/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #include #include #include #include #include #include static HCURSOR afxCursors[10] = { nullptr, }; static HBRUSH afxHalftoneBrush = nullptr; namespace { // the struct below is used to determine the qualities of a particular handle struct AFX_HANDLEINFO { size_t nOffsetX; // offset within RECT for X coordinate size_t nOffsetY; // offset within RECT for Y coordinate int nCenterX; // adjust X by Width()/2 * this number int nCenterY; // adjust Y by Height()/2 * this number int nHandleX; // adjust X by handle size * this number int nHandleY; // adjust Y by handle size * this number int nInvertX; // handle converts to this when X inverted int nInvertY; // handle converts to this when Y inverted }; } // this array describes all 8 handles (clock-wise) const AFX_HANDLEINFO afxHandleInfo[] = { // corner handles (top-left, top-right, bottom-right, bottom-left { offsetof(RECT, left), offsetof(RECT, top), 0, 0, 0, 0, 1, 3 }, { offsetof(RECT, right), offsetof(RECT, top), 0, 0, -1, 0, 0, 2 }, { offsetof(RECT, right), offsetof(RECT, bottom), 0, 0, -1, -1, 3, 1 }, { offsetof(RECT, left), offsetof(RECT, bottom), 0, 0, 0, -1, 2, 0 }, // side handles (top, right, bottom, left) { offsetof(RECT, left), offsetof(RECT, top), 1, 0, 0, 0, 4, 6 }, { offsetof(RECT, right), offsetof(RECT, top), 0, 1, -1, 0, 7, 5 }, { offsetof(RECT, left), offsetof(RECT, bottom), 1, 0, 0, -1, 6, 4 }, { offsetof(RECT, left), offsetof(RECT, top), 0, 1, 0, 0, 5, 7 } }; namespace { // the struct below gives us information on the layout of a RECT struct and // the relationship between its members struct AFX_RECTINFO { size_t nOffsetAcross; // offset of opposite point (ie. left->right) int nSignAcross; // sign relative to that point (ie. add/subtract) }; } // this array is indexed by the offset of the RECT member / sizeof(int) const AFX_RECTINFO afxRectInfo[] = { { offsetof(RECT, right), +1 }, { offsetof(RECT, bottom), +1 }, { offsetof(RECT, left), -1 }, { offsetof(RECT, top), -1 }, }; static HBRUSH HalftoneBrush() { if (afxHalftoneBrush == nullptr) { WORD grayPattern[8]; for (int i = 0; i < 8; i++) grayPattern[i] = static_cast(0x5555 << (i & 1)); HBITMAP grayBitmap = CreateBitmap(8, 8, 1, 1, &grayPattern); if (grayBitmap != nullptr) { afxHalftoneBrush = CreatePatternBrush(grayBitmap); DeleteObject(grayBitmap); } } return afxHalftoneBrush; } static void DrawDragRect( HDC hDC,LPRECT lpRect,SIZE size, LPRECT lpRectLast,SIZE sizeLast, HBRUSH hBrush = nullptr,HBRUSH hBrushLast = nullptr) { // first, determine the update region and select it HRGN rgnNew; HRGN rgnOutside,rgnInside; rgnOutside = CreateRectRgnIndirect(lpRect); RECT rect = *lpRect; InflateRect(&rect,-size.cx, -size.cy); IntersectRect(&rect,&rect,lpRect); rgnInside = CreateRectRgnIndirect(&rect); rgnNew = CreateRectRgn(0, 0, 0, 0); CombineRgn(rgnNew,rgnOutside,rgnInside,RGN_XOR); HBRUSH hBrushOld = nullptr; if (hBrush == nullptr) hBrush = HalftoneBrush(); if (hBrushLast == nullptr) hBrushLast = hBrush; HRGN rgnLast(nullptr); HRGN rgnUpdate(nullptr); if (lpRectLast != nullptr) { // find difference between new region and old region rgnLast = CreateRectRgn(0, 0, 0, 0); SetRectRgn( rgnOutside, lpRectLast->left, lpRectLast->top, lpRectLast->right, lpRectLast->bottom); rect = *lpRectLast; InflateRect(&rect,-sizeLast.cx, -sizeLast.cy); IntersectRect(&rect,&rect, lpRectLast); SetRectRgn(rgnInside,rect.left,rect.top,rect.right,rect.bottom); CombineRgn(rgnLast,rgnOutside,rgnInside, RGN_XOR); // // only diff them if brushes are the same if (hBrush == hBrushLast) { rgnUpdate = CreateRectRgn(0, 0, 0, 0); CombineRgn(rgnUpdate,rgnLast,rgnNew, RGN_XOR); } } if (hBrush != hBrushLast && lpRectLast != nullptr) { // brushes are different -- erase old region first SelectClipRgn(hDC,rgnLast); GetClipBox(hDC,&rect); hBrushOld = static_cast(SelectObject(hDC,static_cast(hBrushLast))); PatBlt(hDC,rect.left,rect.top,(rect.right-rect.left),(rect.bottom-rect.top),PATINVERT); SelectObject(hDC,static_cast(hBrushOld)); hBrushOld = nullptr; } // draw into the update/new region SelectClipRgn(hDC,rgnUpdate); GetClipBox(hDC,&rect); hBrushOld = static_cast(SelectObject(hDC, static_cast(hBrush))); PatBlt(hDC,rect.left, rect.top,(rect.right-rect.left),(rect.bottom-rect.top), PATINVERT); // cleanup DC if (hBrushOld != nullptr) SelectObject(hDC, static_cast(hBrushOld)); SelectClipRgn(hDC,nullptr); } void winwrap::TransformRect(LPRECT rect,HWND pWnd,HWND pWndClipTo) { POINT pt; pt.x = rect->left;pt.y = rect->top; ClientToScreen(pWnd,&pt); ScreenToClient(pWndClipTo,&pt); rect->left = pt.x; rect->top = pt.y; pt.x = rect->right;pt.y = rect->bottom; ClientToScreen(pWnd,&pt); ScreenToClient(pWndClipTo,&pt); rect->right = pt.x; rect->bottom = pt.y; } static void NormalizeRect(LPRECT rp) { if(rp->left > rp->right) { UINT tmp = rp->left; rp->left = rp->right; rp->right = tmp; } if(rp->top > rp->bottom) { UINT tmp = rp->top; rp->top = rp->bottom; rp->bottom = tmp; } } using namespace winwrap; Tracker::Tracker() { } Tracker::Tracker(LPCRECT lpSrcRect, UINT nStyle) { Construct(); CopyRect(&m_rect,lpSrcRect); m_nStyle = nStyle; } static HBRUSH afxHatchBrush = nullptr; static HPEN afxBlackDottedPen = nullptr; static int afxHandleSize = 0; void Tracker::Construct() { static bool bInitialized = false; if (!bInitialized) { if (afxHatchBrush == nullptr) { // create the hatch pattern + bitmap WORD hatchPattern[8]; WORD wPattern = 0x1111; for (int i = 0; i < 4; i++) { hatchPattern[i] = wPattern; hatchPattern[i+4] = wPattern; wPattern <<= 1; } HBITMAP hatchBitmap = CreateBitmap(8, 8, 1, 1,&hatchPattern); // create black hatched brush afxHatchBrush = CreatePatternBrush(hatchBitmap); DeleteObject(hatchBitmap); } if (afxBlackDottedPen == nullptr) { // create black dotted pen afxBlackDottedPen = CreatePen(PS_DOT, 0, RGB(0, 0, 0)); } // get default handle size from Windows profile setting static const WCHAR szWindows[] = L"windows"; static const WCHAR szInplaceBorderWidth[] = L"oleinplaceborderwidth"; afxHandleSize = GetProfileIntW(szWindows, szInplaceBorderWidth, 4); bInitialized = true; afxCursors[0] = afxCursors[2] = LoadCursor(nullptr,IDC_SIZENWSE); afxCursors[4] = afxCursors[6] = LoadCursor(nullptr,IDC_SIZENS); afxCursors[1] = afxCursors[3] = LoadCursor(nullptr,IDC_SIZENESW); afxCursors[5] = afxCursors[7] = LoadCursor(nullptr,IDC_SIZEWE); afxCursors[8] = LoadCursor(nullptr,IDC_SIZEALL); } m_nStyle = 0; m_nHandleSize = afxHandleSize; m_sizeMin.cy = m_sizeMin.cx = m_nHandleSize*2; SetRectEmpty(&m_rectLast); m_sizeLast.cx = m_sizeLast.cy = 0; m_bErase = FALSE; m_bFinalErase = FALSE; } Tracker::~Tracker() { } int Tracker::HitTest(POINT point) const { TrackerHit hitResult = hitNothing; RECT rectTrue; GetTrueRect(&rectTrue); NormalizeRect(&rectTrue); if (PtInRect(&rectTrue,point)) { if ((m_nStyle & (resizeInside|resizeOutside)) != 0) hitResult = static_cast(HitTestHandles(point)); else hitResult = hitMiddle; } return hitResult; } BOOL Tracker::SetCursor(HWND pWnd, UINT nHitTest) const { // trackers should only be in client area if (nHitTest != HTCLIENT) return FALSE; // convert cursor position to client co-ordinates POINT point; GetCursorPos(&point); ScreenToClient(pWnd,&point); // do hittest and normalize hit int nHandle = HitTestHandles(point); if (nHandle < 0) return FALSE; // need to normalize the hittest such that we get proper cursors nHandle = NormalizeHit(nHandle); // handle special case of hitting area between handles // (logically the same -- handled as a move -- but different cursor) if (nHandle == hitMiddle && !PtInRect(&m_rect,point)) { // only for trackers with hatchedBorder (ie. in-place resizing) if (m_nStyle & hatchedBorder) nHandle = TrackerHit(9); } ::SetCursor(afxCursors[nHandle]); return TRUE; } BOOL Tracker::Track(HWND hWnd,POINT point,BOOL bAllowInvert, HWND hWndClipTo) { // perform hit testing on the handles int nHandle = HitTestHandles(point); if (nHandle < 0) { // didn't hit a handle, so just return FALSE return FALSE; } // otherwise, call helper function to do the tracking m_bAllowInvert = bAllowInvert; SetCursor(hWnd,nHandle); return TrackHandle(nHandle, hWnd, point, hWndClipTo); } BOOL Tracker::TrackHandle(int nHandle,HWND hWnd,POINT point,HWND hWndClipTo) { // don't handle if capture already set if (GetCapture() != nullptr) return FALSE; // save original width & height in pixels int nWidth = m_rect.right - m_rect.left; int nHeight = m_rect.bottom - m_rect.top; // set capture to the window which received this message SetCapture(hWnd); UpdateWindow(hWnd); if (hWndClipTo != nullptr) UpdateWindow(hWndClipTo); RECT rectSave = m_rect; // find out what x/y coords we are supposed to modify int *px, *py; int xDiff, yDiff; GetModifyPointers(nHandle, &px, &py, &xDiff, &yDiff); xDiff = point.x - xDiff; yDiff = point.y - yDiff; // get DC for drawing HDC hDrawDC; if (hWndClipTo != nullptr) { // clip to arbitrary window by using adjusted Window DC hDrawDC = GetDCEx(hWndClipTo,nullptr, DCX_CACHE); } else { // otherwise, just use normal DC hDrawDC = GetDC(hWnd); } RECT rectOld; bool bMoved = false; // get messages until capture lost or cancelled/accepted for (;;) { MSG msg; GetMessageW(&msg, nullptr, 0, 0); if (GetCapture() != hWnd) break; switch (msg.message) { // handle movement/accept messages case WM_LBUTTONUP: case WM_MOUSEMOVE: rectOld = m_rect; // handle resize cases (and part of move) if (px != nullptr) *px = static_cast(static_cast(LOWORD(msg.lParam))) - xDiff; if (py != nullptr) *py = static_cast(static_cast(HIWORD(msg.lParam))) - yDiff; // handle move case if (nHandle == hitMiddle) { m_rect.right = m_rect.left + nWidth; m_rect.bottom = m_rect.top + nHeight; } // allow caller to adjust the rectangle if necessary AdjustRect(nHandle,&m_rect); // only redraw and callback if the rect actually changed! m_bFinalErase = (msg.message == WM_LBUTTONUP); if (!EqualRect(&rectOld,&m_rect) || m_bFinalErase) { if (bMoved) { m_bErase = TRUE; DrawTrackerRect(&rectOld,hWndClipTo,hDrawDC,hWnd); } OnChangedRect(rectOld); if (msg.message != WM_LBUTTONUP) bMoved = true; } if (m_bFinalErase) goto ExitLoop; if (!EqualRect(&rectOld,&m_rect)) { m_bErase = FALSE; DrawTrackerRect(&m_rect,hWndClipTo,hDrawDC,hWnd); } break; // handle cancel messages case WM_KEYDOWN: if (msg.wParam != VK_ESCAPE) break; [[fallthrough]]; case WM_RBUTTONDOWN: if (bMoved) { m_bErase = m_bFinalErase = TRUE; DrawTrackerRect(&m_rect, hWndClipTo, hDrawDC, hWnd); } m_rect = rectSave; goto ExitLoop; // just dispatch rest of the messages default: DispatchMessageW(&msg); break; } } ExitLoop: if (hWndClipTo != nullptr) ReleaseDC(hWndClipTo,hDrawDC); else ReleaseDC(hWnd,hDrawDC); ReleaseCapture(); // restore rect in case bMoved is still FALSE if (!bMoved) m_rect = rectSave; m_bFinalErase = FALSE; m_bErase = FALSE; // return TRUE only if rect has changed return !EqualRect(&rectSave,&m_rect); } void Tracker::OnChangedRect(const RECT& /*rectOld*/) { } void Tracker::AdjustRect(int nHandle, LPRECT) { if(nHandle == hitMiddle) return; // convert the handle into locations within m_rect int *px, *py; GetModifyPointers(nHandle, &px, &py, nullptr, nullptr); // enforce minimum width int nNewWidth = m_rect.right - m_rect.left; int nAbsWidth = m_bAllowInvert ? abs(nNewWidth) : nNewWidth; if (px != nullptr && nAbsWidth < m_sizeMin.cx) { nNewWidth = nAbsWidth != 0 ? nNewWidth / nAbsWidth : 1; const AFX_RECTINFO* pRectInfo = &afxRectInfo[px - reinterpret_cast(&m_rect)]; *px = *reinterpret_cast(reinterpret_cast(&m_rect) + pRectInfo->nOffsetAcross) + nNewWidth * m_sizeMin.cx * -pRectInfo->nSignAcross; } // enforce minimum height int nNewHeight = m_rect.bottom - m_rect.top; int nAbsHeight = m_bAllowInvert ? abs(nNewHeight) : nNewHeight; if (py != nullptr && nAbsHeight < m_sizeMin.cy) { nNewHeight = nAbsHeight != 0 ? nNewHeight / nAbsHeight : 1; const AFX_RECTINFO* pRectInfo = &afxRectInfo[py - reinterpret_cast(&m_rect)]; *py = *reinterpret_cast(reinterpret_cast(&m_rect) + pRectInfo->nOffsetAcross) + nNewHeight * m_sizeMin.cy * -pRectInfo->nSignAcross; } } void Tracker::DrawTrackerRect( LPRECT lpRect,HWND pWndClipTo,HDC pDC,HWND pWnd) { // first, normalize the rectangle for drawing RECT rect = *lpRect; NormalizeRect(&rect); // convert to client coordinates if (pWndClipTo != nullptr) TransformRect(&rect,pWnd,pWndClipTo); SIZE size; size.cx = 0; size.cy = 0; if (!m_bFinalErase) { // otherwise, size depends on the style if (m_nStyle & hatchedBorder) { size.cx = size.cy = std::max(1,GetHandleSize(&rect)-1); InflateRect(&rect,size.cx,size.cy); } else { size.cx = 1; // CX_BORDER; size.cy = 1; // CY_BORDER; } } // and draw it if (m_bFinalErase || !m_bErase) DrawDragRect(pDC,&rect,size,&m_rectLast,m_sizeLast); // remember last rectangles m_rectLast = rect; m_sizeLast = size; } void Tracker::Draw(HDC hDC) const { // set initial DC state SetMapMode(hDC,MM_TEXT); SetViewportOrgEx(hDC,0, 0,nullptr); SetWindowOrgEx(hDC,0, 0,nullptr); // get normalized rectangle RECT rect = m_rect; NormalizeRect(&rect); HPEN pOldPen = nullptr; HBRUSH pOldBrush = nullptr; HGDIOBJ pTemp; int nOldROP; // draw lines if ((m_nStyle & (dottedLine|solidLine)) != 0) { if (m_nStyle & dottedLine) pOldPen = static_cast(SelectObject(hDC,afxBlackDottedPen)); else pOldPen = static_cast(SelectObject(hDC,reinterpret_cast(BLACK_PEN))); pOldBrush = static_cast(SelectObject(hDC,reinterpret_cast(NULL_BRUSH))); nOldROP = SetROP2(hDC,R2_COPYPEN); InflateRect(&rect,+1, +1); // borders are one pixel outside Rectangle(hDC,rect.left, rect.top, rect.right, rect.bottom); SetROP2(hDC,nOldROP); } // if hatchBrush is going to be used, need to unrealize it if ((m_nStyle & (hatchInside|hatchedBorder)) != 0) UnrealizeObject(static_cast(afxHatchBrush)); // hatch inside if ((m_nStyle & hatchInside) != 0) { pTemp = SelectObject(hDC,reinterpret_cast(NULL_PEN)); if (pOldPen == nullptr) pOldPen = static_cast(pTemp); pTemp = SelectObject(hDC,static_cast(afxHatchBrush)); if (pOldBrush == nullptr) pOldBrush = static_cast(pTemp); SetBkMode(hDC,TRANSPARENT); nOldROP = SetROP2(hDC,R2_MASKNOTPEN); Rectangle(hDC,rect.left+1, rect.top+1, rect.right, rect.bottom); SetROP2(hDC,nOldROP); } // draw hatched border if ((m_nStyle & hatchedBorder) != 0) { pTemp = SelectObject(hDC,static_cast(afxHatchBrush)); if (pOldBrush == nullptr) pOldBrush = static_cast(pTemp); SetBkMode(hDC,OPAQUE); RECT rectTrue; GetTrueRect(&rectTrue); PatBlt(hDC,rectTrue.left, rectTrue.top, rectTrue.right-rectTrue.left, rect.top-rectTrue.top, 0x000F0001 /* Pn */); PatBlt(hDC,rectTrue.left, rect.bottom, rectTrue.right-rectTrue.left, rectTrue.bottom-rect.bottom, 0x000F0001 /* Pn */); PatBlt(hDC,rectTrue.left, rect.top, rect.left-rectTrue.left, rect.bottom-rect.top, 0x000F0001 /* Pn */); PatBlt(hDC,rect.right, rect.top, rectTrue.right-rect.right, rect.bottom-rect.top, 0x000F0001 /* Pn */); } // draw resize handles if ((m_nStyle & (resizeInside|resizeOutside)) != 0) { UINT mask = GetHandleMask(); HBRUSH hbrush = CreateSolidBrush(RGB(0,0,0)); for (int i = 0; i < 8; ++i) { if (mask & (1<(i), &rect); // FillSolidRect(hDC,rect, RGB(0, 0, 0)); FillRect(hDC,&rect,hbrush); } } DeleteObject(hbrush); } // cleanup pDC state if (pOldPen != nullptr) SelectObject(hDC,pOldPen); if (pOldBrush != nullptr) SelectObject(hDC,pOldBrush); RestoreDC(hDC,-1); } void Tracker::GetHandleRect(int nHandle,RECT* pHandleRect) const { // get normalized rectangle of the tracker RECT rectT = m_rect; NormalizeRect(&rectT); if ((m_nStyle & (solidLine|dottedLine)) != 0) InflateRect(&rectT,+1, +1); // since the rectangle itself was normalized, we also have to invert the // resize handles. nHandle = NormalizeHit(nHandle); // handle case of resize handles outside the tracker int size = GetHandleSize(); if (m_nStyle & resizeOutside) InflateRect(&rectT,size-1, size-1); // calculate position of the resize handle int nWidth = rectT.right - rectT.left; int nHeight = rectT.bottom - rectT.top; RECT rect; const AFX_HANDLEINFO* pHandleInfo = &afxHandleInfo[nHandle]; rect.left = *reinterpret_cast(reinterpret_cast(&rectT) + pHandleInfo->nOffsetX); rect.top = *reinterpret_cast(reinterpret_cast(&rectT) + pHandleInfo->nOffsetY); rect.left += size * pHandleInfo->nHandleX; rect.top += size * pHandleInfo->nHandleY; rect.left += pHandleInfo->nCenterX * (nWidth - size) / 2; rect.top += pHandleInfo->nCenterY * (nHeight - size) / 2; rect.right = rect.left + size; rect.bottom = rect.top + size; *pHandleRect = rect; } int Tracker::GetHandleSize(LPRECT lpRect) const { LPCRECT rect = lpRect == nullptr ? &m_rect : lpRect; int size = m_nHandleSize; if (!(m_nStyle & resizeOutside)) { // make sure size is small enough for the size of the rect int sizeMax = std::min(abs(rect->right - rect->left), abs(rect->bottom - rect->top)); if (size * 2 > sizeMax) size = sizeMax / 2; } return size; } UINT Tracker::GetHandleMask() const { UINT mask = 0x0F; // always have 4 corner handles int size = m_nHandleSize*3; if (abs(m_rect.right - m_rect.left) - size > 4) mask |= 0x50; if (abs(m_rect.bottom - m_rect.top) - size > 4) mask |= 0xA0; return mask; } void Tracker::GetTrueRect(LPRECT lpTrueRect) const { RECT rect = m_rect; NormalizeRect(&rect); int nInflateBy = 0; if ((m_nStyle & (resizeOutside|hatchedBorder)) != 0) nInflateBy += GetHandleSize() - 1; if ((m_nStyle & (solidLine|dottedLine)) != 0) ++nInflateBy; InflateRect(&rect,nInflateBy, nInflateBy); *lpTrueRect = rect; } int Tracker::NormalizeHit(int nHandle) const { if (nHandle == hitMiddle || nHandle == hitNothing) return nHandle; const AFX_HANDLEINFO* pHandleInfo = &afxHandleInfo[nHandle]; if (m_rect.right - m_rect.left < 0) { nHandle = static_cast(pHandleInfo->nInvertX); pHandleInfo = &afxHandleInfo[nHandle]; } if (m_rect.bottom - m_rect.top < 0) nHandle = static_cast(pHandleInfo->nInvertY); return nHandle; } int Tracker::HitTestHandles(POINT point) const { RECT rect; UINT mask = GetHandleMask(); // see if hit anywhere inside the tracker GetTrueRect(&rect); if (!PtInRect(&rect,point)) return hitNothing; // totally missed // see if we hit a handle for (int i = 0; i < 8; ++i) { if (mask & (1<(i), &rect); if (PtInRect(&rect,point)) return static_cast(i); } } // last of all, check for non-hit outside of object, between resize handles if ((m_nStyle & hatchedBorder) == 0) { rect = m_rect; NormalizeRect(&rect); if ((m_nStyle & (dottedLine|solidLine)) != 0) InflateRect(&rect,+1, +1); if (!PtInRect(&rect,point)) return hitNothing; // must have been between resize handles } return hitMiddle; // no handle hit, but hit object (or object border) } void Tracker::GetModifyPointers( int nHandle, int** ppx, int** ppy, int* px, int* py) { if (nHandle == hitMiddle) nHandle = hitTopLeft; // same as hitting top-left *ppx = nullptr; *ppy = nullptr; // fill in the part of the rect that this handle modifies // (Note: handles that map to themselves along a given axis when that // axis is inverted don't modify the value on that axis) const AFX_HANDLEINFO* pHandleInfo = &afxHandleInfo[nHandle]; if (pHandleInfo->nInvertX != nHandle) { *ppx = reinterpret_cast(reinterpret_cast(&m_rect) + pHandleInfo->nOffsetX); if (px != nullptr) *px = **ppx; } else { // middle handle on X axis if (px != nullptr) *px = m_rect.left + (m_rect.left-m_rect.right) / 2; } if (pHandleInfo->nInvertY != nHandle) { *ppy = reinterpret_cast(reinterpret_cast(&m_rect) + pHandleInfo->nOffsetY); if (py != nullptr) *py = **ppy; } else { // middle handle on Y axis if (py != nullptr) *py = m_rect.top + (m_rect.top-m_rect.bottom) / 2; } } /* vim:set shiftwidth=4 softtabstop=4 expandtab: */