CursorWrap improvements (#44936)

## Summary of the Pull Request - Updated engine for better multi-monitor support. - Closing the laptop lid will now update the monitor topology - New settings/dropdown to support wrapping on horizontal, vertical, or both <img width="1103" height="643" alt="image" src="https://github.com/user-attachments/assets/ff4f0835-a8ca-4603-9441-123b71747d5c" />  ## PR Checklist - [x] Closes: #44820 - [x] Closes: #44864 - [x] Closes: #44952 - [ ] **Communication:** I've discussed this with core contributors already. If the work hasn't been agreed, this work might be rejected - [ ] **Tests:** Added/updated and all pass - [ ] **Localization:** All end-user-facing strings can be localized - [ ] **Dev docs:** Added/updated - [ ] **New binaries:** Added on the required places - [ ] [JSON for signing](https://github.com/microsoft/PowerToys/blob/main/.pipelines/ESRPSigning_core.json) for new binaries - [ ] [WXS for installer](https://github.com/microsoft/PowerToys/blob/main/installer/PowerToysSetup/Product.wxs) for new binaries and localization folder - [ ] [YML for CI pipeline](https://github.com/microsoft/PowerToys/blob/main/.pipelines/ci/templates/build-powertoys-steps.yml) for new test projects - [ ] [YML for signed pipeline](https://github.com/microsoft/PowerToys/blob/main/.pipelines/release.yml) - [ ] **Documentation updated:** If checked, please file a pull request on [our docs repo](https://github.com/MicrosoftDocs/windows-uwp/tree/docs/hub/powertoys) and link it here: #xxx ## Detailed Description of the Pull Request / Additional comments Feedback for CursorWrap shows that users want the ability to constrain wrapping for horizontal only, vertical only, or both (default behavior). This PR adds a new dropdown to CursorWrap settings to enable a user to select the appropriate wrapping model. ## Validation Steps Performed Local build and running on Surface Laptop 7 Pro - will also validate on a multi-monitor setup. --------- Co-authored-by: vanzue <vanzue@outlook.com>
2026-04-03 09:46:54 +02:00 · 2026-01-27 05:27:11 +00:00
parent 6661adbd5c
commit d26d9f745a
12 changed files with 1274 additions and 851 deletions
--- a/.github/actions/spell-check/expect.txt
+++ b/.github/actions/spell-check/expect.txt
@@ -22,7 +22,6 @@ ADate
 ADDSTRING
 ADDUNDORECORD
 ADifferent
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@@ -219,10 +218,11 @@ CIELCh
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@@ -261,7 +261,6 @@ colorhistory
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 Convs
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@@ -282,6 +281,7 @@ CONTEXTHELP
 CONTEXTMENUHANDLER
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 CONTROLPARENT
 Convs
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@@ -348,12 +348,14 @@ datareader
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 DCOM
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@@ -371,8 +373,7 @@ DEFAULTICON
 defaultlib
 DEFAULTONLY
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-DEFAULTTONEAREST
+defaulttonearest
 Defaulttonearest
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@@ -394,14 +395,19 @@ DESKTOPVERTRES
 devblogs
 devdocs
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@@ -544,7 +550,6 @@ fdx
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 Figma
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@@ -565,6 +570,7 @@ FILESYSPATH
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 FIXEDFILEINFO
@@ -666,13 +672,14 @@ HCRYPTPROV
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 Helpline
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@@ -748,9 +755,9 @@ HWNDPARENT
 HWNDPREV
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@@ -841,8 +848,8 @@ jeli
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@@ -929,9 +936,9 @@ LOWORD
 lparam
 LPBITMAPINFOHEADER
 LPCFHOOKPROC
 lpch
 LPCITEMIDLIST
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 LPCMINVOKECOMMANDINFO
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@@ -947,6 +954,7 @@ LPMONITORINFO
 LPOSVERSIONINFOEXW
 LPQUERY
 lprc
 LPrivate
 LPSAFEARRAY
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 lpsz
@@ -956,7 +964,6 @@ lptpm
 LPTR
 LPTSTR
 lpv
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@@ -1000,13 +1007,13 @@ mber
 MBM
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 Mbuttondown
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 MDICHILD
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@@ -1042,8 +1049,8 @@ mmi
 mmsys
 mobileredirect
 mockapi
 modelcontextprotocol
 MODALFRAME
 modelcontextprotocol
 MODESPRUNED
 MONITORENUMPROC
 MONITORINFO
@@ -1087,9 +1094,9 @@ MSLLHOOKSTRUCT
 Mso
 msrc
 msstore
 mstsc
 msvcp
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 MULTIPLEUSE
 multizone
@@ -1099,11 +1106,11 @@ muxxc
 muxxh
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 mvvm
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 MVVMTK
 MWBEx
 MYICON
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 NAMECHANGE
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 nao
@@ -1244,10 +1251,8 @@ opencode
 OPENFILENAME
 openrdp
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 ollama
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 OPTIMIZEFORINVOKE
 ORPHANEDDIALOGTITLE
 ORSCANS
@@ -1464,7 +1469,6 @@ rbhid
 Rbuttondown
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 remotedesktop
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@@ -1493,6 +1497,7 @@ remappings
 REMAPSUCCESSFUL
 REMAPUNSUCCESSFUL
 Remotable
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@@ -1526,8 +1531,8 @@ RIGHTSCROLLBAR
 riid
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 rollups
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@@ -1766,8 +1771,7 @@ SVGIO
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 SWPNOSIZE
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@@ -1786,8 +1790,7 @@ SYSKEY
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-SYSMENU
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@@ -1891,9 +1894,9 @@ uitests
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--- a/src/modules/MouseUtils/CursorWrap/CursorWrap.vcxproj
+++ b/src/modules/MouseUtils/CursorWrap/CursorWrap.vcxproj
@@ -84,14 +84,17 @@
    </ClCompile>
  </ItemDefinitionGroup>
  <ItemGroup>
    <ClInclude Include="CursorWrapCore.h" />
    <ClInclude Include="CursorWrapTests.h" />
    <ClInclude Include="MonitorTopology.h" />
    <ClInclude Include="pch.h" />
    <ClInclude Include="trace.h" />
    <ClInclude Include="resource.h" />
  </ItemGroup>
  <ItemGroup>
    <ClCompile Include="CursorWrapCore.cpp" />
    <ClCompile Include="dllmain.cpp" />
-
+    <ClCompile Include="MonitorTopology.cpp" />
    <ClCompile Include="pch.cpp">
      <PrecompiledHeader Condition="'$(UsePrecompiledHeaders)' != 'false'">Create</PrecompiledHeader>
    </ClCompile>
--- a/src/modules/MouseUtils/CursorWrap/CursorWrapCore.cpp
+++ b/src/modules/MouseUtils/CursorWrap/CursorWrapCore.cpp
@@ -0,0 +1,268 @@
 // Copyright (c) Microsoft Corporation
 // The Microsoft Corporation licenses this file to you under the MIT license.
 // See the LICENSE file in the project root for more information.
 #include "pch.h"
 #include "CursorWrapCore.h"
 #include "../../../common/logger/logger.h"
 #include <sstream>
 #include <iomanip>
 #include <ctime>
 CursorWrapCore::CursorWrapCore()
 {
 }
 #ifdef _DEBUG
 std::wstring CursorWrapCore::GenerateTopologyJSON() const
 {
    std::wostringstream json;
    // Get current time
    auto now = std::time(nullptr);
    std::tm tm{};
    localtime_s(&tm, &now);
    wchar_t computerName[MAX_COMPUTERNAME_LENGTH + 1] = {0};
    DWORD size = MAX_COMPUTERNAME_LENGTH + 1;
    GetComputerNameW(computerName, &size);
    wchar_t userName[256] = {0};
    size = 256;
    GetUserNameW(userName, &size);
    json << L"{\n";
    json << L"  \"captured_at\": \"" << std::put_time(&tm, L"%Y-%m-%dT%H:%M:%S%z") << L"\",\n";
    json << L"  \"computer_name\": \"" << computerName << L"\",\n";
    json << L"  \"user_name\": \"" << userName << L"\",\n";
    json << L"  \"monitor_count\": " << m_monitors.size() << L",\n";
    json << L"  \"monitors\": [\n";
    for (size_t i = 0; i < m_monitors.size(); ++i)
    {
        const auto& monitor = m_monitors[i];
        // Get DPI for this monitor
        UINT dpiX = 96, dpiY = 96;
        POINT center = {
            (monitor.rect.left + monitor.rect.right) / 2,
            (monitor.rect.top + monitor.rect.bottom) / 2
        };
        HMONITOR hMon = MonitorFromPoint(center, MONITOR_DEFAULTTONEAREST);
        if (hMon)
        {
            // Try GetDpiForMonitor (requires linking Shcore.lib)
            using GetDpiForMonitorFunc = HRESULT (WINAPI *)(HMONITOR, int, UINT*, UINT*);
            HMODULE shcore = LoadLibraryW(L"Shcore.dll");
            if (shcore)
            {
                auto getDpi = reinterpret_cast<GetDpiForMonitorFunc>(GetProcAddress(shcore, "GetDpiForMonitor"));
                if (getDpi)
                {
                    getDpi(hMon, 0, &dpiX, &dpiY); // MDT_EFFECTIVE_DPI = 0
                }
                FreeLibrary(shcore);
            }
        }
        int scalingPercent = static_cast<int>((dpiX / 96.0) * 100);
        json << L"    {\n";
        json << L"      \"left\": " << monitor.rect.left << L",\n";
        json << L"      \"top\": " << monitor.rect.top << L",\n";
        json << L"      \"right\": " << monitor.rect.right << L",\n";
        json << L"      \"bottom\": " << monitor.rect.bottom << L",\n";
        json << L"      \"width\": " << (monitor.rect.right - monitor.rect.left) << L",\n";
        json << L"      \"height\": " << (monitor.rect.bottom - monitor.rect.top) << L",\n";
        json << L"      \"dpi\": " << dpiX << L",\n";
        json << L"      \"scaling_percent\": " << scalingPercent << L",\n";
        json << L"      \"primary\": " << (monitor.isPrimary ? L"true" : L"false") << L",\n";
        json << L"      \"monitor_id\": " << monitor.monitorId << L"\n";
        json << L"    }";
        if (i < m_monitors.size() - 1)
        {
            json << L",";
        }
        json << L"\n";
    }
    json << L"  ]\n";
    json << L"}";
    return json.str();
 }
 #endif
 void CursorWrapCore::UpdateMonitorInfo()
 {
    size_t previousMonitorCount = m_monitors.size();
    Logger::info(L"======= UPDATE MONITOR INFO START =======");
    Logger::info(L"Previous monitor count: {}", previousMonitorCount);
    m_monitors.clear();
    EnumDisplayMonitors(nullptr, nullptr, [](HMONITOR hMonitor, HDC, LPRECT, LPARAM lParam) -> BOOL {
        auto* self = reinterpret_cast<CursorWrapCore*>(lParam);
        MONITORINFO mi{};
        mi.cbSize = sizeof(MONITORINFO);
        if (GetMonitorInfo(hMonitor, &mi))
        {
            MonitorInfo info{};
            info.hMonitor = hMonitor; // Store handle for direct comparison later
            info.rect = mi.rcMonitor;
            info.isPrimary = (mi.dwFlags & MONITORINFOF_PRIMARY) != 0;
            info.monitorId = static_cast<int>(self->m_monitors.size());
            self->m_monitors.push_back(info);
            Logger::info(L"Enumerated monitor {}: hMonitor={}, rect=({},{},{},{}), primary={}",
                info.monitorId, reinterpret_cast<uintptr_t>(hMonitor),
                mi.rcMonitor.left, mi.rcMonitor.top, mi.rcMonitor.right, mi.rcMonitor.bottom,
                info.isPrimary ? L"yes" : L"no");
        }
        return TRUE;
    }, reinterpret_cast<LPARAM>(this));
    if (previousMonitorCount != m_monitors.size())
    {
        Logger::info(L"*** MONITOR CONFIGURATION CHANGED: {} -> {} monitors ***", 
            previousMonitorCount, m_monitors.size());
    }
    m_topology.Initialize(m_monitors);
    // Log monitor configuration summary
    Logger::info(L"Monitor configuration updated: {} monitor(s)", m_monitors.size());
    for (size_t i = 0; i < m_monitors.size(); ++i)
    {
        const auto& m = m_monitors[i];
        int width = m.rect.right - m.rect.left;
        int height = m.rect.bottom - m.rect.top;
        Logger::info(L"  Monitor {}: {}x{} at ({}, {}){}",
            i, width, height, m.rect.left, m.rect.top,
            m.isPrimary ? L" [PRIMARY]" : L"");
    }
    Logger::info(L"  Detected {} outer edges for cursor wrapping", m_topology.GetOuterEdges().size());
    // Detect and log monitor gaps
    auto gaps = m_topology.DetectMonitorGaps();
    if (!gaps.empty())
    {
        Logger::warn(L"Monitor configuration has coordinate gaps that may prevent wrapping:");
        for (const auto& gap : gaps)
        {
            Logger::warn(L"  Gap between Monitor {} and Monitor {}: {}px horizontal gap, {}px vertical overlap",
                gap.monitor1Index, gap.monitor2Index, gap.horizontalGap, gap.verticalOverlap);
        }
        Logger::warn(L"  If monitors appear snapped in Display Settings but show gaps here:");
        Logger::warn(L"  1. Try dragging monitors apart and snapping them back together");
        Logger::warn(L"  2. Update your GPU drivers");
    }
    Logger::info(L"======= UPDATE MONITOR INFO END =======");
 }
 POINT CursorWrapCore::HandleMouseMove(const POINT& currentPos, bool disableWrapDuringDrag, int wrapMode)
 {
    // Check if wrapping should be disabled during drag
    if (disableWrapDuringDrag && (GetAsyncKeyState(VK_LBUTTON) & 0x8000))
    {
 #ifdef _DEBUG
        OutputDebugStringW(L"[CursorWrap] [DRAG] Left mouse button down - skipping wrap\n");
 #endif
        return currentPos;
    }
    // Convert int wrapMode to WrapMode enum
    WrapMode mode = static_cast<WrapMode>(wrapMode);
 #ifdef _DEBUG
    {
        std::wostringstream oss;
        oss << L"[CursorWrap] [MOVE] Cursor at (" << currentPos.x << L", " << currentPos.y << L")";
        // Get current monitor and identify which one
        HMONITOR currentMonitor = MonitorFromPoint(currentPos, MONITOR_DEFAULTTONEAREST);
        RECT monitorRect;
        if (m_topology.GetMonitorRect(currentMonitor, monitorRect))
        {
            // Find monitor ID
            int monitorId = -1;
            for (const auto& monitor : m_monitors)
            {
                if (monitor.rect.left == monitorRect.left &&
                    monitor.rect.top == monitorRect.top &&
                    monitor.rect.right == monitorRect.right &&
                    monitor.rect.bottom == monitorRect.bottom)
                {
                    monitorId = monitor.monitorId;
                    break;
                }
            }
            oss << L" on Monitor " << monitorId << L" [" << monitorRect.left << L".." << monitorRect.right
                << L", " << monitorRect.top << L".." << monitorRect.bottom << L"]";
        }
        else
        {
            oss << L" (beyond monitor bounds)";
        }
        oss << L"\n";
        OutputDebugStringW(oss.str().c_str());
    }
 #endif
    // Get current monitor
    HMONITOR currentMonitor = MonitorFromPoint(currentPos, MONITOR_DEFAULTTONEAREST);
    // Check if cursor is on an outer edge (filtered by wrap mode)
    EdgeType edgeType;
    if (!m_topology.IsOnOuterEdge(currentMonitor, currentPos, edgeType, mode))
    {
 #ifdef _DEBUG
        static bool lastWasNotOuter = false;
        if (!lastWasNotOuter)
        {
            OutputDebugStringW(L"[CursorWrap] [MOVE] Not on outer edge - no wrapping\n");
            lastWasNotOuter = true;
        }
 #endif
        return currentPos; // Not on an outer edge
    }
 #ifdef _DEBUG
    {
        const wchar_t* edgeStr = L"Unknown";
        switch (edgeType)
        {
        case EdgeType::Left: edgeStr = L"Left"; break;
        case EdgeType::Right: edgeStr = L"Right"; break;
        case EdgeType::Top: edgeStr = L"Top"; break;
        case EdgeType::Bottom: edgeStr = L"Bottom"; break;
        }
        std::wostringstream oss;
        oss << L"[CursorWrap] [EDGE] Detected outer " << edgeStr << L" edge at (" << currentPos.x << L", " << currentPos.y << L")\n";
        OutputDebugStringW(oss.str().c_str());
    }
 #endif
    // Calculate wrap destination
    POINT newPos = m_topology.GetWrapDestination(currentMonitor, currentPos, edgeType);
 #ifdef _DEBUG
    if (newPos.x != currentPos.x || newPos.y != currentPos.y)
    {
        std::wostringstream oss;
        oss << L"[CursorWrap] [WRAP] Position change: (" << currentPos.x << L", " << currentPos.y
            << L") -> (" << newPos.x << L", " << newPos.y << L")\n";
        oss << L"[CursorWrap] [WRAP] Delta: (" << (newPos.x - currentPos.x) << L", " << (newPos.y - currentPos.y) << L")\n";
        OutputDebugStringW(oss.str().c_str());
    }
    else
    {
        OutputDebugStringW(L"[CursorWrap] [WRAP] No position change (same-monitor wrap?)\n");
    }
 #endif
    return newPos;
 }
--- a/src/modules/MouseUtils/CursorWrap/CursorWrapCore.h
+++ b/src/modules/MouseUtils/CursorWrap/CursorWrapCore.h
@@ -0,0 +1,33 @@
 // Copyright (c) Microsoft Corporation
 // The Microsoft Corporation licenses this file to you under the MIT license.
 // See the LICENSE file in the project root for more information.
 #pragma once
 #include <windows.h>
 #include <vector>
 #include <string>
 #include "MonitorTopology.h"
 // Core cursor wrapping engine
 class CursorWrapCore
 {
 public:
    CursorWrapCore();
    void UpdateMonitorInfo();
    // Handle mouse move with wrap mode filtering
    // wrapMode: 0=Both, 1=VerticalOnly, 2=HorizontalOnly
    POINT HandleMouseMove(const POINT& currentPos, bool disableWrapDuringDrag, int wrapMode);
    const std::vector<MonitorInfo>& GetMonitors() const { return m_monitors; }
    const MonitorTopology& GetTopology() const { return m_topology; }
 private:
 #ifdef _DEBUG
    std::wstring GenerateTopologyJSON() const;
 #endif
    std::vector<MonitorInfo> m_monitors;
    MonitorTopology m_topology;
 };
--- a/src/modules/MouseUtils/CursorWrap/MonitorTopology.cpp
+++ b/src/modules/MouseUtils/CursorWrap/MonitorTopology.cpp
@@ -0,0 +1,546 @@
 // Copyright (c) Microsoft Corporation
 // The Microsoft Corporation licenses this file to you under the MIT license.
 // See the LICENSE file in the project root for more information.
 #include "pch.h"
 #include "MonitorTopology.h"
 #include "../../../common/logger/logger.h"
 #include <algorithm>
 #include <cmath>
 void MonitorTopology::Initialize(const std::vector<MonitorInfo>& monitors)
 {
    Logger::info(L"======= TOPOLOGY INITIALIZATION START =======");
    Logger::info(L"Initializing edge-based topology for {} monitors", monitors.size());
    m_monitors = monitors;
    m_outerEdges.clear();
    m_edgeMap.clear();
    if (monitors.empty())
    {
        Logger::warn(L"No monitors provided to Initialize");
        return;
    }
    // Log monitor details
    for (size_t i = 0; i < monitors.size(); ++i)
    {
        const auto& m = monitors[i];
        Logger::info(L"Monitor {}: hMonitor={}, rect=({},{},{},{}), primary={}",
            i, reinterpret_cast<uintptr_t>(m.hMonitor),
            m.rect.left, m.rect.top, m.rect.right, m.rect.bottom,
            m.isPrimary ? L"yes" : L"no");
    }
    BuildEdgeMap();
    IdentifyOuterEdges();
    Logger::info(L"Found {} outer edges", m_outerEdges.size());
    for (const auto& edge : m_outerEdges)
    {
        const wchar_t* typeStr = L"Unknown";
        switch (edge.type)
        {
        case EdgeType::Left: typeStr = L"Left"; break;
        case EdgeType::Right: typeStr = L"Right"; break;
        case EdgeType::Top: typeStr = L"Top"; break;
        case EdgeType::Bottom: typeStr = L"Bottom"; break;
        }
        Logger::info(L"Outer edge: Monitor {} {} at position {}, range [{}, {}]",
            edge.monitorIndex, typeStr, edge.position, edge.start, edge.end);
    }
    Logger::info(L"======= TOPOLOGY INITIALIZATION COMPLETE =======");
 }
 void MonitorTopology::BuildEdgeMap()
 {
    // Create edges for each monitor using monitor index (not HMONITOR)
    // This is important because HMONITOR handles can change when monitors are
    // added/removed dynamically, but indices remain stable within a single
    // topology configuration
    for (size_t idx = 0; idx < m_monitors.size(); ++idx)
    {
        const auto& monitor = m_monitors[idx];
        int monitorIndex = static_cast<int>(idx);
        // Left edge
        MonitorEdge leftEdge;
        leftEdge.monitorIndex = monitorIndex;
        leftEdge.type = EdgeType::Left;
        leftEdge.position = monitor.rect.left;
        leftEdge.start = monitor.rect.top;
        leftEdge.end = monitor.rect.bottom;
        leftEdge.isOuter = true; // Will be updated in IdentifyOuterEdges
        m_edgeMap[{monitorIndex, EdgeType::Left}] = leftEdge;
        // Right edge
        MonitorEdge rightEdge;
        rightEdge.monitorIndex = monitorIndex;
        rightEdge.type = EdgeType::Right;
        rightEdge.position = monitor.rect.right - 1;
        rightEdge.start = monitor.rect.top;
        rightEdge.end = monitor.rect.bottom;
        rightEdge.isOuter = true;
        m_edgeMap[{monitorIndex, EdgeType::Right}] = rightEdge;
        // Top edge
        MonitorEdge topEdge;
        topEdge.monitorIndex = monitorIndex;
        topEdge.type = EdgeType::Top;
        topEdge.position = monitor.rect.top;
        topEdge.start = monitor.rect.left;
        topEdge.end = monitor.rect.right;
        topEdge.isOuter = true;
        m_edgeMap[{monitorIndex, EdgeType::Top}] = topEdge;
        // Bottom edge
        MonitorEdge bottomEdge;
        bottomEdge.monitorIndex = monitorIndex;
        bottomEdge.type = EdgeType::Bottom;
        bottomEdge.position = monitor.rect.bottom - 1;
        bottomEdge.start = monitor.rect.left;
        bottomEdge.end = monitor.rect.right;
        bottomEdge.isOuter = true;
        m_edgeMap[{monitorIndex, EdgeType::Bottom}] = bottomEdge;
    }
 }
 void MonitorTopology::IdentifyOuterEdges()
 {
    const int tolerance = 50;
    // Check each edge against all other edges to find adjacent ones
    for (auto& [key1, edge1] : m_edgeMap)
    {
        for (const auto& [key2, edge2] : m_edgeMap)
        {
            if (edge1.monitorIndex == edge2.monitorIndex)
            {
                continue; // Same monitor
            }
            // Check if edges are adjacent
            if (EdgesAreAdjacent(edge1, edge2, tolerance))
            {
                edge1.isOuter = false;
                break; // This edge has an adjacent monitor
            }
        }
        if (edge1.isOuter)
        {
            m_outerEdges.push_back(edge1);
        }
    }
 }
 bool MonitorTopology::EdgesAreAdjacent(const MonitorEdge& edge1, const MonitorEdge& edge2, int tolerance) const
 {
    // Edges must be opposite types to be adjacent
    bool oppositeTypes = false;
    if ((edge1.type == EdgeType::Left && edge2.type == EdgeType::Right) ||
        (edge1.type == EdgeType::Right && edge2.type == EdgeType::Left) ||
        (edge1.type == EdgeType::Top && edge2.type == EdgeType::Bottom) ||
        (edge1.type == EdgeType::Bottom && edge2.type == EdgeType::Top))
    {
        oppositeTypes = true;
    }
    if (!oppositeTypes)
    {
        return false;
    }
    // Check if positions are within tolerance
    if (abs(edge1.position - edge2.position) > tolerance)
    {
        return false;
    }
    // Check if perpendicular ranges overlap
    int overlapStart = max(edge1.start, edge2.start);
    int overlapEnd = min(edge1.end, edge2.end);
    return overlapEnd > overlapStart + tolerance;
 }
 bool MonitorTopology::IsOnOuterEdge(HMONITOR monitor, const POINT& cursorPos, EdgeType& outEdgeType, WrapMode wrapMode) const
 {
    RECT monitorRect;
    if (!GetMonitorRect(monitor, monitorRect))
    {
        Logger::warn(L"IsOnOuterEdge: GetMonitorRect failed for monitor handle {}", reinterpret_cast<uintptr_t>(monitor));
        return false;
    }
    // Get monitor index for edge map lookup
    int monitorIndex = GetMonitorIndex(monitor);
    if (monitorIndex < 0)
    {
        Logger::warn(L"IsOnOuterEdge: Monitor index not found for handle {} at cursor ({}, {})", 
            reinterpret_cast<uintptr_t>(monitor), cursorPos.x, cursorPos.y);
        return false; // Monitor not found in our list
    }
    // Check each edge type
    const int edgeThreshold = 1;
    // At corners, multiple edges may match - collect all candidates and try each
    // to find one with a valid wrap destination
    std::vector<EdgeType> candidateEdges;
    // Left edge - only if mode allows horizontal wrapping
    if ((wrapMode == WrapMode::Both || wrapMode == WrapMode::HorizontalOnly) &&
        cursorPos.x <= monitorRect.left + edgeThreshold)
    {
        auto it = m_edgeMap.find({monitorIndex, EdgeType::Left});
        if (it != m_edgeMap.end() && it->second.isOuter)
        {
            candidateEdges.push_back(EdgeType::Left);
        }
    }
    // Right edge - only if mode allows horizontal wrapping
    if ((wrapMode == WrapMode::Both || wrapMode == WrapMode::HorizontalOnly) &&
        cursorPos.x >= monitorRect.right - 1 - edgeThreshold)
    {
        auto it = m_edgeMap.find({monitorIndex, EdgeType::Right});
        if (it != m_edgeMap.end())
        {
            if (it->second.isOuter)
            {
                candidateEdges.push_back(EdgeType::Right);
            }
            // Debug: Log why right edge isn't outer
            else
            {
                Logger::trace(L"IsOnOuterEdge: Monitor {} right edge is NOT outer (inner edge)", monitorIndex);
            }
        }
    }
    // Top edge - only if mode allows vertical wrapping
    if ((wrapMode == WrapMode::Both || wrapMode == WrapMode::VerticalOnly) &&
        cursorPos.y <= monitorRect.top + edgeThreshold)
    {
        auto it = m_edgeMap.find({monitorIndex, EdgeType::Top});
        if (it != m_edgeMap.end() && it->second.isOuter)
        {
            candidateEdges.push_back(EdgeType::Top);
        }
    }
    // Bottom edge - only if mode allows vertical wrapping
    if ((wrapMode == WrapMode::Both || wrapMode == WrapMode::VerticalOnly) &&
        cursorPos.y >= monitorRect.bottom - 1 - edgeThreshold)
    {
        auto it = m_edgeMap.find({monitorIndex, EdgeType::Bottom});
        if (it != m_edgeMap.end() && it->second.isOuter)
        {
            candidateEdges.push_back(EdgeType::Bottom);
        }
    }
    if (candidateEdges.empty())
    {
        return false;
    }
    // Try each candidate edge and return first with valid wrap destination
    for (EdgeType candidate : candidateEdges)
    {
        MonitorEdge oppositeEdge = FindOppositeOuterEdge(candidate,
            (candidate == EdgeType::Left || candidate == EdgeType::Right) ? cursorPos.y : cursorPos.x);
        if (oppositeEdge.monitorIndex >= 0)
        {
            outEdgeType = candidate;
            return true;
        }
    }
    return false;
 }
 POINT MonitorTopology::GetWrapDestination(HMONITOR fromMonitor, const POINT& cursorPos, EdgeType edgeType) const
 {
    // Get monitor index for edge map lookup
    int monitorIndex = GetMonitorIndex(fromMonitor);
    if (monitorIndex < 0)
    {
        return cursorPos; // Monitor not found
    }
    auto it = m_edgeMap.find({monitorIndex, edgeType});
    if (it == m_edgeMap.end())
    {
        return cursorPos; // Edge not found
    }
    const MonitorEdge& fromEdge = it->second;
    // Calculate relative position on current edge (0.0 to 1.0)
    double relativePos = GetRelativePosition(fromEdge,
        (edgeType == EdgeType::Left || edgeType == EdgeType::Right) ? cursorPos.y : cursorPos.x);
    // Find opposite outer edge
    MonitorEdge oppositeEdge = FindOppositeOuterEdge(edgeType,
        (edgeType == EdgeType::Left || edgeType == EdgeType::Right) ? cursorPos.y : cursorPos.x);
    if (oppositeEdge.monitorIndex < 0)
    {
        // No opposite edge found, wrap within same monitor
        RECT monitorRect;
        if (GetMonitorRect(fromMonitor, monitorRect))
        {
            POINT result = cursorPos;
            switch (edgeType)
            {
            case EdgeType::Left:
                result.x = monitorRect.right - 2;
                break;
            case EdgeType::Right:
                result.x = monitorRect.left + 1;
                break;
            case EdgeType::Top:
                result.y = monitorRect.bottom - 2;
                break;
            case EdgeType::Bottom:
                result.y = monitorRect.top + 1;
                break;
            }
            return result;
        }
        return cursorPos;
    }
    // Calculate target position on opposite edge
    POINT result;
    if (edgeType == EdgeType::Left || edgeType == EdgeType::Right)
    {
        // Horizontal edge -> vertical movement
        result.x = oppositeEdge.position;
        result.y = GetAbsolutePosition(oppositeEdge, relativePos);
    }
    else
    {
        // Vertical edge -> horizontal movement
        result.y = oppositeEdge.position;
        result.x = GetAbsolutePosition(oppositeEdge, relativePos);
    }
    return result;
 }
 MonitorEdge MonitorTopology::FindOppositeOuterEdge(EdgeType fromEdge, int relativePosition) const
 {
    EdgeType targetType;
    bool findMax; // true = find max position, false = find min position
    switch (fromEdge)
    {
    case EdgeType::Left:
        targetType = EdgeType::Right;
        findMax = true;
        break;
    case EdgeType::Right:
        targetType = EdgeType::Left;
        findMax = false;
        break;
    case EdgeType::Top:
        targetType = EdgeType::Bottom;
        findMax = true;
        break;
    case EdgeType::Bottom:
        targetType = EdgeType::Top;
        findMax = false;
        break;
    default:
        return { .monitorIndex = -1 }; // Invalid edge type
    }
    MonitorEdge result = { .monitorIndex = -1 }; // -1 indicates not found
    int extremePosition = findMax ? INT_MIN : INT_MAX;
    for (const auto& edge : m_outerEdges)
    {
        if (edge.type != targetType)
        {
            continue;
        }
        // Check if this edge overlaps with the relative position
        if (relativePosition >= edge.start && relativePosition <= edge.end)
        {
            if ((findMax && edge.position > extremePosition) ||
                (!findMax && edge.position < extremePosition))
            {
                extremePosition = edge.position;
                result = edge;
            }
        }
    }
    return result;
 }
 double MonitorTopology::GetRelativePosition(const MonitorEdge& edge, int coordinate) const
 {
    if (edge.end == edge.start)
    {
        return 0.5; // Avoid division by zero
    }
    int clamped = max(edge.start, min(coordinate, edge.end));
    // Use int64_t to avoid overflow warning C26451
    int64_t numerator = static_cast<int64_t>(clamped) - static_cast<int64_t>(edge.start);
    int64_t denominator = static_cast<int64_t>(edge.end) - static_cast<int64_t>(edge.start);
    return static_cast<double>(numerator) / static_cast<double>(denominator);
 }
 int MonitorTopology::GetAbsolutePosition(const MonitorEdge& edge, double relativePosition) const
 {
    // Use int64_t to prevent arithmetic overflow during subtraction and multiplication
    int64_t range = static_cast<int64_t>(edge.end) - static_cast<int64_t>(edge.start);
    int64_t offset = static_cast<int64_t>(relativePosition * static_cast<double>(range));
    // Clamp result to int range before returning
    int64_t result = static_cast<int64_t>(edge.start) + offset;
    return static_cast<int>(result);
 }
 std::vector<MonitorTopology::GapInfo> MonitorTopology::DetectMonitorGaps() const
 {
    std::vector<GapInfo> gaps;
    const int gapThreshold = 50; // Same as ADJACENCY_TOLERANCE
    // Check each pair of monitors
    for (size_t i = 0; i < m_monitors.size(); ++i)
    {
        for (size_t j = i + 1; j < m_monitors.size(); ++j)
        {
            const auto& m1 = m_monitors[i];
            const auto& m2 = m_monitors[j];
            // Check vertical overlap
            int vOverlapStart = max(m1.rect.top, m2.rect.top);
            int vOverlapEnd = min(m1.rect.bottom, m2.rect.bottom);
            int vOverlap = vOverlapEnd - vOverlapStart;
            if (vOverlap <= 0)
            {
                continue; // No vertical overlap, skip
            }
            // Check horizontal gap
            int hGap = min(abs(m1.rect.right - m2.rect.left), abs(m2.rect.right - m1.rect.left));
            if (hGap > gapThreshold)
            {
                GapInfo gap;
                gap.monitor1Index = static_cast<int>(i);
                gap.monitor2Index = static_cast<int>(j);
                gap.horizontalGap = hGap;
                gap.verticalOverlap = vOverlap;
                gaps.push_back(gap);
            }
        }
    }
    return gaps;
 }
 HMONITOR MonitorTopology::GetMonitorFromPoint(const POINT& pt) const
 {
    return MonitorFromPoint(pt, MONITOR_DEFAULTTONEAREST);
 }
 bool MonitorTopology::GetMonitorRect(HMONITOR monitor, RECT& rect) const
 {
    // First try direct HMONITOR comparison
    for (const auto& monitorInfo : m_monitors)
    {
        if (monitorInfo.hMonitor == monitor)
        {
            rect = monitorInfo.rect;
            return true;
        }
    }
    // Fallback: If direct comparison fails, try matching by current monitor info
    MONITORINFO mi{};
    mi.cbSize = sizeof(MONITORINFO);
    if (GetMonitorInfo(monitor, &mi))
    {
        for (const auto& monitorInfo : m_monitors)
        {
            if (monitorInfo.rect.left == mi.rcMonitor.left &&
                monitorInfo.rect.top == mi.rcMonitor.top &&
                monitorInfo.rect.right == mi.rcMonitor.right &&
                monitorInfo.rect.bottom == mi.rcMonitor.bottom)
            {
                rect = monitorInfo.rect;
                return true;
            }
        }
    }
    return false;
 }
 HMONITOR MonitorTopology::GetMonitorFromRect(const RECT& rect) const
 {
    return MonitorFromRect(&rect, MONITOR_DEFAULTTONEAREST);
 }
 int MonitorTopology::GetMonitorIndex(HMONITOR monitor) const
 {
    // First try direct HMONITOR comparison (fast and accurate)
    for (size_t i = 0; i < m_monitors.size(); ++i)
    {
        if (m_monitors[i].hMonitor == monitor)
        {
            return static_cast<int>(i);
        }
    }
    // Fallback: If direct comparison fails (e.g., handle changed after display reconfiguration),
    // try matching by position. Get the monitor's current rect and find matching stored rect.
    MONITORINFO mi{};
    mi.cbSize = sizeof(MONITORINFO);
    if (GetMonitorInfo(monitor, &mi))
    {
        for (size_t i = 0; i < m_monitors.size(); ++i)
        {
            // Match by rect bounds
            if (m_monitors[i].rect.left == mi.rcMonitor.left &&
                m_monitors[i].rect.top == mi.rcMonitor.top &&
                m_monitors[i].rect.right == mi.rcMonitor.right &&
                m_monitors[i].rect.bottom == mi.rcMonitor.bottom)
            {
                Logger::trace(L"GetMonitorIndex: Found monitor {} via rect fallback (handle changed from {} to {})", 
                    i, reinterpret_cast<uintptr_t>(m_monitors[i].hMonitor), reinterpret_cast<uintptr_t>(monitor));
                return static_cast<int>(i);
            }
        }
        // Log all stored monitors vs the requested one for debugging
        Logger::warn(L"GetMonitorIndex: No match found. Requested monitor rect=({},{},{},{})",
            mi.rcMonitor.left, mi.rcMonitor.top, mi.rcMonitor.right, mi.rcMonitor.bottom);
        for (size_t i = 0; i < m_monitors.size(); ++i)
        {
            Logger::warn(L"  Stored monitor {}: rect=({},{},{},{})",
                i, m_monitors[i].rect.left, m_monitors[i].rect.top, 
                m_monitors[i].rect.right, m_monitors[i].rect.bottom);
        }
    }
    else
    {
        Logger::warn(L"GetMonitorIndex: GetMonitorInfo failed for handle {}", reinterpret_cast<uintptr_t>(monitor));
    }
    return -1; // Not found
 }
--- a/src/modules/MouseUtils/CursorWrap/MonitorTopology.h
+++ b/src/modules/MouseUtils/CursorWrap/MonitorTopology.h
@@ -0,0 +1,106 @@
 // Copyright (c) Microsoft Corporation
 // The Microsoft Corporation licenses this file to you under the MIT license.
 // See the LICENSE file in the project root for more information.
 #pragma once
 #include <windows.h>
 #include <vector>
 #include <map>
 // Monitor information structure
 struct MonitorInfo
 {
    HMONITOR hMonitor; // Direct handle for accurate lookup after display changes
    RECT rect;
    bool isPrimary;
    int monitorId;
 };
 // Edge type enumeration
 enum class EdgeType
 {
    Left = 0,
    Right = 1,
    Top = 2,
    Bottom = 3
 };
 // Wrap mode enumeration (matches Settings UI dropdown)
 enum class WrapMode
 {
    Both = 0,           // Wrap in both directions
    VerticalOnly = 1,   // Only wrap top/bottom
    HorizontalOnly = 2  // Only wrap left/right
 };
 // Represents a single edge of a monitor
 struct MonitorEdge
 {
    int monitorIndex;  // Index into m_monitors (stable across display changes)
    EdgeType type;
    int start;      // For vertical edges: Y start; horizontal: X start
    int end;        // For vertical edges: Y end; horizontal: X end
    int position;   // For vertical edges: X coord; horizontal: Y coord
    bool isOuter;   // True if no adjacent monitor touches this edge
 };
 // Monitor topology helper - manages edge-based monitor layout
 struct MonitorTopology
 {
    void Initialize(const std::vector<MonitorInfo>& monitors);
    // Check if cursor is on an outer edge of the given monitor
    // wrapMode filters which edges are considered (Both, VerticalOnly, HorizontalOnly)
    bool IsOnOuterEdge(HMONITOR monitor, const POINT& cursorPos, EdgeType& outEdgeType, WrapMode wrapMode) const;
    // Get the wrap destination point for a cursor on an outer edge
    POINT GetWrapDestination(HMONITOR fromMonitor, const POINT& cursorPos, EdgeType edgeType) const;
    // Get monitor at point (helper)
    HMONITOR GetMonitorFromPoint(const POINT& pt) const;
    // Get monitor rectangle (helper)
    bool GetMonitorRect(HMONITOR monitor, RECT& rect) const;
    // Get outer edges collection (for debugging)
    const std::vector<MonitorEdge>& GetOuterEdges() const { return m_outerEdges; }
    // Detect gaps between monitors that should be snapped together
    struct GapInfo {
        int monitor1Index;
        int monitor2Index;
        int horizontalGap;
        int verticalOverlap;
    };
    std::vector<GapInfo> DetectMonitorGaps() const;
 private:
    std::vector<MonitorInfo> m_monitors;
    std::vector<MonitorEdge> m_outerEdges;
    // Map from (monitor index, edge type) to edge info
    // Using monitor index instead of HMONITOR because HMONITOR handles can change
    // when monitors are added/removed dynamically
    std::map<std::pair<int, EdgeType>, MonitorEdge> m_edgeMap;
    // Helper to resolve HMONITOR to monitor index at runtime
    int GetMonitorIndex(HMONITOR monitor) const;
    // Helper to get consistent HMONITOR from RECT
    HMONITOR GetMonitorFromRect(const RECT& rect) const;
    void BuildEdgeMap();
    void IdentifyOuterEdges();
    // Check if two edges are adjacent (within tolerance)
    bool EdgesAreAdjacent(const MonitorEdge& edge1, const MonitorEdge& edge2, int tolerance = 50) const;
    // Find the opposite outer edge for wrapping
    MonitorEdge FindOppositeOuterEdge(EdgeType fromEdge, int relativePosition) const;
    // Calculate relative position along an edge (0.0 to 1.0)
    double GetRelativePosition(const MonitorEdge& edge, int coordinate) const;
    // Convert relative position to absolute coordinate on target edge
    int GetAbsolutePosition(const MonitorEdge& edge, double relativePosition) const;
 };
--- a/src/modules/MouseUtils/CursorWrap/dllmain.cpp
+++ b/src/modules/MouseUtils/CursorWrap/dllmain.cpp
--- a/src/settings-ui/Settings.UI.Library/CursorWrapProperties.cs
+++ b/src/settings-ui/Settings.UI.Library/CursorWrapProperties.cs
@@ -22,11 +22,15 @@ namespace Microsoft.PowerToys.Settings.UI.Library
        [JsonPropertyName("disable_wrap_during_drag")]
        public BoolProperty DisableWrapDuringDrag { get; set; }
        [JsonPropertyName("wrap_mode")]
        public IntProperty WrapMode { get; set; }
        public CursorWrapProperties()
        {
            ActivationShortcut = DefaultActivationShortcut;
            AutoActivate = new BoolProperty(false);
            DisableWrapDuringDrag = new BoolProperty(true);
            WrapMode = new IntProperty(0); // 0=Both (default), 1=VerticalOnly, 2=HorizontalOnly
        }
    }
 }
--- a/src/settings-ui/Settings.UI.Library/CursorWrapSettings.cs
+++ b/src/settings-ui/Settings.UI.Library/CursorWrapSettings.cs
@@ -47,7 +47,16 @@ namespace Microsoft.PowerToys.Settings.UI.Library
        // This can be utilized in the future if the settings.json file is to be modified/deleted.
        public bool UpgradeSettingsConfiguration()
        {
-            return false;
+            bool settingsUpgraded = false;
            // Add WrapMode property if it doesn't exist (for users upgrading from older versions)
            if (Properties.WrapMode == null)
            {
                Properties.WrapMode = new IntProperty(0); // Default to Both
                settingsUpgraded = true;
            }
            return settingsUpgraded;
        }
    }
 }
--- a/src/settings-ui/Settings.UI/SettingsXAML/Views/MouseUtilsPage.xaml
+++ b/src/settings-ui/Settings.UI/SettingsXAML/Views/MouseUtilsPage.xaml
@@ -47,6 +47,13 @@
                            <tkcontrols:SettingsCard ContentAlignment="Left" IsEnabled="{x:Bind ViewModel.IsCursorWrapEnabled, Mode=OneWay}">
                                <CheckBox x:Uid="MouseUtils_CursorWrap_DisableWrapDuringDrag" IsChecked="{x:Bind ViewModel.CursorWrapDisableWrapDuringDrag, Mode=TwoWay}" />
                            </tkcontrols:SettingsCard>
                            <tkcontrols:SettingsCard Name="MouseUtilsCursorWrapWrapMode" x:Uid="MouseUtils_CursorWrap_WrapMode">
                                <ComboBox MinWidth="{StaticResource SettingActionControlMinWidth}" SelectedIndex="{x:Bind Path=ViewModel.CursorWrapWrapMode, Mode=TwoWay}">
                                    <ComboBoxItem x:Uid="MouseUtils_CursorWrap_WrapMode_Both" />
                                    <ComboBoxItem x:Uid="MouseUtils_CursorWrap_WrapMode_VerticalOnly" />
                                    <ComboBoxItem x:Uid="MouseUtils_CursorWrap_WrapMode_HorizontalOnly" />
                                </ComboBox>
                            </tkcontrols:SettingsCard>
                        </tkcontrols:SettingsExpander.Items>
                    </tkcontrols:SettingsExpander>
                </controls:SettingsGroup>
--- a/src/settings-ui/Settings.UI/Strings/en-us/Resources.resw
+++ b/src/settings-ui/Settings.UI/Strings/en-us/Resources.resw
@@ -2728,6 +2728,18 @@ From there, simply click on one of the supported files in the File Explorer and
  <data name="MouseUtils_CursorWrap_AutoActivate.Content" xml:space="preserve">
    <value>Automatically activate on utility startup</value>
  </data>
  <data name="MouseUtils_CursorWrap_WrapMode.Header" xml:space="preserve">
    <value>Wrap mode</value>
  </data>
  <data name="MouseUtils_CursorWrap_WrapMode_VerticalOnly.Content" xml:space="preserve">
    <value>Vertical only</value>
  </data>
  <data name="MouseUtils_CursorWrap_WrapMode_HorizontalOnly.Content" xml:space="preserve">
    <value>Horizontal only</value>
  </data>
  <data name="MouseUtils_CursorWrap_WrapMode_Both.Content" xml:space="preserve">
    <value>Vertical and horizontal</value>
  </data>
  <data name="Oobe_MouseUtils_MousePointerCrosshairs.Text" xml:space="preserve">
    <value>Mouse Pointer Crosshairs</value>
    <comment>Mouse as in the hardware peripheral.</comment>
--- a/src/settings-ui/Settings.UI/ViewModels/MouseUtilsViewModel.cs
+++ b/src/settings-ui/Settings.UI/ViewModels/MouseUtilsViewModel.cs
@@ -113,6 +113,9 @@ namespace Microsoft.PowerToys.Settings.UI.ViewModels
            // Null-safe access in case property wasn't upgraded yet - default to TRUE
            _cursorWrapDisableWrapDuringDrag = CursorWrapSettingsConfig.Properties.DisableWrapDuringDrag?.Value ?? true;
            // Null-safe access in case property wasn't upgraded yet - default to 0 (Both)
            _cursorWrapWrapMode = CursorWrapSettingsConfig.Properties.WrapMode?.Value ?? 0;
            int isEnabled = 0;
            Utilities.NativeMethods.SystemParametersInfo(Utilities.NativeMethods.SPI_GETCLIENTAREAANIMATION, 0, ref isEnabled, 0);
@@ -1083,6 +1086,34 @@ namespace Microsoft.PowerToys.Settings.UI.ViewModels
            }
        }
        public int CursorWrapWrapMode
        {
            get
            {
                return _cursorWrapWrapMode;
            }
            set
            {
                if (value != _cursorWrapWrapMode)
                {
                    _cursorWrapWrapMode = value;
                    // Ensure the property exists before setting value
                    if (CursorWrapSettingsConfig.Properties.WrapMode == null)
                    {
                        CursorWrapSettingsConfig.Properties.WrapMode = new IntProperty(value);
                    }
                    else
                    {
                        CursorWrapSettingsConfig.Properties.WrapMode.Value = value;
                    }
                    NotifyCursorWrapPropertyChanged();
                }
            }
        }
        public void NotifyCursorWrapPropertyChanged([CallerMemberName] string propertyName = null)
        {
            OnPropertyChanged(propertyName);
@@ -1154,5 +1185,6 @@ namespace Microsoft.PowerToys.Settings.UI.ViewModels
        private bool _isCursorWrapEnabled;
        private bool _cursorWrapAutoActivate;
        private bool _cursorWrapDisableWrapDuringDrag; // Will be initialized in constructor from settings
        private int _cursorWrapWrapMode; // 0=Both, 1=VerticalOnly, 2=HorizontalOnly
    }
 }