYSCOMMAND: switch (wParam & 0xfff0) { case SC_CLOSE: if (sendInputAttemptWhenModalMessage()) return 0; if (hasTitleBar()) { PostMessage (h, WM_CLOSE, 0, 0); return 0; } break; case SC_KEYMENU: #if ! JUCE_WINDOWS_ALT_KEY_TRIGGERS_MENU // This test prevents a press of the ALT key from triggering the ancient top-left window menu. // By default we suppress this behaviour because it's unlikely that more than a tiny subset of // our users will actually want it, and it causes problems if you're trying to use the ALT key // as a modifier for mouse actions. If you really need the old behaviour, then just define // JUCE_WINDOWS_ALT_KEY_TRIGGERS_MENU=1 in your app. if ((lParam >> 16) <= 0) // Values above zero indicate that a mouse-click triggered the menu return 0; #endif // (NB mustn't call sendInputAttemptWhenModalMessage() here because of very obscure // situations that can arise if a modal loop is started from an alt-key keypress). if (hasTitleBar() && h == GetCapture()) ReleaseCapture(); break; case SC_MAXIMIZE: if (! sendInputAttemptWhenModalMessage()) setFullScreen (true); return 0; case SC_MINIMIZE: if (sendInputAttemptWhenModalMessage()) return 0; if (! hasTitleBar()) { setMinimised (true); return 0; } break; case SC_RESTORE: if (sendInputAttemptWhenModalMessage()) return 0; if (hasTitleBar()) { if (isFullScreen()) { setFullScreen (false); return 0; } } else { if (isMinimised()) setMinimised (false); else if (isFullScreen()) setFullScreen (false); return 0; } break; } break; case WM_NCPOINTERDOWN: case WM_NCLBUTTONDOWN: handleLeftClickInNCArea (wParam); break; case WM_NCRBUTTONDOWN: case WM_NCMBUTTONDOWN: sendInputAttemptWhenModalMessage(); break; case WM_IME_SETCONTEXT: imeHandler.handleSetContext (h, wParam == TRUE); lParam &= ~(LPARAM) ISC_SHOWUICOMPOSITIONWINDOW; break; case WM_IME_STARTCOMPOSITION: imeHandler.handleStartComposition (*this); return 0; case WM_IME_ENDCOMPOSITION: imeHandler.handleEndComposition (*this, h); break; case WM_IME_COMPOSITION: imeHandler.handleComposition (*this, h, lParam); return 0; case WM_GETDLGCODE: return DLGC_WANTALLKEYS; case WM_GETOBJECT: { if (static_cast (lParam) == WindowsAccessibility::getUiaRootObjectId()) { if (auto* handler = component.getAccessibilityHandler()) { LRESULT res = 0; if (WindowsAccessibility::handleWmGetObject (handler, wParam, lParam, &res)) { isAccessibilityActive = true; return res; } } } break; } default: break; } return DefWindowProcW (h, message, wParam, lParam); } bool sendInputAttemptWhenModalMessage() { if (! component.isCurrentlyBlockedByAnotherModalComponent()) return false; if (auto* current = Component::getCurrentlyModalComponent()) if (auto* owner = getOwnerOfWindow ((HWND) current->getWindowHandle())) if (! owner->shouldIgnoreModalDismiss) current->inputAttemptWhenModal(); return true; } //============================================================================== struct IMEHandler { IMEHandler() { reset(); } void handleSetContext (HWND hWnd, const bool windowIsActive) { if (compositionInProgress && ! windowIsActive) { compositionInProgress = false; if (HIMC hImc = ImmGetContext (hWnd)) { ImmNotifyIME (hImc, NI_COMPOSITIONSTR, CPS_COMPLETE, 0); ImmReleaseContext (hWnd, hImc); } } } void handleStartComposition (ComponentPeer& owner) { reset(); if (auto* target = owner.findCurrentTextInputTarget()) target->insertTextAtCaret (String()); } void handleEndComposition (ComponentPeer& owner, HWND hWnd) { if (compositionInProgress) { // If this occurs, the user has cancelled the composition, so clear their changes.. if (auto* target = owner.findCurrentTextInputTarget()) { target->setHighlightedRegion (compositionRange); target->insertTextAtCaret (String()); compositionRange.setLength (0); target->setHighlightedRegion (Range::emptyRange (compositionRange.getEnd())); target->setTemporaryUnderlining ({}); } if (auto hImc = ImmGetContext (hWnd)) { ImmNotifyIME (hImc, NI_CLOSECANDIDATE, 0, 0); ImmReleaseContext (hWnd, hImc); } } reset(); } void handleComposition (ComponentPeer& owner, HWND hWnd, const LPARAM lParam) { if (auto* target = owner.findCurrentTextInputTarget()) { if (auto hImc = ImmGetContext (hWnd)) { if (compositionRange.getStart() < 0) compositionRange = Range::emptyRange (target->getHighlightedRegion().getStart()); if ((lParam & GCS_RESULTSTR) != 0) // (composition has finished) { replaceCurrentSelection (target, getCompositionString (hImc, GCS_RESULTSTR), Range::emptyRange (-1)); reset(); target->setTemporaryUnderlining ({}); } else if ((lParam & GCS_COMPSTR) != 0) // (composition is still in-progress) { replaceCurrentSelection (target, getCompositionString (hImc, GCS_COMPSTR), getCompositionSelection (hImc, lParam)); target->setTemporaryUnderlining (getCompositionUnderlines (hImc, lParam)); compositionInProgress = true; } moveCandidateWindowToLeftAlignWithSelection (hImc, owner, target); ImmReleaseContext (hWnd, hImc); } } } private: //============================================================================== Range compositionRange; // The range being modified in the TextInputTarget bool compositionInProgress; //============================================================================== void reset() { compositionRange = Range::emptyRange (-1); compositionInProgress = false; } String getCompositionString (HIMC hImc, const DWORD type) const { jassert (hImc != HIMC{}); const auto stringSizeBytes = ImmGetCompositionString (hImc, type, nullptr, 0); if (stringSizeBytes > 0) { HeapBlock buffer; buffer.calloc ((size_t) stringSizeBytes / sizeof (TCHAR) + 1); ImmGetCompositionString (hImc, type, buffer, (DWORD) stringSizeBytes); return String (buffer.get()); } return {}; } int getCompositionCaretPos (HIMC hImc, LPARAM lParam, const String& currentIMEString) const { jassert (hImc != HIMC{}); if ((lParam & CS_NOMOVECARET) != 0) return compositionRange.getStart(); if ((lParam & GCS_CURSORPOS) != 0) { const int localCaretPos = ImmGetCompositionString (hImc, GCS_CURSORPOS, nullptr, 0); return compositionRange.getStart() + jmax (0, localCaretPos); } return compositionRange.getStart() + currentIMEString.length(); } // Get selected/highlighted range while doing composition: // returned range is relative to beginning of TextInputTarget, not composition string Range getCompositionSelection (HIMC hImc, LPARAM lParam) const { jassert (hImc != HIMC{}); int selectionStart = 0; int selectionEnd = 0; if ((lParam & GCS_COMPATTR) != 0) { // Get size of attributes array: const int attributeSizeBytes = ImmGetCompositionString (hImc, GCS_COMPATTR, nullptr, 0); if (attributeSizeBytes > 0) { // Get attributes (8 bit flag per character): HeapBlock attributes (attributeSizeBytes); ImmGetCompositionString (hImc, GCS_COMPATTR, attributes, (DWORD) attributeSizeBytes); selectionStart = 0; for (selectionStart = 0; selectionStart < attributeSizeBytes; ++selectionStart) if (attributes[selectionStart] == ATTR_TARGET_CONVERTED || attributes[selectionStart] == ATTR_TARGET_NOTCONVERTED) break; for (selectionEnd = selectionStart; selectionEnd < attributeSizeBytes; ++selectionEnd) if (attributes[selectionEnd] != ATTR_TARGET_CONVERTED && attributes[selectionEnd] != ATTR_TARGET_NOTCONVERTED) break; } } return Range (selectionStart, selectionEnd) + compositionRange.getStart(); } void replaceCurrentSelection (TextInputTarget* const target, const String& newContent, Range newSelection) { if (compositionInProgress) target->setHighlightedRegion (compositionRange); target->insertTextAtCaret (newContent); compositionRange.setLength (newContent.length()); if (newSelection.getStart() < 0) newSelection = Range::emptyRange (compositionRange.getEnd()); target->setHighlightedRegion (newSelection); } Array> getCompositionUnderlines (HIMC hImc, LPARAM lParam) const { Array> result; if (hImc != HIMC{} && (lParam & GCS_COMPCLAUSE) != 0) { auto clauseDataSizeBytes = ImmGetCompositionString (hImc, GCS_COMPCLAUSE, nullptr, 0); if (clauseDataSizeBytes > 0) { const auto numItems = (size_t) clauseDataSizeBytes / sizeof (uint32); HeapBlock clauseData (numItems); if (ImmGetCompositionString (hImc, GCS_COMPCLAUSE, clauseData, (DWORD) clauseDataSizeBytes) > 0) for (size_t i = 0; i + 1 < numItems; ++i) result.add (Range ((int) clauseData[i], (int) clauseData[i + 1]) + compositionRange.getStart()); } } return result; } void moveCandidateWindowToLeftAlignWithSelection (HIMC hImc, ComponentPeer& peer, TextInputTarget* target) const { if (auto* targetComp = dynamic_cast (target)) { auto area = peer.getComponent().getLocalArea (targetComp, target->getCaretRectangle()); CANDIDATEFORM pos = { 0, CFS_CANDIDATEPOS, { area.getX(), area.getBottom() }, { 0, 0, 0, 0 } }; ImmSetCandidateWindow (hImc, &pos); } } JUCE_DECLARE_NON_COPYABLE (IMEHandler) }; void timerCallback() override { handlePositionChanged(); stopTimer(); } static bool isAncestor (HWND outer, HWND inner) { if (outer == nullptr || inner == nullptr) return false; if (outer == inner) return true; return isAncestor (outer, GetAncestor (inner, GA_PARENT)); } void windowShouldDismissModals (HWND originator) { if (shouldIgnoreModalDismiss) return; if (isAncestor (originator, hwnd)) sendInputAttemptWhenModalMessage(); } // Unfortunately SetWindowsHookEx only allows us to register a static function as a hook. // To get around this, we keep a static list of listeners which are interested in // top-level window events, and notify all of these listeners from the callback. class TopLevelModalDismissBroadcaster { public: TopLevelModalDismissBroadcaster() : hook (SetWindowsHookEx (WH_CALLWNDPROC, callWndProc, (HINSTANCE) juce::Process::getCurrentModuleInstanceHandle(), GetCurrentThreadId())) {} ~TopLevelModalDismissBroadcaster() noexcept { UnhookWindowsHookEx (hook); } private: static void processMessage (int nCode, const CWPSTRUCT* info) { if (nCode < 0 || info == nullptr) return; constexpr UINT events[] { WM_MOVE, WM_SIZE, WM_WINDOWPOSCHANGING, WM_NCPOINTERDOWN, WM_NCLBUTTONDOWN, WM_NCRBUTTONDOWN, WM_NCMBUTTONDOWN }; if (std::find (std::begin (events), std::end (events), info->message) == std::end (events)) return; if (info->message == WM_WINDOWPOSCHANGING) { const auto* windowPos = reinterpret_cast (info->lParam); const auto windowPosFlags = windowPos->flags; constexpr auto maskToCheck = SWP_NOMOVE | SWP_NOSIZE; if ((windowPosFlags & maskToCheck) == maskToCheck) return; } // windowMayDismissModals could affect the number of active ComponentPeer instances for (auto i = ComponentPeer::getNumPeers(); --i >= 0;) if (i < ComponentPeer::getNumPeers()) if (auto* hwndPeer = dynamic_cast (ComponentPeer::getPeer (i))) hwndPeer->windowShouldDismissModals (info->hwnd); } static LRESULT CALLBACK callWndProc (int nCode, WPARAM wParam, LPARAM lParam) { processMessage (nCode, reinterpret_cast (lParam)); return CallNextHookEx ({}, nCode, wParam, lParam); } HHOOK hook; }; SharedResourcePointer modalDismissBroadcaster; IMEHandler imeHandler; bool shouldIgnoreModalDismiss = false; RectangleList deferredRepaints; //============================================================================== JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (HWNDComponentPeer) }; MultiTouchMapper HWNDComponentPeer::currentTouches; ModifierKeys HWNDComponentPeer::modifiersAtLastCallback; ComponentPeer* Component::createNewPeer (int styleFlags, void* parentHWND) { return new HWNDComponentPeer (*this, styleFlags, (HWND) parentHWND, false); } JUCE_API ComponentPeer* createNonRepaintingEmbeddedWindowsPeer (Component& component, void* parentHWND); JUCE_API ComponentPeer* createNonRepaintingEmbeddedWindowsPeer (Component& component, void* parentHWND) { return new HWNDComponentPeer (component, ComponentPeer::windowIgnoresMouseClicks, (HWND) parentHWND, true); } JUCE_IMPLEMENT_SINGLETON (HWNDComponentPeer::WindowClassHolder) //============================================================================== bool KeyPress::isKeyCurrentlyDown (const int keyCode) { auto k = (SHORT) keyCode; if ((keyCode & extendedKeyModifier) == 0) { if (k >= (SHORT) 'a' && k <= (SHORT) 'z') k += (SHORT) 'A' - (SHORT) 'a'; // Only translate if extendedKeyModifier flag is not set const SHORT translatedValues[] = { (SHORT) ',', VK_OEM_COMMA, (SHORT) '+', VK_OEM_PLUS, (SHORT) '-', VK_OEM_MINUS, (SHORT) '.', VK_OEM_PERIOD, (SHORT) ';', VK_OEM_1, (SHORT) ':', VK_OEM_1, (SHORT) '/', VK_OEM_2, (SHORT) '?', VK_OEM_2, (SHORT) '[', VK_OEM_4, (SHORT) ']', VK_OEM_6 }; for (int i = 0; i < numElementsInArray (translatedValues); i += 2) if (k == translatedValues[i]) k = translatedValues[i + 1]; } return HWNDComponentPeer::isKeyDown (k); } // (This internal function is used by the plugin client module) bool offerKeyMessageToJUCEWindow (MSG& m); bool offerKeyMessageToJUCEWindow (MSG& m) { return HWNDComponentPeer::offerKeyMessageToJUCEWindow (m); } //============================================================================== static DWORD getProcess (HWND hwnd) { DWORD result = 0; GetWindowThreadProcessId (hwnd, &result); return result; } /* Returns true if the viewComponent is embedded into a window owned by the foreground process. */ bool isEmbeddedInForegroundProcess (Component* c) { if (c == nullptr) return false; auto* peer = c->getPeer(); auto* hwnd = peer != nullptr ? static_cast (peer->getNativeHandle()) : nullptr; if (hwnd == nullptr) return true; const auto fgProcess = getProcess (GetForegroundWindow()); const auto ownerProcess = getProcess (GetAncestor (hwnd, GA_ROOTOWNER)); return fgProcess == ownerProcess; } bool JUCE_CALLTYPE Process::isForegroundProcess() { if (auto fg = GetForegroundWindow()) return getProcess (fg) == GetCurrentProcessId(); return true; } // N/A on Windows as far as I know. void JUCE_CALLTYPE Process::makeForegroundProcess() {} void JUCE_CALLTYPE Process::hide() {} //============================================================================== static BOOL CALLBACK enumAlwaysOnTopWindows (HWND hwnd, LPARAM lParam) { if (IsWindowVisible (hwnd)) { DWORD processID = 0; GetWindowThreadProcessId (hwnd, &processID); if (processID == GetCurrentProcessId()) { WINDOWINFO info{}; if (GetWindowInfo (hwnd, &info) && (info.dwExStyle & WS_EX_TOPMOST) != 0) { *reinterpret_cast (lParam) = true; return FALSE; } } } return TRUE; } bool juce_areThereAnyAlwaysOnTopWindows() { bool anyAlwaysOnTopFound = false; EnumWindows (&enumAlwaysOnTopWindows, (LPARAM) &anyAlwaysOnTopFound); return anyAlwaysOnTopFound; } //============================================================================== #if JUCE_MSVC // required to enable the newer dialog box on vista and above #pragma comment(linker, \ "\"/MANIFESTDEPENDENCY:type='Win32' " \ "name='Microsoft.Windows.Common-Controls' " \ "version='6.0.0.0' " \ "processorArchitecture='*' " \ "publicKeyToken='6595b64144ccf1df' " \ "language='*'\"" \ ) #endif class WindowsMessageBoxBase : private AsyncUpdater { public: WindowsMessageBoxBase (Component* comp, std::unique_ptr&& cb) : associatedComponent (comp), callback (std::move (cb)) { } virtual int getResult() = 0; HWND getParentHWND() const { if (associatedComponent != nullptr) return (HWND) associatedComponent->getWindowHandle(); return nullptr; } using AsyncUpdater::triggerAsyncUpdate; private: void handleAsyncUpdate() override { const auto result = getResult(); if (callback != nullptr) callback->modalStateFinished (result); delete this; } Component::SafePointer associatedComponent; std::unique_ptr callback; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (WindowsMessageBoxBase) }; class PreVistaMessageBox : public WindowsMessageBoxBase { public: PreVistaMessageBox (const MessageBoxOptions& opts, UINT extraFlags, std::unique_ptr&& cb) : WindowsMessageBoxBase (opts.getAssociatedComponent(), std::move (cb)), flags (extraFlags | getMessageBoxFlags (opts.getIconType())), title (opts.getTitle()), message (opts.getMessage()) { } int getResult() override { const auto result = MessageBox (getParentHWND(), message.toWideCharPointer(), title.toWideCharPointer(), flags); if (result == IDYES || result == IDOK) return 0; if (result == IDNO && ((flags & 1) != 0)) return 1; return 2; } private: static UINT getMessageBoxFlags (MessageBoxIconType iconType) noexcept { // this window can get lost behind JUCE windows which are set to be alwaysOnTop // so if there are any set it to be topmost const auto topmostFlag = juce_areThereAnyAlwaysOnTopWindows() ? MB_TOPMOST : 0; const auto iconFlags = [&]() -> decltype (topmostFlag) { switch (iconType) { case MessageBoxIconType::QuestionIcon: return MB_ICONQUESTION; case MessageBoxIconType::WarningIcon: return MB_ICONWARNING; case MessageBoxIconType::InfoIcon: return MB_ICONINFORMATION; case MessageBoxIconType::NoIcon: break; } return 0; }(); return static_cast (MB_TASKMODAL | MB_SETFOREGROUND | topmostFlag | iconFlags); } const UINT flags; const String title, message; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (PreVistaMessageBox) }; using TaskDialogIndirectFunc = HRESULT (WINAPI*) (const TASKDIALOGCONFIG*, INT*, INT*, BOOL*); static TaskDialogIndirectFunc taskDialogIndirect = nullptr; class WindowsTaskDialog : public WindowsMessageBoxBase { public: WindowsTaskDialog (const MessageBoxOptions& opts, std::unique_ptr&& cb) : WindowsMessageBoxBase (opts.getAssociatedComponent(), std::move (cb)), iconType (opts.getIconType()), title (opts.getTitle()), message (opts.getMessage()), button1 (opts.getButtonText (0)), button2 (opts.getButtonText (1)), button3 (opts.getButtonText (2)) { } int getResult() override { TASKDIALOGCONFIG config{}; config.cbSize = sizeof (config); config.hwndParent = getParentHWND(); config.pszWindowTitle = title.toWideCharPointer(); config.pszContent = message.toWideCharPointer(); config.hInstance = (HINSTANCE) Process::getCurrentModuleInstanceHandle(); if (iconType == MessageBoxIconType::QuestionIcon) { if (auto* questionIcon = LoadIcon (nullptr, IDI_QUESTION)) { config.hMainIcon = questionIcon; config.dwFlags |= TDF_USE_HICON_MAIN; } } else { auto icon = [this]() -> LPWSTR { switch (iconType) { case MessageBoxIconType::WarningIcon: return TD_WARNING_ICON; case MessageBoxIconType::InfoIcon: return TD_INFORMATION_ICON; case MessageBoxIconType::QuestionIcon: JUCE_FALLTHROUGH case MessageBoxIconType::NoIcon: break; } return nullptr; }(); if (icon != nullptr) config.pszMainIcon = icon; } std::vector buttons; for (const auto* buttonText : { &button1, &button2, &button3 }) if (buttonText->isNotEmpty()) buttons.push_back ({ (int) buttons.size(), buttonText->toWideCharPointer() }); config.pButtons = buttons.data(); config.cButtons = (UINT) buttons.size(); int buttonIndex = 0; taskDialogIndirect (&config, &buttonIndex, nullptr, nullptr); return buttonIndex; } static bool loadTaskDialog() { static bool hasChecked = false; if (! hasChecked) { hasChecked = true; const auto comctl = "Comctl32.dll"; LoadLibraryA (comctl); const auto comctlModule = GetModuleHandleA (comctl); if (comctlModule != nullptr) taskDialogIndirect = (TaskDialogIndirectFunc) GetProcAddress (comctlModule, "TaskDialogIndirect"); } return taskDialogIndirect != nullptr; } private: MessageBoxIconType iconType; String title, message, button1, button2, button3; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (WindowsTaskDialog) }; static std::unique_ptr createMessageBox (const MessageBoxOptions& options, std::unique_ptr callback) { const auto useTaskDialog = #if JUCE_MODAL_LOOPS_PERMITTED callback != nullptr && #endif SystemStats::getOperatingSystemType() >= SystemStats::WinVista && WindowsTaskDialog::loadTaskDialog(); if (useTaskDialog) return std::make_unique (options, std::move (callback)); const auto extraFlags = [&options] { const auto numButtons = options.getNumButtons(); if (numButtons == 3) return MB_YESNOCANCEL; if (numButtons == 2) return options.getButtonText (0) == "OK" ? MB_OKCANCEL : MB_YESNO; return MB_OK; }(); return std::make_unique (options, (UINT) extraFlags, std::move (callback)); } static int showDialog (const MessageBoxOptions& options, ModalComponentManager::Callback* callbackIn, AlertWindowMappings::MapFn mapFn) { #if JUCE_MODAL_LOOPS_PERMITTED if (callbackIn == nullptr) { jassert (mapFn != nullptr); auto messageBox = createMessageBox (options, nullptr); return mapFn (messageBox->getResult()); } #endif auto messageBox = createMessageBox (options, AlertWindowMappings::getWrappedCallback (callbackIn, mapFn)); messageBox->triggerAsyncUpdate(); messageBox.release(); return 0; } #if JUCE_MODAL_LOOPS_PERMITTED void JUCE_CALLTYPE NativeMessageBox::showMessageBox (MessageBoxIconType iconType, const String& title, const String& message, Component* associatedComponent) { showDialog (MessageBoxOptions() .withIconType (iconType) .withTitle (title) .withMessage (message) .withButton (TRANS("OK")) .withAssociatedComponent (associatedComponent), nullptr, AlertWindowMappings::messageBox); } int JUCE_CALLTYPE NativeMessageBox::show (const MessageBoxOptions& options) { return showDialog (options, nullptr, AlertWindowMappings::noMapping); } #endif void JUCE_CALLTYPE NativeMessageBox::showMessageBoxAsync (MessageBoxIconType iconType, const String& title, const String& message, Component* associatedComponent, ModalComponentManager::Callback* callback) { showDialog (MessageBoxOptions() .withIconType (iconType) .withTitle (title) .withMessage (message) .withButton (TRANS("OK")) .withAssociatedComponent (associatedComponent), callback, AlertWindowMappings::messageBox); } bool JUCE_CALLTYPE NativeMessageBox::showOkCancelBox (MessageBoxIconType iconType, const String& title, const String& message, Component* associatedComponent, ModalComponentManager::Callback* callback) { return showDialog (MessageBoxOptions() .withIconType (iconType) .withTitle (title) .withMessage (message) .withButton (TRANS("OK")) .withButton (TRANS("Cancel")) .withAssociatedComponent (associatedComponent), callback, AlertWindowMappings::okCancel) != 0; } int JUCE_CALLTYPE NativeMessageBox::showYesNoCancelBox (MessageBoxIconType iconType, const String& title, const String& message, Component* associatedComponent, ModalComponentManager::Callback* callback) { return showDialog (MessageBoxOptions() .withIconType (iconType) .withTitle (title) .withMessage (message) .withButton (TRANS("Yes")) .withButton (TRANS("No")) .withButton (TRANS("Cancel")) .withAssociatedComponent (associatedComponent), callback, AlertWindowMappings::yesNoCancel); } int JUCE_CALLTYPE NativeMessageBox::showYesNoBox (MessageBoxIconType iconType, const String& title, const String& message, Component* associatedComponent, ModalComponentManager::Callback* callback) { return showDialog (MessageBoxOptions() .withIconType (iconType) .withTitle (title) .withMessage (message) .withButton (TRANS("Yes")) .withButton (TRANS("No")) .withAssociatedComponent (associatedComponent), callback, AlertWindowMappings::okCancel); } void JUCE_CALLTYPE NativeMessageBox::showAsync (const MessageBoxOptions& options, ModalComponentManager::Callback* callback) { showDialog (options, callback, AlertWindowMappings::noMapping); } void JUCE_CALLTYPE NativeMessageBox::showAsync (const MessageBoxOptions& options, std::function callback) { showAsync (options, ModalCallbackFunction::create (callback)); } //============================================================================== bool MouseInputSource::SourceList::addSource() { auto numSources = sources.size(); if (numSources == 0 || canUseMultiTouch()) { addSource (numSources, numSources == 0 ? MouseInputSource::InputSourceType::mouse : MouseInputSource::InputSourceType::touch); return true; } return false; } bool MouseInputSource::SourceList::canUseTouch() { return canUseMultiTouch(); } Point MouseInputSource::getCurrentRawMousePosition() { POINT mousePos; GetCursorPos (&mousePos); auto p = pointFromPOINT (mousePos); if (isPerMonitorDPIAwareThread()) p = Desktop::getInstance().getDisplays().physicalToLogical (p); return p.toFloat(); } void MouseInputSource::setRawMousePosition (Point newPosition) { auto newPositionInt = newPosition.roundToInt(); #if JUCE_WIN_PER_MONITOR_DPI_AWARE if (isPerMonitorDPIAwareThread()) newPositionInt = Desktop::getInstance().getDisplays().logicalToPhysical (newPositionInt); #endif auto point = POINTFromPoint (newPositionInt); SetCursorPos (point.x, point.y); } //============================================================================== class ScreenSaverDefeater : public Timer { public: ScreenSaverDefeater() { startTimer (10000); timerCallback(); } void timerCallback() override { if (Process::isForegroundProcess()) { INPUT input = {}; input.type = INPUT_MOUSE; input.mi.mouseData = MOUSEEVENTF_MOVE; SendInput (1, &input, sizeof (INPUT)); } } }; static std::unique_ptr screenSaverDefeater; void Desktop::setScreenSaverEnabled (const bool isEnabled) { if (isEnabled) screenSaverDefeater = nullptr; else if (screenSaverDefeater == nullptr) screenSaverDefeater.reset (new ScreenSaverDefeater()); } bool Desktop::isScreenSaverEnabled() { return screenSaverDefeater == nullptr; } //============================================================================== void LookAndFeel::playAlertSound() { MessageBeep (MB_OK); } //============================================================================== void SystemClipboard::copyTextToClipboard (const String& text) { if (OpenClipboard (nullptr) != 0) { if (EmptyClipboard() != 0) { auto bytesNeeded = CharPointer_UTF16::getBytesRequiredFor (text.getCharPointer()) + 4; if (bytesNeeded > 0) { if (auto bufH = GlobalAlloc (GMEM_MOVEABLE | GMEM_DDESHARE | GMEM_ZEROINIT, bytesNeeded + sizeof (WCHAR))) { if (auto* data = static_cast (GlobalLock (bufH))) { text.copyToUTF16 (data, bytesNeeded); GlobalUnlock (bufH); SetClipboardData (CF_UNICODETEXT, bufH); } } } } CloseClipboard(); } } String SystemClipboard::getTextFromClipboard() { String result; if (OpenClipboard (nullptr) != 0) { if (auto bufH = GetClipboardData (CF_UNICODETEXT)) { if (auto* data = (const WCHAR*) GlobalLock (bufH)) { result = String (data, (size_t) (GlobalSize (bufH) / sizeof (WCHAR))); GlobalUnlock (bufH); } } CloseClipboard(); } return result; } //============================================================================== void Desktop::setKioskComponent (Component* kioskModeComp, bool enableOrDisable, bool /*allowMenusAndBars*/) { if (auto* tlw = dynamic_cast (kioskModeComp)) tlw->setUsingNativeTitleBar (! enableOrDisable); if (kioskModeComp != nullptr && enableOrDisable) kioskModeComp->setBounds (getDisplays().getDisplayForRect (kioskModeComp->getScreenBounds())->totalArea); } void Desktop::allowedOrientationsChanged() {} //============================================================================== static const Displays::Display* getCurrentDisplayFromScaleFactor (HWND hwnd) { Array candidateDisplays; const auto scaleToLookFor = [&] { if (auto* peer = HWNDComponentPeer::getOwnerOfWindow (hwnd)) return peer->getPlatformScaleFactor(); return getScaleFactorForWindow (hwnd); }(); auto globalScale = Desktop::getInstance().getGlobalScaleFactor(); for (auto& d : Desktop::getInstance().getDisplays().displays) if (approximatelyEqual (d.scale / globalScale, scaleToLookFor)) candidateDisplays.add (&d); if (candidateDisplays.size() > 0) { if (candidateDisplays.size() == 1) return candidateDisplays[0]; const auto bounds = [&] { if (auto* peer = HWNDComponentPeer::getOwnerOfWindow (hwnd)) return peer->getComponent().getTopLevelComponent()->getBounds(); return Desktop::getInstance().getDisplays().physicalToLogical (rectangleFromRECT (getWindowScreenRect (hwnd))); }(); const Displays::Display* retVal = nullptr; int maxArea = -1; for (auto* d : candidateDisplays) { auto intersection = d->totalArea.getIntersection (bounds); auto area = intersection.getWidth() * intersection.getHeight(); if (area > maxArea) { maxArea = area; retVal = d; } } if (retVal != nullptr) return retVal; } return Desktop::getInstance().getDisplays().getPrimaryDisplay(); } //============================================================================== struct MonitorInfo { MonitorInfo (bool main, RECT totalArea, RECT workArea, double d) noexcept : isMain (main), totalAreaRect (totalArea), workAreaRect (workArea), dpi (d) { } bool isMain; RECT totalAreaRect, workAreaRect; double dpi; }; static BOOL CALLBACK enumMonitorsProc (HMONITOR hm, HDC, LPRECT, LPARAM userInfo) { MONITORINFO info = {}; info.cbSize = sizeof (info); GetMonitorInfo (hm, &info); auto isMain = (info.dwFlags & 1 /* MONITORINFOF_PRIMARY */) != 0; auto dpi = 0.0; if (getDPIForMonitor != nullptr) { UINT dpiX = 0, dpiY = 0; if (SUCCEEDED (getDPIForMonitor (hm, MDT_Default, &dpiX, &dpiY))) dpi = (dpiX + dpiY) / 2.0; } ((Array*) userInfo)->add ({ isMain, info.rcMonitor, info.rcWork, dpi }); return TRUE; } void Displays::findDisplays (float masterScale) { setDPIAwareness(); Array monitors; EnumDisplayMonitors (nullptr, nullptr, &enumMonitorsProc, (LPARAM) &monitors); auto globalDPI = getGlobalDPI(); if (monitors.size() == 0) { auto windowRect = getWindowScreenRect (GetDesktopWindow()); monitors.add ({ true, windowRect, windowRect, globalDPI }); } // make sure the first in the list is the main monitor for (int i = 1; i < monitors.size(); ++i) if (monitors.getReference (i).isMain) monitors.swap (i, 0); for (auto& monitor : monitors) { Display d; d.isMain = monitor.isMain; d.dpi = monitor.dpi; if (d.dpi == 0) { d.dpi = globalDPI; d.scale = masterScale; } else { d.scale = (d.dpi / USER_DEFAULT_SCREEN_DPI) * (masterScale / Desktop::getDefaultMasterScale()); } d.totalArea = rectangleFromRECT (monitor.totalAreaRect); d.userArea = rectangleFromRECT (monitor.workAreaRect); displays.add (d); } #if JUCE_WIN_PER_MONITOR_DPI_AWARE if (isPerMonitorDPIAwareThread()) updateToLogical(); else #endif { for (auto& d : displays) { d.totalArea /= masterScale; d.userArea /= masterScale; } } } //============================================================================== static HICON extractFileHICON (const File& file) { WORD iconNum = 0; WCHAR name[MAX_PATH * 2]; file.getFullPathName().copyToUTF16 (name, sizeof (name)); return ExtractAssociatedIcon ((HINSTANCE) Process::getCurrentModuleInstanceHandle(), name, &iconNum); } Image juce_createIconForFile (const File& file) { Image image; if (auto icon = extractFileHICON (file)) { image = IconConverters::createImageFromHICON (icon); DestroyIcon (icon); } return image; } //============================================================================== class MouseCursor::PlatformSpecificHandle { public: explicit PlatformSpecificHandle (const MouseCursor::StandardCursorType type) : impl (makeHandle (type)) {} explicit PlatformSpecificHandle (const CustomMouseCursorInfo& info) : impl (makeHandle (info)) {} static void showInWindow (PlatformSpecificHandle* handle, ComponentPeer* peer) { SetCursor ([&] { if (handle != nullptr && handle->impl != nullptr && peer != nullptr) return handle->impl->getCursor (*peer); return LoadCursor (nullptr, IDC_ARROW); }()); } private: struct Impl { virtual ~Impl() = default; virtual HCURSOR getCursor (ComponentPeer&) = 0; }; class BuiltinImpl : public Impl { public: explicit BuiltinImpl (HCURSOR cursorIn) : cursor (cursorIn) {} HCURSOR getCursor (ComponentPeer&) override { return cursor; } private: HCURSOR cursor; }; class ImageImpl : public Impl { public: explicit ImageImpl (const CustomMouseCursorInfo& infoIn) : info (infoIn) {} ~ImageImpl() override { for (auto& pair : cursorsBySize) DestroyCursor (pair.second); } HCURSOR getCursor (ComponentPeer& peer) override { JUCE_ASSERT_MESSAGE_THREAD; static auto getCursorSize = getCursorSizeForPeerFunction(); const auto size = getCursorSize (peer); const auto iter = cursorsBySize.find (size); if (iter != cursorsBySize.end()) return iter->second; const auto logicalSize = info.image.getScaledBounds(); const auto scale = (float) size / (float) unityCursorSize; const auto physicalSize = logicalSize * scale; const auto& image = info.image.getImage(); const auto rescaled = image.rescaled (roundToInt ((float) physicalSize.getWidth()), roundToInt ((float) physicalSize.getHeight())); const auto effectiveScale = rescaled.getWidth() / logicalSize.getWidth(); const auto hx = jlimit (0, rescaled.getWidth(), roundToInt ((float) info.hotspot.x * effectiveScale)); const auto hy = jlimit (0, rescaled.getHeight(), roundToInt ((float) info.hotspot.y * effectiveScale)); return cursorsBySize.emplace (size, IconConverters::createHICONFromImage (rescaled, false, hx, hy)).first->second; } private: const CustomMouseCursorInfo info; std::map cursorsBySize; }; static auto getCursorSizeForPeerFunction() -> int (*) (ComponentPeer&) { static const auto getDpiForMonitor = []() -> GetDPIForMonitorFunc { constexpr auto library = "SHCore.dll"; LoadLibraryA (library); if (auto* handle = GetModuleHandleA (library)) return (GetDPIForMonitorFunc) GetProcAddress (handle, "GetDpiForMonitor"); return nullptr; }(); static const auto getSystemMetricsForDpi = []() -> GetSystemMetricsForDpiFunc { constexpr auto library = "User32.dll"; LoadLibraryA (library); if (auto* handle = GetModuleHandleA (library)) return (GetSystemMetricsForDpiFunc) GetProcAddress (handle, "GetSystemMetricsForDpi"); return nullptr; }(); if (getDpiForMonitor == nullptr || getSystemMetricsForDpi == nullptr) return [] (ComponentPeer&) { return unityCursorSize; }; return [] (ComponentPeer& p) { const ScopedThreadDPIAwarenessSetter threadDpiAwarenessSetter { p.getNativeHandle() }; UINT dpiX = 0, dpiY = 0; if (auto* monitor = MonitorFromWindow ((HWND) p.getNativeHandle(), MONITOR_DEFAULTTONULL)) if (SUCCEEDED (getDpiForMonitor (monitor, MDT_Default, &dpiX, &dpiY))) return getSystemMetricsForDpi (SM_CXCURSOR, dpiX); return unityCursorSize; }; } static constexpr auto unityCursorSize = 32; static std::unique_ptr makeHandle (const CustomMouseCursorInfo& info) { return std::make_unique (info); } static std::unique_ptr makeHandle (const MouseCursor::StandardCursorType type) { LPCTSTR cursorName = IDC_ARROW; switch (type) { case NormalCursor: case ParentCursor: break; case NoCursor: return std::make_unique (nullptr); case WaitCursor: cursorName = IDC_WAIT; break; case IBeamCursor: cursorName = IDC_IBEAM; break; case PointingHandCursor: cursorName = MAKEINTRESOURCE(32649); break; case CrosshairCursor: cursorName = IDC_CROSS; break; case LeftRightResizeCursor: case LeftEdgeResizeCursor: case RightEdgeResizeCursor: cursorName = IDC_SIZEWE; break; case UpDownResizeCursor: case TopEdgeResizeCursor: case BottomEdgeResizeCursor: cursorName = IDC_SIZENS; break; case TopLeftCornerResizeCursor: case BottomRightCornerResizeCursor: cursorName = IDC_SIZENWSE; break; case TopRightCornerResizeCursor: case BottomLeftCornerResizeCursor: cursorName = IDC_SIZENESW; break; case UpDownLeftRightResizeCursor: cursorName = IDC_SIZEALL; break; case DraggingHandCursor: { static const unsigned char dragHandData[] { 71,73,70,56,57,97,16,0,16,0,145,2,0,0,0,0,255,255,255,0,0,0,0,0,0,33,249,4,1,0,0,2,0,44,0,0,0,0,16,0, 16,0,0,2,52,148,47,0,200,185,16,130,90,12,74,139,107,84,123,39,132,117,151,116,132,146,248,60,209,138, 98,22,203,114,34,236,37,52,77,217,247,154,191,119,110,240,193,128,193,95,163,56,60,234,98,135,2,0,59 }; return makeHandle ({ ScaledImage (ImageFileFormat::loadFrom (dragHandData, sizeof (dragHandData))), { 8, 7 } }); } case CopyingCursor: { static const unsigned char copyCursorData[] { 71,73,70,56,57,97,21,0,21,0,145,0,0,0,0,0,255,255,255,0,128,128,255,255,255,33,249,4,1,0,0,3,0,44,0,0,0,0,21,0, 21,0,0,2,72,4,134,169,171,16,199,98,11,79,90,71,161,93,56,111,78,133,218,215,137,31,82,154,100,200,86,91,202,142, 12,108,212,87,235,174, 15,54,214,126,237,226,37,96,59,141,16,37,18,201,142,157,230,204,51,112,252,114,147,74,83, 5,50,68,147,208,217,16,71,149,252,124,5,0,59,0,0 }; return makeHandle ({ ScaledImage (ImageFileFormat::loadFrom (copyCursorData, sizeof (copyCursorData))), { 1, 3 } }); } case NumStandardCursorTypes: JUCE_FALLTHROUGH default: jassertfalse; break; } return std::make_unique ([&] { if (auto* c = LoadCursor (nullptr, cursorName)) return c; return LoadCursor (nullptr, IDC_ARROW); }()); } std::unique_ptr impl; }; //============================================================================== JUCE_END_IGNORE_WARNINGS_GCC_LIKE } // namespace juce