PowerToys/src/modules/fancyzones/lib/ZoneWindow.cpp

812 lines
25 KiB
C++

#include "pch.h"
#include <common/common.h>
#include "ZoneWindow.h"
#include "trace.h"
#include "util.h"
#include <ShellScalingApi.h>
#include <mutex>
#include <gdiplus.h>
namespace ZoneWindowUtils
{
const std::wstring& GetActiveZoneSetTmpPath()
{
static std::wstring activeZoneSetTmpFileName;
static std::once_flag flag;
std::call_once(flag, []() {
wchar_t fileName[L_tmpnam_s];
if (_wtmpnam_s(fileName, L_tmpnam_s) != 0)
abort();
activeZoneSetTmpFileName = std::wstring{ fileName };
});
return activeZoneSetTmpFileName;
}
const std::wstring& GetAppliedZoneSetTmpPath()
{
static std::wstring appliedZoneSetTmpFileName;
static std::once_flag flag;
std::call_once(flag, []() {
wchar_t fileName[L_tmpnam_s];
if (_wtmpnam_s(fileName, L_tmpnam_s) != 0)
abort();
appliedZoneSetTmpFileName = std::wstring{ fileName };
});
return appliedZoneSetTmpFileName;
}
const std::wstring& GetCustomZoneSetsTmpPath()
{
static std::wstring customZoneSetsTmpFileName;
static std::once_flag flag;
std::call_once(flag, []() {
wchar_t fileName[L_tmpnam_s];
if (_wtmpnam_s(fileName, L_tmpnam_s) != 0)
abort();
customZoneSetsTmpFileName = std::wstring{ fileName };
});
return customZoneSetsTmpFileName;
}
std::wstring GenerateUniqueId(HMONITOR monitor, PCWSTR deviceId, PCWSTR virtualDesktopId)
{
wchar_t uniqueId[256]{}; // Parsed deviceId + resolution + virtualDesktopId
MONITORINFOEXW mi;
mi.cbSize = sizeof(mi);
if (virtualDesktopId && GetMonitorInfo(monitor, &mi))
{
wchar_t parsedId[256]{};
ParseDeviceId(deviceId, parsedId, 256);
Rect const monitorRect(mi.rcMonitor);
StringCchPrintf(uniqueId, ARRAYSIZE(uniqueId), L"%s_%d_%d_%s", parsedId, monitorRect.width(), monitorRect.height(), virtualDesktopId);
}
return std::wstring{ uniqueId };
}
}
namespace ZoneWindowDrawUtils
{
struct ColorSetting
{
BYTE fillAlpha{};
COLORREF fill{};
BYTE borderAlpha{};
COLORREF border{};
int thickness{};
};
void DrawBackdrop(wil::unique_hdc& hdc, RECT const& clientRect) noexcept
{
FillRectARGB(hdc, &clientRect, 0, RGB(0, 0, 0), false);
}
void DrawIndex(wil::unique_hdc& hdc, Rect rect, size_t index)
{
Gdiplus::Graphics g(hdc.get());
Gdiplus::FontFamily fontFamily(L"Segoe ui");
Gdiplus::Font font(&fontFamily, 80, Gdiplus::FontStyleRegular, Gdiplus::UnitPixel);
Gdiplus::SolidBrush solidBrush(Gdiplus::Color(255, 0, 0, 0));
std::wstring text = std::to_wstring(index);
g.SetTextRenderingHint(Gdiplus::TextRenderingHintAntiAlias);
Gdiplus::StringFormat stringFormat = new Gdiplus::StringFormat();
stringFormat.SetAlignment(Gdiplus::StringAlignmentCenter);
stringFormat.SetLineAlignment(Gdiplus::StringAlignmentCenter);
Gdiplus::RectF gdiRect(static_cast<Gdiplus::REAL>(rect.left()),
static_cast<Gdiplus::REAL>(rect.top()),
static_cast<Gdiplus::REAL>(rect.width()),
static_cast<Gdiplus::REAL>(rect.height()));
g.DrawString(text.c_str(), -1, &font, gdiRect, &stringFormat, &solidBrush);
}
void DrawZone(wil::unique_hdc& hdc, ColorSetting const& colorSetting, winrt::com_ptr<IZone> zone, const std::vector<winrt::com_ptr<IZone>>& zones, bool flashMode) noexcept
{
RECT zoneRect = zone->GetZoneRect();
Gdiplus::Graphics g(hdc.get());
Gdiplus::Color fillColor(colorSetting.fillAlpha, GetRValue(colorSetting.fill), GetGValue(colorSetting.fill), GetBValue(colorSetting.fill));
Gdiplus::Color borderColor(colorSetting.borderAlpha, GetRValue(colorSetting.border), GetGValue(colorSetting.border), GetBValue(colorSetting.border));
Gdiplus::Rect rectangle(zoneRect.left, zoneRect.top, zoneRect.right - zoneRect.left - 1, zoneRect.bottom - zoneRect.top - 1);
Gdiplus::Pen pen(borderColor, static_cast<Gdiplus::REAL>(colorSetting.thickness));
g.FillRectangle(new Gdiplus::SolidBrush(fillColor), rectangle);
g.DrawRectangle(&pen, rectangle);
if (!flashMode)
{
DrawIndex(hdc, zoneRect, zone->Id());
}
}
void DrawActiveZoneSet(wil::unique_hdc& hdc,
COLORREF zoneColor,
COLORREF zoneBorderColor,
COLORREF highlightColor,
int zoneOpacity,
const std::vector<winrt::com_ptr<IZone>>& zones,
const std::vector<int>& highlightZones,
bool flashMode,
bool drawHints) noexcept
{
// { fillAlpha, fill, borderAlpha, border, thickness }
ColorSetting const colorHints{ OpacitySettingToAlpha(zoneOpacity), RGB(81, 92, 107), 255, RGB(104, 118, 138), -2 };
ColorSetting colorViewer{ OpacitySettingToAlpha(zoneOpacity), 0, 255, RGB(40, 50, 60), -2 };
ColorSetting colorHighlight{ OpacitySettingToAlpha(zoneOpacity), 0, 255, 0, -2 };
ColorSetting const colorFlash{ OpacitySettingToAlpha(zoneOpacity), RGB(81, 92, 107), 200, RGB(104, 118, 138), -2 };
std::vector<bool> isHighlighted(zones.size(), false);
for (int x : highlightZones)
{
isHighlighted[x] = true;
}
for (auto iter = zones.begin(); iter != zones.end(); iter++)
{
int zoneId = static_cast<int>(iter - zones.begin());
winrt::com_ptr<IZone> zone = iter->try_as<IZone>();
if (!zone)
{
continue;
}
if (!isHighlighted[zoneId])
{
if (flashMode)
{
DrawZone(hdc, colorFlash, zone, zones, flashMode);
}
else if (drawHints)
{
DrawZone(hdc, colorHints, zone, zones, flashMode);
}
{
colorViewer.fill = zoneColor;
colorViewer.border = zoneBorderColor;
DrawZone(hdc, colorViewer, zone, zones, flashMode);
}
}
else
{
colorHighlight.fill = highlightColor;
colorHighlight.border = zoneBorderColor;
DrawZone(hdc, colorHighlight, zone, zones, flashMode);
}
}
}
}
struct ZoneWindow : public winrt::implements<ZoneWindow, IZoneWindow>
{
public:
ZoneWindow(HINSTANCE hinstance);
~ZoneWindow();
bool Init(IZoneWindowHost* host, HINSTANCE hinstance, HMONITOR monitor, const std::wstring& uniqueId, bool flashZones, bool newWorkArea);
IFACEMETHODIMP MoveSizeEnter(HWND window, bool dragEnabled) noexcept;
IFACEMETHODIMP MoveSizeUpdate(POINT const& ptScreen, bool dragEnabled) noexcept;
IFACEMETHODIMP MoveSizeEnd(HWND window, POINT const& ptScreen) noexcept;
IFACEMETHODIMP_(void)
RestoreOrginalTransparency() noexcept;
IFACEMETHODIMP_(bool)
IsDragEnabled() noexcept { return m_dragEnabled; }
IFACEMETHODIMP_(void)
MoveWindowIntoZoneByIndex(HWND window, int index) noexcept;
IFACEMETHODIMP_(void)
MoveWindowIntoZoneByIndexSet(HWND window, const std::vector<int>& indexSet) noexcept;
IFACEMETHODIMP_(bool)
MoveWindowIntoZoneByDirection(HWND window, DWORD vkCode, bool cycle) noexcept;
IFACEMETHODIMP_(void)
CycleActiveZoneSet(DWORD vkCode) noexcept;
IFACEMETHODIMP_(std::wstring)
UniqueId() noexcept { return { m_uniqueId }; }
IFACEMETHODIMP_(std::wstring)
WorkAreaKey() noexcept { return { m_workArea }; }
IFACEMETHODIMP_(void)
SaveWindowProcessToZoneIndex(HWND window) noexcept;
IFACEMETHODIMP_(IZoneSet*)
ActiveZoneSet() noexcept { return m_activeZoneSet.get(); }
IFACEMETHODIMP_(void)
ShowZoneWindow() noexcept;
IFACEMETHODIMP_(void)
HideZoneWindow() noexcept;
IFACEMETHODIMP_(void)
UpdateActiveZoneSet() noexcept;
protected:
static LRESULT CALLBACK s_WndProc(HWND window, UINT message, WPARAM wparam, LPARAM lparam) noexcept;
private:
void LoadSettings() noexcept;
void InitializeZoneSets(bool newWorkArea) noexcept;
void CalculateZoneSet() noexcept;
void UpdateActiveZoneSet(_In_opt_ IZoneSet* zoneSet) noexcept;
LRESULT WndProc(UINT message, WPARAM wparam, LPARAM lparam) noexcept;
void OnPaint(wil::unique_hdc& hdc) noexcept;
void OnKeyUp(WPARAM wparam) noexcept;
std::vector<int> ZonesFromPoint(POINT pt) noexcept;
void CycleActiveZoneSetInternal(DWORD wparam, Trace::ZoneWindow::InputMode mode) noexcept;
void FlashZones() noexcept;
winrt::com_ptr<IZoneWindowHost> m_host;
HMONITOR m_monitor{};
std::wstring m_uniqueId; // Parsed deviceId + resolution + virtualDesktopId
wchar_t m_workArea[256]{};
wil::unique_hwnd m_window{}; // Hidden tool window used to represent current monitor desktop work area.
HWND m_windowMoveSize{};
bool m_drawHints{};
bool m_flashMode{};
bool m_dragEnabled{};
winrt::com_ptr<IZoneSet> m_activeZoneSet;
std::vector<winrt::com_ptr<IZoneSet>> m_zoneSets;
std::vector<int> m_highlightZone;
WPARAM m_keyLast{};
size_t m_keyCycle{};
static const UINT m_showAnimationDuration = 200; // ms
static const UINT m_flashDuration = 700; // ms
HWND draggedWindow = nullptr;
long draggedWindowExstyle = 0;
COLORREF draggedWindowCrKey = RGB(0, 0, 0);
DWORD draggedWindowDwFlags = 0;
BYTE draggedWindowInitialAlpha = 0;
ULONG_PTR gdiplusToken;
};
ZoneWindow::ZoneWindow(HINSTANCE hinstance)
{
WNDCLASSEXW wcex{};
wcex.cbSize = sizeof(WNDCLASSEX);
wcex.lpfnWndProc = s_WndProc;
wcex.hInstance = hinstance;
wcex.lpszClassName = L"SuperFancyZones_ZoneWindow";
wcex.hCursor = LoadCursorW(nullptr, IDC_ARROW);
RegisterClassExW(&wcex);
Gdiplus::GdiplusStartupInput gdiplusStartupInput;
Gdiplus::GdiplusStartup(&gdiplusToken, &gdiplusStartupInput, NULL);
}
ZoneWindow::~ZoneWindow()
{
Gdiplus::GdiplusShutdown(gdiplusToken);
}
bool ZoneWindow::Init(IZoneWindowHost* host, HINSTANCE hinstance, HMONITOR monitor, const std::wstring& uniqueId, bool flashZones, bool newWorkArea)
{
m_host.copy_from(host);
MONITORINFO mi{};
mi.cbSize = sizeof(mi);
if (!GetMonitorInfoW(monitor, &mi))
{
return false;
}
m_monitor = monitor;
const UINT dpi = GetDpiForMonitor(m_monitor);
const Rect monitorRect(mi.rcMonitor);
const Rect workAreaRect(mi.rcWork, dpi);
StringCchPrintf(m_workArea, ARRAYSIZE(m_workArea), L"%d_%d", monitorRect.width(), monitorRect.height());
m_uniqueId = uniqueId;
LoadSettings();
InitializeZoneSets(newWorkArea);
m_window = wil::unique_hwnd{
CreateWindowExW(WS_EX_TOOLWINDOW, L"SuperFancyZones_ZoneWindow", L"", WS_POPUP, workAreaRect.left(), workAreaRect.top(), workAreaRect.width(), workAreaRect.height(), nullptr, nullptr, hinstance, this)
};
if (!m_window)
{
return false;
}
MakeWindowTransparent(m_window.get());
if (flashZones)
{
// Don't flash if the foreground window is in full screen mode
RECT windowRect;
if (!(GetWindowRect(GetForegroundWindow(), &windowRect) &&
windowRect.left == mi.rcMonitor.left &&
windowRect.top == mi.rcMonitor.top &&
windowRect.right == mi.rcMonitor.right &&
windowRect.bottom == mi.rcMonitor.bottom))
{
FlashZones();
}
}
return true;
}
IFACEMETHODIMP ZoneWindow::MoveSizeEnter(HWND window, bool dragEnabled) noexcept
{
if (m_windowMoveSize)
{
return E_INVALIDARG;
}
if (m_host->isMakeDraggedWindowTransparentActive())
{
draggedWindowExstyle = GetWindowLong(window, GWL_EXSTYLE);
draggedWindow = window;
SetWindowLong(window,
GWL_EXSTYLE,
draggedWindowExstyle | WS_EX_LAYERED);
GetLayeredWindowAttributes(window, &draggedWindowCrKey, &draggedWindowInitialAlpha, &draggedWindowDwFlags);
SetLayeredWindowAttributes(window, 0, (255 * 50) / 100, LWA_ALPHA);
}
m_dragEnabled = dragEnabled;
m_windowMoveSize = window;
m_drawHints = true;
m_highlightZone = {};
ShowZoneWindow();
return S_OK;
}
IFACEMETHODIMP ZoneWindow::MoveSizeUpdate(POINT const& ptScreen, bool dragEnabled) noexcept
{
bool redraw = false;
POINT ptClient = ptScreen;
MapWindowPoints(nullptr, m_window.get(), &ptClient, 1);
m_dragEnabled = dragEnabled;
if (dragEnabled)
{
auto highlightZone = ZonesFromPoint(ptClient);
redraw = (highlightZone != m_highlightZone);
m_highlightZone = std::move(highlightZone);
}
else if (m_highlightZone.size())
{
m_highlightZone = {};
redraw = true;
}
if (redraw)
{
InvalidateRect(m_window.get(), nullptr, true);
}
return S_OK;
}
IFACEMETHODIMP ZoneWindow::MoveSizeEnd(HWND window, POINT const& ptScreen) noexcept
{
RestoreOrginalTransparency();
if (m_windowMoveSize != window)
{
return E_INVALIDARG;
}
if (m_activeZoneSet)
{
POINT ptClient = ptScreen;
MapWindowPoints(nullptr, m_window.get(), &ptClient, 1);
m_activeZoneSet->MoveWindowIntoZoneByPoint(window, m_window.get(), ptClient);
SaveWindowProcessToZoneIndex(window);
}
Trace::ZoneWindow::MoveSizeEnd(m_activeZoneSet);
HideZoneWindow();
m_windowMoveSize = nullptr;
return S_OK;
}
IFACEMETHODIMP_(void)
ZoneWindow::RestoreOrginalTransparency() noexcept
{
if (m_host->isMakeDraggedWindowTransparentActive() && draggedWindow != nullptr)
{
SetLayeredWindowAttributes(draggedWindow, draggedWindowCrKey, draggedWindowInitialAlpha, draggedWindowDwFlags);
SetWindowLong(draggedWindow, GWL_EXSTYLE, draggedWindowExstyle);
draggedWindow = nullptr;
}
}
IFACEMETHODIMP_(void)
ZoneWindow::MoveWindowIntoZoneByIndex(HWND window, int index) noexcept
{
MoveWindowIntoZoneByIndexSet(window, { index });
}
IFACEMETHODIMP_(void)
ZoneWindow::MoveWindowIntoZoneByIndexSet(HWND window, const std::vector<int>& indexSet) noexcept
{
if (m_activeZoneSet)
{
m_activeZoneSet->MoveWindowIntoZoneByIndexSet(window, m_window.get(), indexSet, false);
}
}
IFACEMETHODIMP_(bool)
ZoneWindow::MoveWindowIntoZoneByDirection(HWND window, DWORD vkCode, bool cycle) noexcept
{
if (m_activeZoneSet)
{
if (m_activeZoneSet->MoveWindowIntoZoneByDirection(window, m_window.get(), vkCode, cycle))
{
SaveWindowProcessToZoneIndex(window);
return true;
}
}
return false;
}
IFACEMETHODIMP_(void)
ZoneWindow::CycleActiveZoneSet(DWORD wparam) noexcept
{
CycleActiveZoneSetInternal(wparam, Trace::ZoneWindow::InputMode::Keyboard);
if (m_windowMoveSize)
{
InvalidateRect(m_window.get(), nullptr, true);
}
else
{
FlashZones();
}
}
IFACEMETHODIMP_(void)
ZoneWindow::SaveWindowProcessToZoneIndex(HWND window) noexcept
{
if (m_activeZoneSet)
{
DWORD zoneIndex = static_cast<DWORD>(m_activeZoneSet->GetZoneIndexFromWindow(window));
if (zoneIndex != -1)
{
OLECHAR* guidString;
if (StringFromCLSID(m_activeZoneSet->Id(), &guidString) == S_OK)
{
JSONHelpers::FancyZonesDataInstance().SetAppLastZone(window, m_uniqueId, guidString, zoneIndex);
}
CoTaskMemFree(guidString);
}
}
}
IFACEMETHODIMP_(void)
ZoneWindow::ShowZoneWindow() noexcept
{
auto window = m_window.get();
if (!window)
{
return;
}
m_flashMode = false;
UINT flags = SWP_NOSIZE | SWP_NOMOVE | SWP_NOACTIVATE;
HWND windowInsertAfter = m_windowMoveSize;
if (windowInsertAfter == nullptr)
{
windowInsertAfter = HWND_TOPMOST;
}
SetWindowPos(window, windowInsertAfter, 0, 0, 0, 0, flags);
std::thread{ [=]() {
AnimateWindow(window, m_showAnimationDuration, AW_BLEND);
InvalidateRect(window, nullptr, true);
if (m_windowMoveSize == nullptr)
{
HideZoneWindow();
}
} }.detach();
}
IFACEMETHODIMP_(void)
ZoneWindow::HideZoneWindow() noexcept
{
if (m_window)
{
ShowWindow(m_window.get(), SW_HIDE);
m_keyLast = 0;
m_windowMoveSize = nullptr;
m_drawHints = false;
m_highlightZone = {};
}
}
IFACEMETHODIMP_(void)
ZoneWindow::UpdateActiveZoneSet() noexcept
{
CalculateZoneSet();
}
#pragma region private
void ZoneWindow::LoadSettings() noexcept
{
JSONHelpers::FancyZonesDataInstance().AddDevice(m_uniqueId);
}
void ZoneWindow::InitializeZoneSets(bool newWorkArea) noexcept
{
auto parent = m_host->GetParentZoneWindow(m_monitor);
if (newWorkArea && parent)
{
// Update device info with device info from parent virtual desktop (if empty).
JSONHelpers::FancyZonesDataInstance().CloneDeviceInfo(parent->UniqueId(), m_uniqueId);
}
CalculateZoneSet();
}
void ZoneWindow::CalculateZoneSet() noexcept
{
const auto& fancyZonesData = JSONHelpers::FancyZonesDataInstance();
const auto deviceInfoData = fancyZonesData.FindDeviceInfo(m_uniqueId);
const auto& activeDeviceId = fancyZonesData.GetActiveDeviceId();
if (!activeDeviceId.empty() && activeDeviceId != m_uniqueId)
{
return;
}
if (!deviceInfoData.has_value())
{
return;
}
const auto& activeZoneSet = deviceInfoData->activeZoneSet;
if (activeZoneSet.uuid.empty() || activeZoneSet.type == JSONHelpers::ZoneSetLayoutType::Blank)
{
return;
}
GUID zoneSetId;
if (SUCCEEDED_LOG(CLSIDFromString(activeZoneSet.uuid.c_str(), &zoneSetId)))
{
auto zoneSet = MakeZoneSet(ZoneSetConfig(
zoneSetId,
activeZoneSet.type,
m_monitor,
m_workArea));
MONITORINFO monitorInfo{};
monitorInfo.cbSize = sizeof(monitorInfo);
if (GetMonitorInfoW(m_monitor, &monitorInfo))
{
bool showSpacing = deviceInfoData->showSpacing;
int spacing = showSpacing ? deviceInfoData->spacing : 0;
int zoneCount = deviceInfoData->zoneCount;
zoneSet->CalculateZones(monitorInfo, zoneCount, spacing);
UpdateActiveZoneSet(zoneSet.get());
}
}
}
void ZoneWindow::UpdateActiveZoneSet(_In_opt_ IZoneSet* zoneSet) noexcept
{
m_activeZoneSet.copy_from(zoneSet);
if (m_activeZoneSet)
{
wil::unique_cotaskmem_string zoneSetId;
if (SUCCEEDED_LOG(StringFromCLSID(m_activeZoneSet->Id(), &zoneSetId)))
{
JSONHelpers::ZoneSetData data{
.uuid = zoneSetId.get(),
.type = m_activeZoneSet->LayoutType()
};
JSONHelpers::FancyZonesDataInstance().SetActiveZoneSet(m_uniqueId, data);
}
}
}
LRESULT ZoneWindow::WndProc(UINT message, WPARAM wparam, LPARAM lparam) noexcept
{
switch (message)
{
case WM_NCDESTROY:
{
::DefWindowProc(m_window.get(), message, wparam, lparam);
SetWindowLongPtr(m_window.get(), GWLP_USERDATA, 0);
}
break;
case WM_ERASEBKGND:
return 1;
case WM_PRINTCLIENT:
case WM_PAINT:
{
PAINTSTRUCT ps;
wil::unique_hdc hdc{ reinterpret_cast<HDC>(wparam) };
if (!hdc)
{
hdc.reset(BeginPaint(m_window.get(), &ps));
}
OnPaint(hdc);
if (wparam == 0)
{
EndPaint(m_window.get(), &ps);
}
hdc.release();
}
break;
default:
{
return DefWindowProc(m_window.get(), message, wparam, lparam);
}
}
return 0;
}
void ZoneWindow::OnPaint(wil::unique_hdc& hdc) noexcept
{
RECT clientRect;
GetClientRect(m_window.get(), &clientRect);
wil::unique_hdc hdcMem;
HPAINTBUFFER bufferedPaint = BeginBufferedPaint(hdc.get(), &clientRect, BPBF_TOPDOWNDIB, nullptr, &hdcMem);
if (bufferedPaint)
{
ZoneWindowDrawUtils::DrawBackdrop(hdcMem, clientRect);
if (m_activeZoneSet && m_host)
{
ZoneWindowDrawUtils::DrawActiveZoneSet(hdcMem,
m_host->GetZoneColor(),
m_host->GetZoneBorderColor(),
m_host->GetZoneHighlightColor(),
m_host->GetZoneHighlightOpacity(),
m_activeZoneSet->GetZones(),
m_highlightZone,
m_flashMode,
m_drawHints);
}
EndBufferedPaint(bufferedPaint, TRUE);
}
}
void ZoneWindow::OnKeyUp(WPARAM wparam) noexcept
{
bool fRedraw = false;
Trace::ZoneWindow::KeyUp(wparam);
if ((wparam >= '0') && (wparam <= '9'))
{
CycleActiveZoneSetInternal(static_cast<DWORD>(wparam), Trace::ZoneWindow::InputMode::Keyboard);
InvalidateRect(m_window.get(), nullptr, true);
}
}
std::vector<int> ZoneWindow::ZonesFromPoint(POINT pt) noexcept
{
if (m_activeZoneSet)
{
return m_activeZoneSet->ZonesFromPoint(pt);
}
return {};
}
void ZoneWindow::CycleActiveZoneSetInternal(DWORD wparam, Trace::ZoneWindow::InputMode mode) noexcept
{
Trace::ZoneWindow::CycleActiveZoneSet(m_activeZoneSet, mode);
if (m_keyLast != wparam)
{
m_keyCycle = 0;
}
m_keyLast = wparam;
bool loopAround = true;
size_t const val = static_cast<size_t>(wparam - L'0');
size_t i = 0;
for (auto zoneSet : m_zoneSets)
{
if (zoneSet->GetZones().size() == val)
{
if (i < m_keyCycle)
{
i++;
}
else
{
UpdateActiveZoneSet(zoneSet.get());
loopAround = false;
break;
}
}
}
if ((m_keyCycle > 0) && loopAround)
{
// Cycling through a non-empty group and hit the end
m_keyCycle = 0;
OnKeyUp(wparam);
}
else
{
m_keyCycle++;
}
if (m_host)
{
m_host->MoveWindowsOnActiveZoneSetChange();
}
m_highlightZone = {};
}
void ZoneWindow::FlashZones() noexcept
{
// "Turning FLASHING_ZONE option off"
if (true)
{
return;
}
m_flashMode = true;
ShowWindow(m_window.get(), SW_SHOWNA);
std::thread([window = m_window.get()]() {
AnimateWindow(window, m_flashDuration, AW_HIDE | AW_BLEND);
}).detach();
}
#pragma endregion
LRESULT CALLBACK ZoneWindow::s_WndProc(HWND window, UINT message, WPARAM wparam, LPARAM lparam) noexcept
{
auto thisRef = reinterpret_cast<ZoneWindow*>(GetWindowLongPtr(window, GWLP_USERDATA));
if ((thisRef == nullptr) && (message == WM_CREATE))
{
auto createStruct = reinterpret_cast<LPCREATESTRUCT>(lparam);
thisRef = reinterpret_cast<ZoneWindow*>(createStruct->lpCreateParams);
SetWindowLongPtr(window, GWLP_USERDATA, reinterpret_cast<LONG_PTR>(thisRef));
}
return (thisRef != nullptr) ? thisRef->WndProc(message, wparam, lparam) :
DefWindowProc(window, message, wparam, lparam);
}
winrt::com_ptr<IZoneWindow> MakeZoneWindow(IZoneWindowHost* host, HINSTANCE hinstance, HMONITOR monitor, const std::wstring& uniqueId, bool flashZones, bool newWorkArea) noexcept
{
auto self = winrt::make_self<ZoneWindow>(hinstance);
if (self->Init(host, hinstance, monitor, uniqueId, flashZones, newWorkArea))
{
return self;
}
return nullptr;
}