juicysfplugin/modules/juce_gui_basics/native/juce_win32_Windowing.cpp

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/*
==============================================================================
This file is part of the JUCE library.
Copyright (c) 2017 - ROLI Ltd.
JUCE is an open source library subject to commercial or open-source
licensing.
By using JUCE, you agree to the terms of both the JUCE 5 End-User License
Agreement and JUCE 5 Privacy Policy (both updated and effective as of the
27th April 2017).
End User License Agreement: www.juce.com/juce-5-licence
Privacy Policy: www.juce.com/juce-5-privacy-policy
Or: You may also use this code under the terms of the GPL v3 (see
www.gnu.org/licenses).
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 <juce_audio_plugin_client/AAX/juce_AAX_Modifier_Injector.h>
#endif
#if JUCE_WIN_PER_MONITOR_DPI_AWARE && JUCE_MODULE_AVAILABLE_juce_gui_extra
#include <juce_gui_extra/embedding/juce_ScopedDPIAwarenessDisabler.h>
#endif
namespace juce
{
#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
extern void juce_repeatLastProcessPriority();
extern void juce_checkCurrentlyFocusedTopLevelWindow(); // in juce_TopLevelWindow.cpp
extern bool juce_isRunningInWine();
typedef bool (*CheckEventBlockedByModalComps) (const MSG&);
extern CheckEventBlockedByModalComps isEventBlockedByModalComps;
static bool shouldDeactivateTitleBar = true;
extern void* getUser32Function (const char*);
//==============================================================================
#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
//==============================================================================
typedef BOOL (WINAPI* RegisterTouchWindowFunc) (HWND, ULONG);
typedef BOOL (WINAPI* GetTouchInputInfoFunc) (HTOUCHINPUT, UINT, TOUCHINPUT*, int);
typedef BOOL (WINAPI* CloseTouchInputHandleFunc) (HTOUCHINPUT);
typedef BOOL (WINAPI* GetGestureInfoFunc) (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;
}
//==============================================================================
typedef BOOL (WINAPI* GetPointerTypeFunc) (UINT32, POINTER_INPUT_TYPE*);
typedef BOOL (WINAPI* GetPointerTouchInfoFunc) (UINT32, POINTER_TOUCH_INFO*);
typedef BOOL (WINAPI* GetPointerPenInfoFunc) (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);
}
//==============================================================================
typedef BOOL (WINAPI* SetProcessDPIAwareFunc) ();
typedef BOOL (WINAPI* SetProcessDPIAwarenessContextFunc) (DPI_AWARENESS_CONTEXT);
typedef BOOL (WINAPI* SetProcessDPIAwarenessFunc) (DPI_Awareness);
typedef DPI_AWARENESS_CONTEXT (WINAPI* SetThreadDPIAwarenessContextFunc) (DPI_AWARENESS_CONTEXT);
typedef HRESULT (WINAPI* GetDPIForMonitorFunc) (HMONITOR, Monitor_DPI_Type, UINT*, UINT*);
typedef UINT (WINAPI* GetDPIForWindowFunc) (HWND);
typedef HRESULT (WINAPI* GetProcessDPIAwarenessFunc) (HANDLE, DPI_Awareness*);
typedef DPI_AWARENESS_CONTEXT (WINAPI* GetWindowDPIAwarenessContextFunc) (HWND);
typedef DPI_AWARENESS_CONTEXT (WINAPI* GetThreadDPIAwarenessContextFunc) ();
typedef DPI_Awareness (WINAPI* GetAwarenessFromDpiAwarenessContextFunc) (DPI_AWARENESS_CONTEXT);
typedef BOOL (WINAPI* EnableNonClientDPIScalingFunc) (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 setDPIAwareness()
{
if (hasCheckedForDPIAwareness)
return;
hasCheckedForDPIAwareness = true;
#if ! JUCE_WIN_PER_MONITOR_DPI_AWARE
if (! JUCEApplicationBase::isStandaloneApp())
return;
#endif
HMODULE shcoreModule = GetModuleHandleA ("SHCore.dll");
if (shcoreModule != 0)
{
getDPIForMonitor = (GetDPIForMonitorFunc) GetProcAddress (shcoreModule, "GetDpiForMonitor");
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
getDPIForWindow = (GetDPIForWindowFunc) getUser32Function ("GetDpiForWindow");
getProcessDPIAwareness = (GetProcessDPIAwarenessFunc) GetProcAddress (shcoreModule, "GetProcessDpiAwareness");
getWindowDPIAwarenessContext = (GetWindowDPIAwarenessContextFunc) getUser32Function ("GetWindowDpiAwarenessContext");
getThreadDPIAwarenessContext = (GetThreadDPIAwarenessContextFunc) getUser32Function ("GetThreadDpiAwarenessContext");
getAwarenessFromDPIAwarenessContext = (GetAwarenessFromDpiAwarenessContextFunc) getUser32Function ("GetAwarenessFromDpiAwarenessContext");
setThreadDPIAwarenessContext = (SetThreadDPIAwarenessContextFunc) getUser32Function ("SetThreadDpiAwarenessContext");
// Only set the DPI awareness context of the process if we are a standalone app
if (! JUCEApplicationBase::isStandaloneApp())
return;
setProcessDPIAwarenessContext = (SetProcessDPIAwarenessContextFunc) getUser32Function ("SetProcessDpiAwarenessContext");
if (setProcessDPIAwarenessContext != nullptr
&& SUCCEEDED (setProcessDPIAwarenessContext (DPI_AWARENESS_CONTEXT_PER_MONITOR_AWARE_V2)))
return;
setProcessDPIAwareness = (SetProcessDPIAwarenessFunc) GetProcAddress (shcoreModule, "SetProcessDpiAwareness");
enableNonClientDPIScaling = (EnableNonClientDPIScalingFunc) getUser32Function ("EnableNonClientDpiScaling");
if (setProcessDPIAwareness != nullptr && enableNonClientDPIScaling != nullptr
&& SUCCEEDED (setProcessDPIAwareness (DPI_Awareness::DPI_Awareness_Per_Monitor_Aware)))
return;
#endif
if (setProcessDPIAwareness == nullptr)
setProcessDPIAwareness = (SetProcessDPIAwarenessFunc) GetProcAddress (shcoreModule, "SetProcessDpiAwareness");
if (setProcessDPIAwareness != nullptr && getDPIForMonitor != nullptr
&& SUCCEEDED (setProcessDPIAwareness (DPI_Awareness::DPI_Awareness_System_Aware)))
return;
}
// fallback for pre Windows 8.1 - equivalent to Process_System_DPI_Aware
setProcessDPIAware = (SetProcessDPIAwareFunc) getUser32Function ("SetProcessDPIAware");
if (setProcessDPIAware != nullptr)
setProcessDPIAware();
}
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
static bool isPerMonitorDPIAwareProcess()
{
static bool dpiAware = []() -> bool
{
setDPIAwareness();
if (getProcessDPIAwareness == nullptr)
return false;
DPI_Awareness context;
getProcessDPIAwareness (0, &context);
return context == DPI_Awareness::DPI_Awareness_Per_Monitor_Aware;
}();
return dpiAware;
}
#endif
static bool isPerMonitorDPIAwareWindow (HWND h)
{
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
jassert (h != nullptr);
setDPIAwareness();
if (getWindowDPIAwarenessContext != nullptr && getAwarenessFromDPIAwarenessContext != nullptr)
return getAwarenessFromDPIAwarenessContext (getWindowDPIAwarenessContext (h)) == DPI_Awareness::DPI_Awareness_Per_Monitor_Aware;
return isPerMonitorDPIAwareProcess();
#else
ignoreUnused (h);
return false;
#endif
}
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
static bool isPerMonitorDPIAwareThread()
{
setDPIAwareness();
if (getThreadDPIAwarenessContext != nullptr && getAwarenessFromDPIAwarenessContext != nullptr)
return getAwarenessFromDPIAwarenessContext (getThreadDPIAwarenessContext()) == DPI_Awareness::DPI_Awareness_Per_Monitor_Aware;
return isPerMonitorDPIAwareProcess();
}
#endif
static double getGlobalDPI()
{
setDPIAwareness();
HDC dc = GetDC (0);
auto dpi = (GetDeviceCaps (dc, LOGPIXELSX) + GetDeviceCaps (dc, LOGPIXELSY)) / 2.0;
ReleaseDC (0, dc);
return dpi;
}
//==============================================================================
#if JUCE_WIN_PER_MONITOR_DPI_AWARE && JUCE_MODULE_AVAILABLE_juce_gui_extra
ScopedDPIAwarenessDisabler::ScopedDPIAwarenessDisabler()
{
if (! isPerMonitorDPIAwareThread())
return;
if (setThreadDPIAwarenessContext != nullptr)
previousContext = setThreadDPIAwarenessContext (DPI_AWARENESS_CONTEXT_UNAWARE);
}
ScopedDPIAwarenessDisabler::~ScopedDPIAwarenessDisabler()
{
if (previousContext != nullptr)
setThreadDPIAwarenessContext ((DPI_AWARENESS_CONTEXT)previousContext);
}
#endif
//==============================================================================
typedef void (*SettingChangeCallbackFunc) (void);
extern SettingChangeCallbackFunc settingChangeCallback;
//==============================================================================
static Rectangle<int> rectangleFromRECT (const RECT& r) noexcept { return { r.left, r.top, r.right - r.left, r.bottom - r.top }; }
static RECT RECTFromRectangle (const Rectangle<int>& r) noexcept { return { r.getX(), r.getY(), r.getRight(), r.getBottom() }; }
static Point<int> pointFromPOINT (const POINT& p) noexcept { return { p.x, p.y }; }
static POINT POINTFromPoint (const Point<int>& p) noexcept { return { p.x, p.y }; }
//==============================================================================
static const Displays::Display* getCurrentDisplayFromScaleFactor (HWND hwnd);
static Rectangle<int> convertPhysicalScreenRectangleToLogical (const Rectangle<int>& r, HWND h) noexcept
{
if (isPerMonitorDPIAwareWindow (h))
return Desktop::getInstance().getDisplays().physicalToLogical (r, getCurrentDisplayFromScaleFactor (h));
return r;
}
static Rectangle<int> convertLogicalScreenRectangleToPhysical (const Rectangle<int>& r, HWND h) noexcept
{
if (isPerMonitorDPIAwareWindow (h))
return Desktop::getInstance().getDisplays().logicalToPhysical (r, getCurrentDisplayFromScaleFactor (h));
return r;
}
static Point<int> convertPhysicalScreenPointToLogical (const Point<int>& p, HWND h) noexcept
{
if (isPerMonitorDPIAwareWindow (h))
return Desktop::getInstance().getDisplays().physicalToLogical (p, getCurrentDisplayFromScaleFactor (h));
return p;
}
static double getScaleFactorForWindow (HWND h)
{
if (isPerMonitorDPIAwareWindow (h) && getDPIForWindow != nullptr)
return (double) getDPIForWindow (h) / USER_DEFAULT_SCREEN_DPI;
return 1.0;
}
//==============================================================================
static void setWindowPos (HWND hwnd, Rectangle<int> bounds, UINT flags, bool adjustTopLeft = false)
{
if (isPerMonitorDPIAwareWindow (hwnd))
{
if (adjustTopLeft)
bounds = convertLogicalScreenRectangleToPhysical (bounds, hwnd)
.withPosition (Desktop::getInstance().getDisplays().logicalToPhysical (bounds.getTopLeft()));
else
bounds = convertLogicalScreenRectangleToPhysical (bounds, hwnd);
}
SetWindowPos (hwnd, 0, bounds.getX(), bounds.getY(), bounds.getWidth(), bounds.getHeight(), flags);
}
static RECT getWindowRect (HWND hwnd)
{
RECT r;
GetWindowRect (hwnd, &r);
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
auto windowDPIAware = isPerMonitorDPIAwareWindow (hwnd);
auto threadDPIAware = isPerMonitorDPIAwareThread();
// If these don't match then we need to convert the RECT returned from GetWindowRect() as it depends
// on the DPI awareness of the calling thread
if (windowDPIAware != threadDPIAware)
{
if (! windowDPIAware)
{
// Thread is per-monitor DPI aware so RECT needs to be converted from physical to logical for
// the DPI unaware window
return RECTFromRectangle (Desktop::getInstance().getDisplays().physicalToLogical (rectangleFromRECT (r)));
}
else if (! threadDPIAware)
{
// Thread is DPI unaware so RECT needs to be converted from logical to physical for the per-monitor
// DPI aware window
return RECTFromRectangle (Desktop::getInstance().getDisplays().logicalToPhysical (rectangleFromRECT (r)));
}
}
#endif
return r;
}
static void setWindowZOrder (HWND hwnd, HWND insertAfter)
{
SetWindowPos (hwnd, insertAfter, 0, 0, 0, 0, SWP_NOMOVE | SWP_NOSIZE | SWP_NOACTIVATE | SWP_NOSENDCHANGING);
}
//==============================================================================
double Desktop::getDefaultMasterScale()
{
if (! JUCEApplicationBase::isStandaloneApp())
return 1.0;
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
if (isPerMonitorDPIAwareProcess())
return 1.0;
#endif
return getGlobalDPI() / USER_DEFAULT_SCREEN_DPI;
}
bool Desktop::canUseSemiTransparentWindows() noexcept { return true; }
Desktop::DisplayOrientation Desktop::getCurrentOrientation() const
{
return upright;
}
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;
}
HDC dc = GetDC (0);
hdc = CreateCompatibleDC (dc);
ReleaseDC (0, dc);
SetMapMode (hdc, MM_TEXT);
hBitmap = CreateDIBSection (hdc, (BITMAPINFO*) &(bitmapInfo), DIB_RGB_COLORS,
(void**) &bitmapData, 0, 0);
previousBitmap = SelectObject (hdc, hBitmap);
if (format == Image::ARGB && clearImage)
zeromem (bitmapData, (size_t) std::abs (h * lineStride));
imageData = bitmapData - (lineStride * (h - 1));
}
~WindowsBitmapImage()
{
SelectObject (hdc, previousBitmap); // Selecting the previous bitmap before deleting the DC avoids a warning in BoundsChecker
DeleteDC (hdc);
DeleteObject (hBitmap);
}
ImageType* createType() const override { return new NativeImageType(); }
LowLevelGraphicsContext* createLowLevelContext() override
{
sendDataChangeMessage();
return new LowLevelGraphicsSoftwareRenderer (Image (this));
}
void initialiseBitmapData (Image::BitmapData& bitmap, int x, int y, Image::BitmapData::ReadWriteMode mode) override
{
bitmap.data = imageData + x * pixelStride + y * lineStride;
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 = getWindowRect (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, 0, &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()
{
auto dc = GetDC (0);
auto bitsPerPixel = GetDeviceCaps (dc, BITSPIXEL);
ReleaseDC (0, dc);
return bitsPerPixel > 24;
}
JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (WindowsBitmapImage)
};
//==============================================================================
Image createSnapshotOfNativeWindow (void*);
Image createSnapshotOfNativeWindow (void* nativeWindowHandle)
{
auto hwnd = (HWND) nativeWindowHandle;
auto r = getWindowRect (hwnd);
const int w = r.right - r.left;
const int h = r.bottom - r.top;
auto nativeBitmap = new WindowsBitmapImage (Image::RGB, w, h, true);
Image bitmap (nativeBitmap);
HDC dc = GetDC (hwnd);
BitBlt (nativeBitmap->hdc, 0, 0, w, h, dc, 0, 0, SRCCOPY);
ReleaseDC (hwnd, dc);
return SoftwareImageType().convert (bitmap);
}
//==============================================================================
namespace IconConverters
{
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 (! SUCCEEDED (::GetIconInfo (icon, &info)))
return {};
BITMAP bm;
if (! (::GetObject (info.hbmColor, sizeof (BITMAP), &bm)
&& bm.bmWidth > 0 && bm.bmHeight > 0))
return {};
if (auto* tempDC = ::GetDC (nullptr))
{
if (auto* dc = ::CreateCompatibleDC (tempDC))
{
BITMAPV5HEADER header = { 0 };
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 = LCS_WINDOWS_COLOR_SPACE;
header.bV5Intent = LCS_GM_IMAGES;
uint32* bitmapImageData = nullptr;
if (auto* dib = ::CreateDIBSection (tempDC, (BITMAPINFO*) &header, DIB_RGB_COLORS,
(void**) &bitmapImageData, nullptr, 0))
{
auto oldObject = ::SelectObject (dc, dib);
auto numPixels = bm.bmWidth * bm.bmHeight;
auto numColourComponents = 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<bool> 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);
::ReleaseDC (nullptr, tempDC);
return result;
}
::DeleteDC (dc);
}
::ReleaseDC (nullptr, tempDC);
}
return {};
}
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, 0);
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;
}
}
//==============================================================================
JUCE_COMCLASS (ITipInvocation, "37c994e7-432b-4834-a2f7-dce1f13b834b") : public IUnknown
{
static CLSID getCLSID() noexcept { return { 0x4ce576fa, 0x83dc, 0x4f88, { 0x95, 0x1c, 0x9d, 0x07, 0x82, 0xb4, 0xe3, 0x76 } }; }
virtual HRESULT STDMETHODCALLTYPE Toggle (HWND) = 0;
};
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()
{
clearSingletonInstance();
}
void timerCallback() override
{
stopTimer();
if (reentrant || tipInvocation == nullptr)
return;
const ScopedValueSetter<bool> setter (reentrant, true, false);
auto isActive = isKeyboardVisible();
if (isActive != shouldBeActive)
{
if (! isActive)
{
tipInvocation->Toggle (GetDesktopWindow());
}
else
{
if (auto hwnd = FindWindow (L"IPTip_Main_Window", NULL))
PostMessage (hwnd, WM_SYSCOMMAND, (int) SC_CLOSE, 0);
}
}
}
bool isVisible()
{
if (auto hwnd = FindWindowEx (NULL, NULL, L"ApplicationFrameWindow", NULL))
return FindWindowEx (hwnd, NULL, L"Windows.UI.Core.CoreWindow", L"Microsoft Text Input Application") != NULL;
return false;
}
bool isVisibleLegacy()
{
if (auto hwnd = FindWindow (L"IPTip_Main_Window", NULL))
{
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<ITipInvocation> tipInvocation;
};
JUCE_IMPLEMENT_SINGLETON (OnScreenKeyboard)
//==============================================================================
struct HSTRING_PRIVATE;
typedef HSTRING_PRIVATE* HSTRING;
struct IInspectable : public IUnknown
{
virtual HRESULT STDMETHODCALLTYPE GetIids (ULONG* ,IID**) = 0;
virtual HRESULT STDMETHODCALLTYPE GetRuntimeClassName (HSTRING*) = 0;
virtual HRESULT STDMETHODCALLTYPE GetTrustLevel (void*) = 0;
};
JUCE_COMCLASS (IUIViewSettingsInterop, "3694dbf9-8f68-44be-8ff5-195c98ede8a6") : public IInspectable
{
virtual HRESULT STDMETHODCALLTYPE GetForWindow (HWND, REFIID, void**) = 0;
};
JUCE_COMCLASS (IUIViewSettings, "c63657f6-8850-470d-88f8-455e16ea2c26") : public IInspectable
{
enum UserInteractionMode
{
Mouse = 0,
Touch = 1
};
virtual HRESULT STDMETHODCALLTYPE GetUserInteractionMode (UserInteractionMode*) = 0;
};
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;
if (createHString (uwpClassName, (::UINT32) wcslen (uwpClassName), &uwpClassId) != S_OK
|| uwpClassId == nullptr)
return;
status = roGetActivationFactory (uwpClassId, __uuidof (IUIViewSettingsInterop),
(void**) viewSettingsInterop.resetAndGetPointerAddress());
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<IUIViewSettings> viewSettings;
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;
}
return false;
}
private:
//==============================================================================
struct ComBaseModule
{
ComBaseModule() {}
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 = {};
};
typedef HRESULT (WINAPI* RoInitializeFuncPtr) (int);
typedef HRESULT (WINAPI* RoGetActivationFactoryFuncPtr) (HSTRING, REFIID, void**);
typedef HRESULT (WINAPI* WindowsCreateStringFuncPtr) (LPCWSTR,UINT32, HSTRING*);
typedef HRESULT (WINAPI* WindowsDeleteStringFuncPtr) (HSTRING);
ComBaseModule comBaseDLL;
ComSmartPtr<IUIViewSettingsInterop> viewSettingsInterop;
RoInitializeFuncPtr roInitialize;
RoGetActivationFactoryFuncPtr roGetActivationFactory;
WindowsCreateStringFuncPtr createHString;
WindowsDeleteStringFuncPtr deleteHString;
};
//==============================================================================
class HWNDComponentPeer : public ComponentPeer,
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();
// make sure that the on-screen keyboard code is loaded
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;
};
}
~HWNDComponentPeer()
{
shadower = nullptr;
currentTouches.deleteAllTouchesForPeer (this);
// do this before the next bit to avoid messages arriving for this window
// before it's destroyed
JuceWindowIdentifier::setAsJUCEWindow (hwnd, false);
callFunctionIfNotLocked (&destroyWindowCallback, (void*) hwnd);
if (currentWindowIcon != 0)
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
{
ShowWindow (hwnd, shouldBeVisible ? SW_SHOWNA : SW_HIDE);
if (shouldBeVisible)
InvalidateRect (hwnd, 0, 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<int> (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<int>& bounds, bool isNowFullScreen) override
{
fullScreen = isNowFullScreen;
auto newBounds = windowBorder.addedTo (bounds);
if (isUsingUpdateLayeredWindow())
{
if (auto parentHwnd = GetParent (hwnd))
{
auto parentRect = convertPhysicalScreenRectangleToLogical (rectangleFromRECT (getWindowRect (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, ! isInDPIChange);
if (hasResized && isValidPeer (this))
{
updateBorderSize();
repaintNowIfTransparent();
}
}
Rectangle<int> getBounds() const override
{
auto bounds = getWindowRect (hwnd);
if (auto parentH = GetParent (hwnd))
{
auto r = getWindowRect (parentH);
auto localBounds = Rectangle<int>::leftTopRightBottom (bounds.left, bounds.top,
bounds.right, bounds.bottom).translated (-r.left, -r.top);
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
if (isPerMonitorDPIAwareWindow (hwnd))
localBounds = (localBounds.toDouble() / getPlatformScaleFactor()).toNearestInt();
#endif
return windowBorder.subtractedFrom (localBounds);
}
return windowBorder.subtractedFrom (convertPhysicalScreenRectangleToLogical (rectangleFromRECT (bounds), hwnd));
}
Point<int> getScreenPosition() const
{
auto r = convertPhysicalScreenRectangleToLogical (rectangleFromRECT (getWindowRect (hwnd)), hwnd);
return { r.getX() + windowBorder.getLeft(),
r.getY() + windowBorder.getTop() };
}
Point<float> localToGlobal (Point<float> relativePosition) override { return relativePosition + getScreenPosition().toFloat(); }
Point<float> globalToLocal (Point<float> screenPosition) override { return screenPosition - getScreenPosition().toFloat(); }
void setAlpha (float newAlpha) override
{
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, 0, 0, RDW_ERASE | RDW_INVALIDATE | RDW_FRAME | RDW_ALLCHILDREN);
}
}
else
{
updateLayeredWindowAlpha = intAlpha;
component.repaint();
}
}
void setMinimised (bool shouldBeMinimised) override
{
if (shouldBeMinimised != isMinimised())
ShowWindow (hwnd, shouldBeMinimised ? SW_MINIMIZE : SW_SHOWNORMAL);
}
bool isMinimised() const override
{
WINDOWPLACEMENT wp;
wp.length = sizeof (WINDOWPLACEMENT);
GetWindowPlacement (hwnd, &wp);
return wp.showCmd == SW_SHOWMINIMIZED;
}
void setFullScreen (bool shouldBeFullScreen) override
{
setMinimised (false);
if (isFullScreen() != shouldBeFullScreen)
{
if (constrainer != nullptr)
constrainer->resizeStart();
fullScreen = shouldBeFullScreen;
const WeakReference<Component> 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<int> localPos, bool trueIfInAChildWindow) const override
{
auto r = convertPhysicalScreenRectangleToLogical (rectangleFromRECT (getWindowRect (hwnd)), hwnd);
if (! r.withZeroOrigin().contains (localPos))
return false;
auto globalPos = localPos + getScreenPosition();
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
if (isPerMonitorDPIAwareThread() || isPerMonitorDPIAwareWindow (hwnd))
globalPos = Desktop::getInstance().getDisplays().logicalToPhysical (globalPos);
#endif
auto w = WindowFromPoint (POINTFromPoint (globalPos));
return w == hwnd || (trueIfInAChildWindow && (IsChild (hwnd, w) != 0));
}
BorderSize<int> 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
{
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
{
if (auto* otherPeer = dynamic_cast<HWNDComponentPeer*> (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, 0) == (void*) hwnd;
}
void grabFocus() override
{
const bool oldDeactivate = shouldDeactivateTitleBar;
shouldDeactivateTitleBar = ((styleFlags & windowIsTemporary) == 0);
callFunctionIfNotLocked (&setFocusCallback, hwnd);
shouldDeactivateTitleBar = oldDeactivate;
}
void textInputRequired (Point<int>, 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 dismissPendingTextInput() override
{
imeHandler.handleSetContext (hwnd, false);
if (uwpViewSettings.isTabletModeActivatedForWindow (hwnd))
OnScreenKeyboard::getInstance()->deactivate();
}
void repaint (const Rectangle<int>& area) override
{
auto scale = getPlatformScaleFactor();
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
// if the calling thread is DPI-aware but we are invalidating a non-DPI aware window RECT, we actually have to
// divide the bounds by the scale factor as it will get multiplied for the virtualised paint callback...
if (isPerMonitorDPIAwareThread() && ! isPerMonitorDPIAwareWindow (hwnd))
scale = 1.0 / Desktop::getInstance().getDisplays().getMainDisplay().scale;
#endif
const RECT r = { roundToInt (area.getX() * scale), roundToInt (area.getY() * scale),
roundToInt (area.getRight() * scale), roundToInt (area.getBottom() * scale) };
InvalidateRect (hwnd, &r, FALSE);
}
void performAnyPendingRepaintsNow() override
{
if (component.isVisible())
{
WeakReference<Component> 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();
}
}
//==============================================================================
static HWNDComponentPeer* getOwnerOfWindow (HWND h) noexcept
{
if (h != 0 && 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<IDropTarget>
{
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<float> getMousePos (POINTL mousePos) const
{
Point<float> screenPos;
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
auto h = (HWND) peer.getNativeHandle();
if (isPerMonitorDPIAwareWindow (h))
screenPos = convertPhysicalScreenPointToLogical (pointFromPOINT ({ mousePos.x, mousePos.y }), h).toFloat();
else
#endif
screenPos = pointFromPOINT ({ mousePos.x, mousePos.y }).toFloat() / static_cast<float> (getGlobalDPI() / USER_DEFAULT_SCREEN_DPI);
return peer.getComponent().getLocalPoint (nullptr, screenPos);
}
template <typename CharType>
void parseFileList (const CharType* names, const SIZE_T totalLen)
{
for (unsigned int i = 0;;)
{
unsigned int len = 0;
while (i + len < totalLen && names[i + len] != 0)
++len;
if (len == 0)
break;
dragInfo.files.add (String (names + i, len));
i += len + 1;
}
}
struct DroppedData
{
DroppedData (IDataObject* dataObject, CLIPFORMAT type)
{
FORMATETC format = { type, 0, DVASPECT_CONTENT, -1, TYMED_HGLOBAL };
STGMEDIUM resetMedium = { TYMED_HGLOBAL, { 0 }, 0 };
medium = resetMedium;
if (SUCCEEDED (error = dataObject->GetData (&format, &medium)))
{
dataSize = GlobalSize (medium.hGlobal);
data = GlobalLock (medium.hGlobal);
}
}
~DroppedData()
{
if (data != nullptr)
GlobalUnlock (medium.hGlobal);
}
HRESULT error;
STGMEDIUM medium;
void* data = {};
SIZE_T dataSize;
};
HRESULT updateFileList (IDataObject* const dataObject)
{
if (peerIsDeleted)
return S_FALSE;
dragInfo.clear();
{
DroppedData fileData (dataObject, CF_HDROP);
if (SUCCEEDED (fileData.error))
{
auto dropFiles = static_cast<const LPDROPFILES> (fileData.data);
const void* const names = addBytesToPointer (dropFiles, sizeof (DROPFILES));
if (dropFiles->fWide)
parseFileList (static_cast<const WCHAR*> (names), fileData.dataSize);
else
parseFileList (static_cast<const char*> (names), fileData.dataSize);
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* h = getOwnerOfWindow (m.hwnd))
return m.message == WM_KEYDOWN ? h->doKeyDown (m.wParam)
: h->doKeyUp (m.wParam);
return false;
}
double getPlatformScaleFactor() const noexcept override
{
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
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;
#else
return 1.0;
#endif
}
private:
HWND hwnd, parentToAddTo;
std::unique_ptr<DropShadower> shadower;
RenderingEngineType currentRenderingEngine;
#if JUCE_DIRECT2D
std::unique_ptr<Direct2DLowLevelGraphicsContext> direct2DContext;
#endif
uint32 lastPaintTime = 0;
ULONGLONG lastMagnifySize = 0;
bool fullScreen = false, isDragging = false, isMouseOver = false,
hasCreatedCaret = false, constrainerIsResizing = false;
BorderSize<int> windowBorder;
HICON currentWindowIcon = 0;
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 isInDPIChange = false;
//==============================================================================
static MultiTouchMapper<DWORD> 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] = { 0 };
GetModuleFileName (moduleHandle, moduleFile, 1024);
WORD iconNum = 0;
WNDCLASSEX wcex = { 0 };
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<HWNDComponentPeer*> (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 != 0)
{
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, 0,
(HINSTANCE) Process::getCurrentModuleInstanceHandle(), 0);
if (hwnd != 0)
{
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 JUCE_WIN_PER_MONITOR_DPI_AWARE
if (isPerMonitorDPIAwareThread())
{
auto bounds = component.getBounds();
if (bounds.isEmpty())
scaleFactor = Desktop::getInstance().getDisplays().getMainDisplay().scale;
else
scaleFactor = Desktop::getInstance().getDisplays().findDisplayForRect (bounds).scale;
scaleFactor /= Desktop::getInstance().getGlobalScaleFactor();
}
#endif
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 = 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
{
jassertfalse;
}
}
static BOOL CALLBACK revokeChildDragDropCallback (HWND hwnd, LPARAM) { RevokeDragDrop (hwnd); return TRUE; }
static void* destroyWindowCallback (void* handle)
{
auto hwnd = reinterpret_cast<HWND> (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)
{
SetForegroundWindow ((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.reset (component.getLookAndFeel().createDropShadowerForComponent (&component));
if (shadower != nullptr)
shadower->setOwner (&component);
}
}
void setIcon (const Image& newIcon)
{
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 != 0)
DestroyIcon (currentWindowIcon);
currentWindowIcon = hicon;
}
}
void setMessageFilter()
{
typedef BOOL (WINAPI* ChangeWindowMessageFilterExFunc) (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<int>* clip;
Point<int> origin;
int savedDC;
};
static BOOL CALLBACK clipChildWindowCallback (HWND hwnd, LPARAM context)
{
if (IsWindowVisible (hwnd))
{
auto& info = *(ChildWindowClippingInfo*) context;
auto parent = GetParent (hwnd);
if (parent == info.peer->hwnd)
{
auto r = getWindowRect (hwnd);
POINT pos = { r.left, r.top };
ScreenToClient (GetParent (hwnd), &pos);
Rectangle<int> clip (pos.x, pos.y,
r.right - r.left,
r.bottom - r.top);
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<bool> 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 = getWindowRect (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<int> contextClip;
const Rectangle<int> clipBounds (w, h);
bool needToPaintAll = true;
if (regionType == COMPLEXREGION && ! transparent)
{
HRGN clipRgn = CreateRectRgnIndirect (&paintStruct.rcPaint);
CombineRgn (rgn, rgn, clipRgn, RGN_AND);
DeleteObject (clipRgn);
char rgnData[8192];
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 = (const RECT*) (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<int> (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<int> (w, h));
}
ChildWindowClippingInfo childClipInfo = { dc, this, &contextClip, Point<int> (x, y), 0 };
EnumChildWindows (hwnd, clipChildWindowCallback, (LPARAM) &childClipInfo);
if (! contextClip.isEmpty())
{
if (transparent)
for (auto& i : contextClip)
offscreenImage.clear (i);
{
std::unique_ptr<LowLevelGraphicsContext> context (component.getLookAndFeel()
.createGraphicsContext (offscreenImage, Point<int> (-x, -y), contextClip));
context->addTransform (AffineTransform::scale ((float) getPlatformScaleFactor()));
handlePaint (*context);
}
static_cast<WindowsBitmapImage*> (offscreenImage.getPixelData())
->blitToWindow (hwnd, dc, transparent, x, y, updateLayeredWindowAlpha);
}
if (childClipInfo.savedDC != 0)
RestoreDC (dc, childClipInfo.savedDC);
}
}
//==============================================================================
void doMouseEvent (Point<float> 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 int 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 (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<float> 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::invalidPressure,
MouseInputSource::invalidOrientation, modsToSend);
}
}
void doMouseDown (Point<float> 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::invalidPressure);
}
}
void doMouseUp (Point<float> 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::invalidPressure);
}
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::invalidPressure);
}
ComponentPeer* findPeerUnderMouse (Point<float>& localPos)
{
auto currentMousePos = getPOINTFromLParam (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<float> 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<float> 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) (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<TOUCHINPUT> inputInfo (numInputs);
if (getTouchInputInfo (eventHandle, 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::invalidPressure,
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, { -10.0f, -10.0f }, 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 ? touchInfo.pressure
: MouseInputSource::invalidPressure;
const auto orientation = touchInfo.touchMask & TOUCH_MASK_ORIENTATION ? degreesToRadians (static_cast<float> (touchInfo.orientation))
: MouseInputSource::invalidOrientation;
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) ? penInfo.pressure / 1024.0f : MouseInputSource::invalidPressure;
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<float> 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<float> (penInfo.rotation)) : MouseInputSource::invalidRotation;
penDetails.tiltX = (penInfo.penMask & PEN_MASK_TILT_X) ? penInfo.tiltX / 90.0f : MouseInputSource::invalidTiltX;
penDetails.tiltY = (penInfo.penMask & PEN_MASK_TILT_Y) ? penInfo.tiltY / 90.0f : MouseInputSource::invalidTiltY;
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::invalidOrientation, 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::invalidOrientation, time, penDetails);
if (! isValidPeer (this)) // (in case this component was deleted by the event)
return false;
if (isUp)
{
handleMouseEvent (MouseInputSource::InputSourceType::pen, { -10.0f, -10.0f }, ModifierKeys::currentModifiers,
pressure, MouseInputSource::invalidOrientation, 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:
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];
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())
{
handleKeyPress (key, 0);
return true;
}
}
return false;
}
bool isConstrainedNativeWindow() const
{
return constrainer != nullptr
&& (styleFlags & (windowHasTitleBar | windowIsResizable)) == (windowHasTitleBar | windowIsResizable)
&& ! isKioskMode();
}
Rectangle<int> getCurrentScaledBounds() const
{
return ScalingHelpers::unscaledScreenPosToScaled (component, windowBorder.addedTo (ScalingHelpers::scaledScreenPosToUnscaled (component, component.getBounds())));
}
LRESULT handleSizeConstraining (RECT& r, const WPARAM wParam)
{
if (isConstrainedNativeWindow())
{
auto pos = ScalingHelpers::unscaledScreenPosToScaled (component, convertPhysicalScreenRectangleToLogical (rectangleFromRECT (r), hwnd));
auto current = getCurrentScaledBounds();
constrainer->checkBounds (pos, current,
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), hwnd));
}
return TRUE;
}
LRESULT handlePositionChanging (WINDOWPOS& wp)
{
if (isConstrainedNativeWindow())
{
if ((wp.flags & (SWP_NOMOVE | SWP_NOSIZE)) != (SWP_NOMOVE | SWP_NOSIZE)
&& (wp.x > -32000 && wp.y > -32000)
&& ! Component::isMouseButtonDownAnywhere())
{
auto pos = ScalingHelpers::unscaledScreenPosToScaled (component, convertPhysicalScreenRectangleToLogical (rectangleFromRECT ({ wp.x, wp.y, wp.x + wp.cx, wp.y + wp.cy }), hwnd));
auto current = getCurrentScaledBounds();
constrainer->checkBounds (pos, current,
Desktop::getInstance().getDisplays().getTotalBounds (true),
pos.getY() != current.getY() && pos.getBottom() == current.getBottom(),
pos.getX() != current.getX() && pos.getRight() == current.getRight(),
pos.getY() == current.getY() && pos.getBottom() != current.getBottom(),
pos.getX() == current.getX() && pos.getRight() != current.getRight());
pos = convertLogicalScreenRectangleToPhysical (ScalingHelpers::scaledScreenPosToUnscaled (component, pos), hwnd);
wp.x = pos.getX();
wp.y = pos.getY();
wp.cx = pos.getWidth();
wp.cy = pos.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 handlePositionChanged()
{
auto pos = getCurrentMousePos();
if (contains (pos.roundToInt(), false))
{
if (! areOtherTouchSourcesActive())
doMouseEvent (pos, MouseInputSource::invalidPressure);
if (! isValidPeer (this))
return true;
}
handleMovedOrResized();
return ! dontRepaint; // to allow non-accelerated openGL windows to draw themselves correctly..
}
LRESULT handleDPIChanging (int newDPI, RECT newRect)
{
auto newScale = (double) newDPI / USER_DEFAULT_SCREEN_DPI;
if (! approximatelyEqual (scaleFactor, newScale))
{
const ScopedValueSetter<bool> setter (isInDPIChange, true);
auto oldScale = scaleFactor;
scaleFactor = newScale;
auto scaleRatio = scaleFactor / oldScale;
EnumChildWindows (hwnd, scaleChildHWNDCallback, (LPARAM) &scaleRatio);
setBounds (windowBorder.subtractedFrom (convertPhysicalScreenRectangleToLogical (rectangleFromRECT (newRect), hwnd)), false);
updateShadower();
InvalidateRect (hwnd, nullptr, FALSE);
scaleFactorListeners.call ([&] (ScaleFactorListener& l) { l.nativeScaleFactorChanged (scaleFactor); });
}
return 0;
}
static BOOL CALLBACK scaleChildHWNDCallback (HWND hwnd, LPARAM context)
{
auto r = getWindowRect (hwnd);
POINT p { r.left, r.top };
ScreenToClient (GetParent (hwnd), &p);
auto ratio = *(double*) context;
SetWindowPos (hwnd, 0, roundToInt (p.x * ratio), roundToInt (p.y * ratio),
roundToInt ((r.right - r.left) * ratio), roundToInt ((r.bottom - r.top) * ratio),
SWP_NOACTIVATE | SWP_NOZORDER | SWP_NOOWNERZORDER);
if (auto* peer = getOwnerOfWindow (hwnd))
peer->handleChildDPIChanging();
return TRUE;
}
void handleChildDPIChanging()
{
const ScopedValueSetter<bool> setter (isInDPIChange, true);
scaleFactor = getScaleFactorForWindow (parentToAddTo);
updateShadower();
InvalidateRect (hwnd, nullptr, FALSE);
scaleFactorListeners.call ([&] (ScaleFactorListener& l) { l.nativeScaleFactorChanged (scaleFactor); });
}
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, Desktop::getInstance().getDisplays().findDisplayForRect (component.getScreenBounds()).userArea,
SWP_NOACTIVATE | SWP_NOOWNERZORDER | SWP_NOZORDER | SWP_NOSENDCHANGING);
}
static void forceDisplayUpdate()
{
const_cast<Displays&> (Desktop::getInstance().getDisplays()).refresh();
}
//==============================================================================
#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<float> getPointFromLocalLParam (LPARAM lParam) noexcept
{
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
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 localPos = getPOINTFromLParam (lParam);
auto r = getWindowRect (hwnd);
return globalToLocal (Desktop::getInstance().getDisplays().physicalToLogical (pointFromPOINT ({ r.left + localPos.x + roundToInt (windowBorder.getLeft() * scaleFactor),
r.top + localPos.y + roundToInt (windowBorder.getTop() * scaleFactor) })).toFloat());
}
#endif
return { static_cast<float> (GET_X_LPARAM (lParam)), static_cast<float> (GET_Y_LPARAM (lParam)) };
}
Point<float> getCurrentMousePos() noexcept
{
return globalToLocal (convertPhysicalScreenPointToLogical (pointFromPOINT (getPOINTFromLParam (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<WINDOWPOS*> (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();
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, 0, 0);
// intentional fall-through...
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 &= ~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;
default:
break;
}
return DefWindowProcW (h, message, wParam, lParam);
}
bool sendInputAttemptWhenModalMessage()
{
if (component.isCurrentlyBlockedByAnotherModalComponent())
{
if (Component* const current = Component::getCurrentlyModalComponent())
current->inputAttemptWhenModal();
return true;
}
return false;
}
//==============================================================================
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<int>::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<int>::emptyRange (target->getHighlightedRegion().getStart());
if ((lParam & GCS_RESULTSTR) != 0) // (composition has finished)
{
replaceCurrentSelection (target, getCompositionString (hImc, GCS_RESULTSTR),
Range<int>::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<int> compositionRange; // The range being modified in the TextInputTarget
bool compositionInProgress;
//==============================================================================
void reset()
{
compositionRange = Range<int>::emptyRange (-1);
compositionInProgress = false;
}
String getCompositionString (HIMC hImc, const DWORD type) const
{
jassert (hImc != 0);
const int stringSizeBytes = ImmGetCompositionString (hImc, type, 0, 0);
if (stringSizeBytes > 0)
{
HeapBlock<TCHAR> buffer;
buffer.calloc (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 != 0);
if ((lParam & CS_NOMOVECARET) != 0)
return compositionRange.getStart();
if ((lParam & GCS_CURSORPOS) != 0)
{
const int localCaretPos = ImmGetCompositionString (hImc, GCS_CURSORPOS, 0, 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<int> getCompositionSelection (HIMC hImc, LPARAM lParam) const
{
jassert (hImc != 0);
int selectionStart = 0;
int selectionEnd = 0;
if ((lParam & GCS_COMPATTR) != 0)
{
// Get size of attributes array:
const int attributeSizeBytes = ImmGetCompositionString (hImc, GCS_COMPATTR, 0, 0);
if (attributeSizeBytes > 0)
{
// Get attributes (8 bit flag per character):
HeapBlock<char> 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<int> (selectionStart, selectionEnd) + compositionRange.getStart();
}
void replaceCurrentSelection (TextInputTarget* const target, const String& newContent, Range<int> newSelection)
{
if (compositionInProgress)
target->setHighlightedRegion (compositionRange);
target->insertTextAtCaret (newContent);
compositionRange.setLength (newContent.length());
if (newSelection.getStart() < 0)
newSelection = Range<int>::emptyRange (compositionRange.getEnd());
target->setHighlightedRegion (newSelection);
}
Array<Range<int>> getCompositionUnderlines (HIMC hImc, LPARAM lParam) const
{
Array<Range<int>> result;
if (hImc != 0 && (lParam & GCS_COMPCLAUSE) != 0)
{
auto clauseDataSizeBytes = ImmGetCompositionString (hImc, GCS_COMPCLAUSE, 0, 0);
if (clauseDataSizeBytes > 0)
{
const size_t numItems = clauseDataSizeBytes / sizeof (uint32);
HeapBlock<uint32> clauseData (numItems);
if (ImmGetCompositionString (hImc, GCS_COMPCLAUSE, clauseData, (DWORD) clauseDataSizeBytes) > 0)
for (size_t i = 0; i + 1 < numItems; ++i)
result.add (Range<int> ((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<Component*> (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();
}
IMEHandler imeHandler;
//==============================================================================
JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (HWNDComponentPeer)
};
MultiTouchMapper<DWORD> 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)
{
return new HWNDComponentPeer (component, ComponentPeer::windowIgnoresMouseClicks,
(HWND) parentHWND, true);
}
JUCE_API bool shouldScaleGLWindow (void* hwnd)
{
return isPerMonitorDPIAwareWindow ((HWND) hwnd);
}
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) { return HWNDComponentPeer::offerKeyMessageToJUCEWindow (m); }
//==============================================================================
bool JUCE_CALLTYPE Process::isForegroundProcess()
{
if (auto fg = GetForegroundWindow())
{
DWORD processID = 0;
GetWindowThreadProcessId (fg, &processID);
return processID == 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<bool*> (lParam) = true;
return FALSE;
}
}
}
return TRUE;
}
bool juce_areThereAnyAlwaysOnTopWindows()
{
bool anyAlwaysOnTopFound = false;
EnumWindows (&enumAlwaysOnTopWindows, (LPARAM) &anyAlwaysOnTopFound);
return anyAlwaysOnTopFound;
}
//==============================================================================
class WindowsMessageBox : public AsyncUpdater
{
public:
WindowsMessageBox (AlertWindow::AlertIconType iconType,
const String& boxTitle, const String& m,
Component* associatedComponent, UINT extraFlags,
ModalComponentManager::Callback* cb, const bool runAsync)
: flags (extraFlags | getMessageBoxFlags (iconType)),
owner (getWindowForMessageBox (associatedComponent)),
title (boxTitle), message (m), callback (cb)
{
if (runAsync)
triggerAsyncUpdate();
}
int getResult() const
{
const int r = MessageBox (owner, message.toWideCharPointer(), title.toWideCharPointer(), flags);
return (r == IDYES || r == IDOK) ? 1 : (r == IDNO && (flags & 1) != 0 ? 2 : 0);
}
void handleAsyncUpdate() override
{
const int result = getResult();
if (callback != nullptr)
callback->modalStateFinished (result);
delete this;
}
private:
UINT flags;
HWND owner;
String title, message;
std::unique_ptr<ModalComponentManager::Callback> callback;
static UINT getMessageBoxFlags (AlertWindow::AlertIconType iconType) noexcept
{
UINT flags = MB_TASKMODAL | MB_SETFOREGROUND;
// this window can get lost behind JUCE windows which are set to be alwaysOnTop
// so if there are any set it to be topmost
if (juce_areThereAnyAlwaysOnTopWindows())
flags |= MB_TOPMOST;
switch (iconType)
{
case AlertWindow::QuestionIcon: flags |= MB_ICONQUESTION; break;
case AlertWindow::WarningIcon: flags |= MB_ICONWARNING; break;
case AlertWindow::InfoIcon: flags |= MB_ICONINFORMATION; break;
default: break;
}
return flags;
}
static HWND getWindowForMessageBox (Component* associatedComponent)
{
return associatedComponent != nullptr ? (HWND) associatedComponent->getWindowHandle() : 0;
}
};
#if JUCE_MODAL_LOOPS_PERMITTED
void JUCE_CALLTYPE NativeMessageBox::showMessageBox (AlertWindow::AlertIconType iconType,
const String& title, const String& message,
Component* associatedComponent)
{
WindowsMessageBox box (iconType, title, message, associatedComponent, MB_OK, 0, false);
(void) box.getResult();
}
#endif
void JUCE_CALLTYPE NativeMessageBox::showMessageBoxAsync (AlertWindow::AlertIconType iconType,
const String& title, const String& message,
Component* associatedComponent,
ModalComponentManager::Callback* callback)
{
new WindowsMessageBox (iconType, title, message, associatedComponent, MB_OK, callback, true);
}
bool JUCE_CALLTYPE NativeMessageBox::showOkCancelBox (AlertWindow::AlertIconType iconType,
const String& title, const String& message,
Component* associatedComponent,
ModalComponentManager::Callback* callback)
{
std::unique_ptr<WindowsMessageBox> mb (new WindowsMessageBox (iconType, title, message, associatedComponent,
MB_OKCANCEL, callback, callback != nullptr));
if (callback == nullptr)
return mb->getResult() != 0;
mb.release();
return false;
}
int JUCE_CALLTYPE NativeMessageBox::showYesNoCancelBox (AlertWindow::AlertIconType iconType,
const String& title, const String& message,
Component* associatedComponent,
ModalComponentManager::Callback* callback)
{
std::unique_ptr<WindowsMessageBox> mb (new WindowsMessageBox (iconType, title, message, associatedComponent,
MB_YESNOCANCEL, callback, callback != nullptr));
if (callback == nullptr)
return mb->getResult();
mb.release();
return 0;
}
int JUCE_CALLTYPE NativeMessageBox::showYesNoBox (AlertWindow::AlertIconType iconType,
const String& title, const String& message,
Component* associatedComponent,
ModalComponentManager::Callback* callback)
{
std::unique_ptr<WindowsMessageBox> mb (new WindowsMessageBox (iconType, title, message, associatedComponent,
MB_YESNO, callback, callback != nullptr));
if (callback == nullptr)
return mb->getResult();
mb.release();
return 0;
}
//==============================================================================
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<float> MouseInputSource::getCurrentRawMousePosition()
{
POINT mousePos;
GetCursorPos (&mousePos);
auto p = pointFromPOINT (mousePos);
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
if (isPerMonitorDPIAwareThread())
p = Desktop::getInstance().getDisplays().physicalToLogical (p);
#endif
return p.toFloat();
}
void MouseInputSource::setRawMousePosition (Point<float> 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 = { 0 };
input.type = INPUT_MOUSE;
input.mi.mouseData = MOUSEEVENTF_MOVE;
SendInput (1, &input, sizeof (INPUT));
}
}
};
static std::unique_ptr<ScreenSaverDefeater> 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 (0) != 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<WCHAR*> (GlobalLock (bufH)))
{
text.copyToUTF16 (data, bytesNeeded);
GlobalUnlock (bufH);
SetClipboardData (CF_UNICODETEXT, bufH);
}
}
}
}
CloseClipboard();
}
}
String SystemClipboard::getTextFromClipboard()
{
String result;
if (OpenClipboard (0) != 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<TopLevelWindow*> (kioskModeComp))
tlw->setUsingNativeTitleBar (! enableOrDisable);
if (enableOrDisable)
kioskModeComp->setBounds (getDisplays().getMainDisplay().totalArea);
}
void Desktop::allowedOrientationsChanged() {}
//==============================================================================
static const Displays::Display* getCurrentDisplayFromScaleFactor (HWND hwnd)
{
Array<Displays::Display*> candidateDisplays;
double scaleToLookFor = -1.0;
if (auto* peer = HWNDComponentPeer::getOwnerOfWindow (hwnd))
scaleToLookFor = peer->getPlatformScaleFactor();
else
scaleToLookFor = 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];
Rectangle<int> bounds;
if (auto* peer = HWNDComponentPeer::getOwnerOfWindow (hwnd))
bounds = peer->getComponent().getTopLevelComponent()->getBounds();
else
bounds = Desktop::getInstance().getDisplays().physicalToLogical (rectangleFromRECT (getWindowRect (hwnd)));
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().getMainDisplay();
}
//==============================================================================
struct MonitorInfo
{
MonitorInfo (bool main, RECT rect, double d) noexcept
: isMain (main), bounds (rect), dpi (d) {}
bool isMain;
RECT bounds;
double dpi;
};
static BOOL CALLBACK enumMonitorsProc (HMONITOR hm, HDC, LPRECT r, LPARAM userInfo)
{
MONITORINFO info = { 0 };
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<MonitorInfo>*) userInfo)->add ({ isMain, *r, dpi });
return TRUE;
}
void Displays::findDisplays (float masterScale)
{
setDPIAwareness();
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
DPI_AWARENESS_CONTEXT prevContext = nullptr;
if (setThreadDPIAwarenessContext != nullptr && getAwarenessFromDPIAwarenessContext != nullptr && getThreadDPIAwarenessContext != nullptr
&& getAwarenessFromDPIAwarenessContext (getThreadDPIAwarenessContext()) != DPI_Awareness::DPI_Awareness_Per_Monitor_Aware)
{
prevContext = setThreadDPIAwarenessContext (DPI_AWARENESS_CONTEXT_PER_MONITOR_AWARE);
}
#endif
Array<MonitorInfo> monitors;
EnumDisplayMonitors (0, 0, &enumMonitorsProc, (LPARAM) &monitors);
auto globalDPI = getGlobalDPI();
if (monitors.size() == 0)
monitors.add ({ true, getWindowRect (GetDesktopWindow()), 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.userArea = d.totalArea = Rectangle<int>::leftTopRightBottom (monitor.bounds.left, monitor.bounds.top,
monitor.bounds.right, monitor.bounds.bottom);
if (d.isMain)
{
RECT workArea;
SystemParametersInfo (SPI_GETWORKAREA, 0, &workArea, 0);
d.userArea = d.userArea.getIntersection (Rectangle<int>::leftTopRightBottom (workArea.left, workArea.top,
workArea.right, workArea.bottom));
}
displays.add (d);
}
#if JUCE_WIN_PER_MONITOR_DPI_AWARE
updateToLogical();
// Reset the DPI awareness context if it was overridden earlier
if (prevContext != nullptr)
setThreadDPIAwarenessContext (prevContext);
#else
for (auto& d : displays)
{
d.totalArea /= masterScale;
d.userArea /= masterScale;
}
#endif
}
//==============================================================================
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;
}
//==============================================================================
void* CustomMouseCursorInfo::create() const
{
const int maxW = GetSystemMetrics (SM_CXCURSOR);
const int maxH = GetSystemMetrics (SM_CYCURSOR);
Image im (image);
int hotspotX = hotspot.x;
int hotspotY = hotspot.y;
if (im.getWidth() > maxW || im.getHeight() > maxH)
{
im = im.rescaled (maxW, maxH);
hotspotX = (hotspotX * maxW) / image.getWidth();
hotspotY = (hotspotY * maxH) / image.getHeight();
}
return IconConverters::createHICONFromImage (im, FALSE, hotspotX, hotspotY);
}
void MouseCursor::deleteMouseCursor (void* cursorHandle, bool isStandard)
{
if (cursorHandle != nullptr && ! isStandard)
DestroyCursor ((HCURSOR) cursorHandle);
}
enum
{
hiddenMouseCursorHandle = 32500 // (arbitrary non-zero value to mark this type of cursor)
};
void* MouseCursor::createStandardMouseCursor (const MouseCursor::StandardCursorType type)
{
LPCTSTR cursorName = IDC_ARROW;
switch (type)
{
case NormalCursor:
case ParentCursor: break;
case NoCursor: return (void*) hiddenMouseCursorHandle;
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 void* dragHandCursor = nullptr;
if (dragHandCursor == nullptr)
{
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 };
dragHandCursor = CustomMouseCursorInfo (ImageFileFormat::loadFrom (dragHandData, sizeof (dragHandData)), { 8, 7 }).create();
}
return dragHandCursor;
}
case CopyingCursor:
{
static void* copyCursor = nullptr;
if (copyCursor == nullptr)
{
static 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 };
const int copyCursorSize = 119;
copyCursor = CustomMouseCursorInfo (ImageFileFormat::loadFrom (copyCursorData, copyCursorSize), { 1, 3 }).create();
}
return copyCursor;
}
default:
jassertfalse; break;
}
if (auto cursorH = LoadCursor (0, cursorName))
return cursorH;
return LoadCursor (0, IDC_ARROW);
}
//==============================================================================
void MouseCursor::showInWindow (ComponentPeer*) const
{
auto c = (HCURSOR) getHandle();
if (c == 0)
c = LoadCursor (0, IDC_ARROW);
else if (c == (HCURSOR) hiddenMouseCursorHandle)
c = 0;
SetCursor (c);
}
} // namespace juce