/* Copyright (C) 2006-2007 Scott Ellis Copyright (C) 2007-2011 Jan Holub This is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this file; see the file license.txt. If not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "stdafx.h" TOOLTIPSKIN skin = {}; HBITMAP CreateBitmapPart(FIBITMAP *fibSrc, int iSrcWidth, int iSrcHeight, int iDesWidth, int iDesHeight, TransformationMode transfMode) { FIBITMAP *fibMem = nullptr; HBITMAP hbmpDes = nullptr; if (!fibSrc) return nullptr; switch (transfMode) { case TM_NONE: case TM_CENTRE: case TM_TILE_ALL: hbmpDes = FreeImage_CreateHBITMAPFromDIB(fibSrc); break; case TM_STRECH_ALL: fibMem = FreeImage_Rescale(fibSrc, iDesWidth, iDesHeight, FILTER_BILINEAR); hbmpDes = FreeImage_CreateHBITMAPFromDIB(fibMem); break; case TM_STRECH_HORIZONTAL: case TM_TILE_VERTICAL: fibMem = FreeImage_Rescale(fibSrc, iDesWidth, iSrcHeight, FILTER_BILINEAR); hbmpDes = FreeImage_CreateHBITMAPFromDIB(fibMem); break; case TM_STRECH_VERTICAL: case TM_TILE_HORIZONTAL: fibMem = FreeImage_Rescale(fibSrc, iSrcWidth, iSrcHeight, FILTER_BILINEAR); hbmpDes = FreeImage_CreateHBITMAPFromDIB(fibMem); break; } if (fibMem) FreeImage_Unload(fibMem); return hbmpDes; } void DrawBitmapPart(HDC hdcMem, HBITMAP hbmpPart, RECT *rcDes, TransformationMode transfMode) { if (!hbmpPart) return; BLENDFUNCTION blend; blend.BlendOp = AC_SRC_OVER; blend.BlendFlags = 0; blend.SourceConstantAlpha = 255; blend.AlphaFormat = AC_SRC_ALPHA; BITMAP bitmap; GetObject(hbmpPart, sizeof(bitmap), &bitmap); int iBmpWidth = bitmap.bmWidth, iBmpHeight = bitmap.bmHeight; int iDesWidth = rcDes->right - rcDes->left, iDesHeight = rcDes->bottom - rcDes->top; int x, y, iRepX, iRepY, iEndX, iEndY; SelectObject(hdcMem, hbmpPart); switch (transfMode) { case TM_NONE: case TM_STRECH_ALL: case TM_STRECH_HORIZONTAL: case TM_STRECH_VERTICAL: AlphaBlend(skin.hdc, rcDes->left, rcDes->top, iBmpWidth, iBmpHeight, hdcMem, 0, 0, iBmpWidth, iBmpHeight, blend); break; case TM_CENTRE: iRepX = rcDes->left + ((iDesWidth - iBmpWidth) / 2); iRepY = rcDes->top + ((iDesHeight - iBmpHeight) / 2); AlphaBlend(skin.hdc, iRepX, iRepY, iBmpWidth, iBmpHeight, hdcMem, 0, 0, iBmpWidth, iBmpHeight, blend); break; case TM_TILE_ALL: iRepX = iDesWidth / iBmpWidth; iRepY = iDesHeight / iBmpHeight; iEndX = iDesWidth % iBmpWidth; iEndY = iDesHeight % iBmpHeight; for (y = 0; y < iRepY; y++) { for (x = 0; x < iRepX; x++) AlphaBlend(skin.hdc, rcDes->left + (x * iBmpWidth), rcDes->top + (y * iBmpHeight), iBmpWidth, iBmpHeight, hdcMem, 0, 0, iBmpWidth, iBmpHeight, blend); AlphaBlend(skin.hdc, rcDes->left + (x * iBmpWidth), rcDes->top + (y * iBmpHeight), iEndX, iBmpHeight, hdcMem, 0, 0, iEndX, iBmpHeight, blend); } for (x = 0; x < iRepX; x++) AlphaBlend(skin.hdc, rcDes->left + (x * iBmpWidth), rcDes->top + (y * iBmpHeight), iBmpWidth, iEndY, hdcMem, 0, 0, iBmpWidth, iEndY, blend); AlphaBlend(skin.hdc, rcDes->left + (x * iBmpWidth), rcDes->top + (y * iBmpHeight), iEndX, iEndY, hdcMem, 0, 0, iEndX, iEndY, blend); break; case TM_TILE_HORIZONTAL: iRepX = iDesWidth / iBmpWidth; iEndX = iDesWidth % iBmpWidth; for (x = 0; x < iRepX; x++) AlphaBlend(skin.hdc, rcDes->left + (x * iBmpWidth), rcDes->top, iBmpWidth, iDesHeight, hdcMem, 0, 0, iBmpWidth, iDesHeight, blend); AlphaBlend(skin.hdc, rcDes->left + (x * iBmpWidth), rcDes->top, iEndX, iDesHeight, hdcMem, 0, 0, iEndX, iDesHeight, blend); break; case TM_TILE_VERTICAL: iRepY = iDesHeight / iBmpHeight; iEndY = iDesHeight % iBmpHeight; for (y = 0; y < iRepY; y++) AlphaBlend(skin.hdc, rcDes->left, rcDes->top + (y * iBmpHeight), iDesWidth, iBmpHeight, hdcMem, 0, 0, iDesWidth, iBmpHeight, blend); AlphaBlend(skin.hdc, rcDes->left, rcDes->top + (y * iBmpHeight), iDesWidth, iEndY, hdcMem, 0, 0, iDesWidth, iEndY, blend); break; } } void CreateFromBitmaps(bool bServiceTip) { int rcWidth, rcHeight; int iCentWidth, iCentHeight; int iBmpWidth, iBmpHeight; int top, right, bottom, left; BLENDFUNCTION blend; blend.BlendOp = AC_SRC_OVER; blend.BlendFlags = 0; blend.SourceConstantAlpha = 255; blend.AlphaFormat = AC_SRC_ALPHA; for (int i = 0; i < SKIN_ITEMS_COUNT; i++) { if (i == SKIN_ITEM_SIDEBAR && (!opt.iSidebarWidth || bServiceTip)) continue; wchar_t *tszFileName = opt.szImgFile[i]; if (tszFileName && *tszFileName != 0) { FIBITMAP *fib = nullptr; if (!skin.bCached) { FIBITMAP *fibLoad = (FIBITMAP *)Image_Load(tszFileName, IMGL_RETURNDIB); if (!fibLoad) continue; if (FreeImage_GetBPP(fibLoad) != 32) fib = FreeImage_ConvertTo32Bits(fibLoad); else fib = fibLoad; if (fib != fibLoad) FreeImage_Unload(fibLoad); skin.fib[i] = fib; } else fib = skin.fib[i]; // destination rectangle size if (i == SKIN_ITEM_BG) { rcWidth = skin.iWidth; rcHeight = skin.iHeight; } else { // SKIN_ITEM_SIDEBAR rcWidth = opt.iSidebarWidth; rcHeight = skin.iHeight; } // bitmap size iBmpWidth = FreeImage_GetWidth(fib); iBmpHeight = FreeImage_GetHeight(fib); // margins top = opt.margins[i].top < iBmpHeight ? opt.margins[i].top : 0; right = opt.margins[i].right < iBmpWidth ? opt.margins[i].right : 0; bottom = opt.margins[i].bottom < iBmpHeight ? opt.margins[i].bottom : 0; left = opt.margins[i].left < iBmpWidth ? opt.margins[i].left : 0; // centre area size iCentWidth = max(rcWidth - left - right, 0); iCentHeight = max(rcHeight - top - bottom, 0); FIBITMAP *fibCentre = nullptr, *fibMem = nullptr; if (opt.margins[i].left || opt.margins[i].top || opt.margins[i].right || opt.margins[i].bottom) { // create corners bitmaps if (!skin.bCached) { if (top > 0 && left > 0) { // TL fibMem = FreeImage_Copy(fib, 0, 0, left, top); skin.hbmpSkinParts[i][SP_CORNER_TL] = FreeImage_CreateHBITMAPFromDIB(fibMem); if (fibMem) FreeImage_Unload(fibMem); } if (top > 0 && right > 0) { // TR fibMem = FreeImage_Copy(fib, iBmpWidth - right, 0, iBmpWidth, top); skin.hbmpSkinParts[i][SP_CORNER_TR] = FreeImage_CreateHBITMAPFromDIB(fibMem); if (fibMem) FreeImage_Unload(fibMem); } if (bottom > 0 && right > 0) { // BR fibMem = FreeImage_Copy(fib, iBmpWidth - right, iBmpHeight - bottom, iBmpWidth, iBmpHeight); skin.hbmpSkinParts[i][SP_CORNER_BR] = FreeImage_CreateHBITMAPFromDIB(fibMem); if (fibMem) FreeImage_Unload(fibMem); } if (bottom > 0 && left > 0) { // BL fibMem = FreeImage_Copy(fib, 0, iBmpHeight - bottom, left, iBmpHeight); skin.hbmpSkinParts[i][SP_CORNER_BL] = FreeImage_CreateHBITMAPFromDIB(fibMem); if (fibMem) FreeImage_Unload(fibMem); } } // create edge parts bitmaps if (top > 0 && iCentWidth > 0) { // top fibMem = FreeImage_Copy(fib, left, 0, iBmpWidth - right, top); skin.hbmpSkinParts[i][SP_EDGE_TOP] = CreateBitmapPart(fibMem, iBmpWidth - left - right, top, iCentWidth, top, opt.transfMode[i]); if (fibMem) FreeImage_Unload(fibMem); } if (right > 0 && iCentHeight > 0) { // right fibMem = FreeImage_Copy(fib, iBmpWidth - right, top, iBmpWidth, iBmpHeight - bottom); skin.hbmpSkinParts[i][SP_EDGE_RIGHT] = CreateBitmapPart(fibMem, right, iBmpHeight - top - bottom, right, iCentHeight, opt.transfMode[i]); if (fibMem) FreeImage_Unload(fibMem); } if (bottom > 0 && iCentWidth > 0) { // bottom fibMem = FreeImage_Copy(fib, left, iBmpHeight - bottom, iBmpWidth - right, iBmpHeight); skin.hbmpSkinParts[i][SP_EDGE_BOTTOM] = CreateBitmapPart(fibMem, iBmpWidth - left - right, bottom, iCentWidth, bottom, opt.transfMode[i]); if (fibMem) FreeImage_Unload(fibMem); } if (left > 0 && iCentHeight > 0) { // left fibMem = FreeImage_Copy(fib, 0, top, left, iBmpHeight - bottom); skin.hbmpSkinParts[i][SP_EDGE_LEFT] = CreateBitmapPart(fibMem, left, iBmpHeight - top - bottom, left, iCentHeight, opt.transfMode[i]); if (fibMem) FreeImage_Unload(fibMem); } fibCentre = FreeImage_Copy(fib, left, top, iBmpWidth - right, iBmpHeight - bottom); if (fibCentre) { fib = fibCentre; iBmpWidth = FreeImage_GetWidth(fib); iBmpHeight = FreeImage_GetHeight(fib); } } // create centre area bitmap skin.hbmpSkinParts[i][SP_CENTRE_AREA] = CreateBitmapPart(fib, iBmpWidth, iBmpHeight, iCentWidth, iCentHeight, opt.transfMode[i]); if (fibCentre) FreeImage_Unload(fibCentre); if (i == SKIN_ITEM_SIDEBAR) { int limit = skin.bCached ? SP_CORNER_TL : SKIN_PARTS_COUNT; // don't premultiply corner bitmaps multiple times for (int j = 0; j < limit; j++) { if (skin.hbmpSkinParts[i][j]) FreeImage_Premultiply(skin.hbmpSkinParts[i][j]); } } HDC hdcMem = CreateCompatibleDC(nullptr); RECT rc = { 0 }; if (skin.hbmpSkinParts[i][SP_CENTRE_AREA]) { SetRect(&rc, left, top, rcWidth - right, rcHeight - bottom); DrawBitmapPart(hdcMem, skin.hbmpSkinParts[i][SP_CENTRE_AREA], &rc, opt.transfMode[i]); } if (opt.margins[i].left || opt.margins[i].top || opt.margins[i].right || opt.margins[i].bottom) { // draw edge parts if (skin.hbmpSkinParts[i][SP_EDGE_TOP]) { // top SetRect(&rc, left, 0, rcWidth - right, top); DrawBitmapPart(hdcMem, skin.hbmpSkinParts[i][SP_EDGE_TOP], &rc, opt.transfMode[i]); } if (skin.hbmpSkinParts[i][SP_EDGE_RIGHT]) { // right SetRect(&rc, rcWidth - right, top, rcWidth, rcHeight - bottom); DrawBitmapPart(hdcMem, skin.hbmpSkinParts[i][SP_EDGE_RIGHT], &rc, opt.transfMode[i]); } if (skin.hbmpSkinParts[i][SP_EDGE_BOTTOM]) { // bottom SetRect(&rc, left, rcHeight - bottom, rcWidth - right, rcHeight); DrawBitmapPart(hdcMem, skin.hbmpSkinParts[i][SP_EDGE_BOTTOM], &rc, opt.transfMode[i]); } if (skin.hbmpSkinParts[i][SP_EDGE_LEFT]) { // left SetRect(&rc, 0, top, left, rcHeight - bottom); DrawBitmapPart(hdcMem, skin.hbmpSkinParts[i][SP_EDGE_LEFT], &rc, opt.transfMode[i]); } // draw corners if (skin.hbmpSkinParts[i][SP_CORNER_TL]) { // TL SelectObject(hdcMem, skin.hbmpSkinParts[i][SP_CORNER_TL]); AlphaBlend(skin.hdc, 0, 0, left, top, hdcMem, 0, 0, left, top, blend); } if (skin.hbmpSkinParts[i][SP_CORNER_TR]) { // TR SelectObject(hdcMem, skin.hbmpSkinParts[i][SP_CORNER_TR]); AlphaBlend(skin.hdc, rcWidth - right, 0, right, top, hdcMem, 0, 0, right, top, blend); } if (skin.hbmpSkinParts[i][SP_CORNER_BR]) { // BR SelectObject(hdcMem, skin.hbmpSkinParts[i][SP_CORNER_BR]); AlphaBlend(skin.hdc, rcWidth - right, rcHeight - bottom, right, bottom, hdcMem, 0, 0, right, bottom, blend); } if (skin.hbmpSkinParts[i][SP_CORNER_BL]) { // BL SelectObject(hdcMem, skin.hbmpSkinParts[i][SP_CORNER_BL]); AlphaBlend(skin.hdc, 0, rcHeight - bottom, left, bottom, hdcMem, 0, 0, left, bottom, blend); } } for (int j = 0; j < SP_CORNER_TL; j++) if (skin.hbmpSkinParts[i][j]) { DeleteObject(skin.hbmpSkinParts[i][j]); skin.hbmpSkinParts[i][j] = nullptr; } skin.bNeedLayerUpdate = true; DeleteDC(hdcMem); } } if (!bServiceTip) skin.bCached = true; } void SolidColorFill(bool bServiceTip) { RECT rc = { 0 }; rc.right = skin.iWidth; rc.bottom = skin.iHeight; HBRUSH hBrush = CreateSolidBrush(opt.colBg); FillRect(skin.hdc, &rc, hBrush); DeleteObject(hBrush); if (opt.iSidebarWidth > 0 && !bServiceTip) { rc.right = opt.iSidebarWidth; hBrush = CreateSolidBrush(opt.colSidebar); FillRect(skin.hdc, &rc, hBrush); DeleteObject(hBrush); } } void CreateSkinBitmap(int iWidth, int iHeight, bool bServiceTip) { if (skin.hdc) { if (skin.hBitmap) { SelectObject(skin.hdc, skin.hOldBitmap); DeleteObject(skin.hBitmap); skin.hBitmap = nullptr; } DeleteDC(skin.hdc); skin.hdc = nullptr; } skin.iWidth = iWidth; skin.iHeight = iHeight; skin.bNeedLayerUpdate = false; BITMAPINFO bi = { 0 }; bi.bmiHeader.biSize = sizeof(bi.bmiHeader); bi.bmiHeader.biWidth = skin.iWidth; bi.bmiHeader.biHeight = -skin.iHeight; bi.bmiHeader.biPlanes = 1; bi.bmiHeader.biBitCount = 32; bi.bmiHeader.biCompression = BI_RGB; skin.hBitmap = CreateDIBSection(nullptr, &bi, DIB_RGB_COLORS, (void **)&skin.colBits, nullptr, 0); if (!skin.hBitmap) return; skin.hdc = CreateCompatibleDC(nullptr); skin.hOldBitmap = (HBITMAP)SelectObject(skin.hdc, skin.hBitmap); if (opt.skinMode == SM_COLORFILL) SolidColorFill(bServiceTip); else { CreateFromBitmaps(bServiceTip); if (opt.iEnableColoring == 1) ColorizeBitmap(); } } void DestroySkinBitmap() { for (int i = 0; i < SKIN_ITEMS_COUNT; i++) { if (skin.fib[i]) { FreeImage_Unload(skin.fib[i]); skin.fib[i] = nullptr; } for (int j = SP_CORNER_TL; j < SKIN_PARTS_COUNT; j++) { if (skin.hbmpSkinParts[i][j]) { DeleteObject(skin.hbmpSkinParts[i][j]); skin.hbmpSkinParts[i][j] = nullptr; } } } skin.bCached = false; } COLOR32* SaveAlpha(LPRECT lpRect) { GdiFlush(); RECT rc, rcSkin = { 0, 0, skin.iWidth, skin.iHeight }; IntersectRect(&rc, lpRect, &rcSkin); int w = rc.right - rc.left; int h = rc.bottom - rc.top; COLOR32 *res = (COLOR32 *)mir_alloc(sizeof(COLOR32) * w * h); COLOR32 *p1 = res; for (int i = 0; i < h; i++) { COLOR32 *p2 = skin.colBits + (rc.top + i)*skin.iWidth + rc.left; for (int j = 0; j < w; j++) *p1++ = *p2++; } return res; } void RestoreAlpha(LPRECT lpRect, COLOR32 *pBits, uint8_t alpha) { GdiFlush(); RECT rc, rcSkin = { 0, 0, skin.iWidth, skin.iHeight }; IntersectRect(&rc, lpRect, &rcSkin); int w = rc.right - rc.left; int h = rc.bottom - rc.top; COLOR32 *p1 = pBits; for (int i = 0; i < h; i++) { COLOR32 *p2 = skin.colBits + (rc.top + i)*skin.iWidth + rc.left; for (int j = 0; j < w; j++) { if ((*p1 & 0x00ffffff) != (*p2 & 0x00ffffff)) *p2 |= (alpha << 24); else *p2 = (*p2 & 0x00ffffff) | (*p1 & 0xff000000); ++p1; ++p2; } } } BOOL IsAlphaTransparent(HBITMAP hBitmap) { BITMAP bmp; GetObject(hBitmap, sizeof(bmp), &bmp); if (bmp.bmBitsPixel != 32) return FALSE; uint32_t dwLen = bmp.bmWidth * bmp.bmHeight * (bmp.bmBitsPixel / 8); uint8_t *p = (uint8_t *)mir_calloc(dwLen); if (p == nullptr) return FALSE; GetBitmapBits(hBitmap, dwLen, p); for (int y = 0; y < bmp.bmHeight; y++) { uint8_t *px = p + bmp.bmWidth * 4 * y; for (int x = 0; x < bmp.bmWidth; x++) { if (px[3] != 0) { mir_free(p); return TRUE; } px += 4; } } mir_free(p); return FALSE; } void DrawIconExAlpha(HDC hdc, int xLeft, int yTop, HICON hIcon, int cxWidth, int cyWidth, UINT istepIfAniCur, HBRUSH hbrFlickerFreeDraw, UINT diFlags, bool bIsSmiley) { mir_ptr pBits; if (skin.bNeedLayerUpdate && !bIsSmiley) { ICONINFO icon; if (GetIconInfo(hIcon, &icon)) { if (!IsAlphaTransparent(icon.hbmColor)) { RECT rc; SetRect(&rc, xLeft, yTop, xLeft + cxWidth, yTop + cyWidth); pBits = SaveAlpha(&rc); } DeleteObject(icon.hbmColor); DeleteObject(icon.hbmMask); } } DrawIconEx(hdc, xLeft, yTop, hIcon, cxWidth, cyWidth, istepIfAniCur, hbrFlickerFreeDraw, diFlags); if (skin.bNeedLayerUpdate && pBits != NULL) { RECT rc; SetRect(&rc, xLeft, yTop, xLeft + cxWidth, yTop + cyWidth); RestoreAlpha(&rc, pBits); } } int DrawTextAlpha(HDC hdc, LPCTSTR lpString, int nCount, LPRECT lpRect, UINT uFormat) { RECT rc; SetRect(&rc, lpRect->left - 1, lpRect->top - 1, lpRect->right + 1, lpRect->bottom + 1); mir_ptr pBits; if (skin.bNeedLayerUpdate) pBits = SaveAlpha(&rc); int result = DrawText(hdc, lpString, nCount, lpRect, uFormat); if (skin.bNeedLayerUpdate) RestoreAlpha(&rc, pBits); return result; } static __forceinline COLOR32 rgba(COLOR32 r, COLOR32 g, COLOR32 b, COLOR32 a) { return ((a & 0xff) << 24) | ((r & 0xff) << 16) | ((g & 0xff) << 8) | (b & 0xff); } static __forceinline COLOR32 getr(COLOR32 c) { return (c >> 16) & 0xff; } static __forceinline COLOR32 getg(COLOR32 c) { return (c >> 8) & 0xff; } static __forceinline COLOR32 getb(COLOR32 c) { return c & 0xff; } static __forceinline COLOR32 geta(COLOR32 c) { return (c >> 24) & 0xff; } void PremultipleChannels() { for (int i = 0; i < skin.iWidth * skin.iHeight; i++) skin.colBits[i] = rgba(getr(skin.colBits[i]) * geta(skin.colBits[i]) / 255, getg(skin.colBits[i]) * geta(skin.colBits[i]) / 255, getb(skin.colBits[i]) * geta(skin.colBits[i]) / 255, geta(skin.colBits[i])); } #define PU_DIV255(x) ((x)/255) void ColorizeBitmap() { if (!skin.colBits) return; GdiFlush(); int w = skin.iWidth; int h = skin.iHeight; // we should swap B and R channels when working with win32 COLORREF float koef1r = (255 - getb(opt.colBg)) / 128.0; float koef1g = (255 - getg(opt.colBg)) / 128.0; float koef1b = (255 - getr(opt.colBg)) / 128.0; int br = -255 + 2 * getb(opt.colBg); int bg = -255 + 2 * getg(opt.colBg); int bb = -255 + 2 * getr(opt.colBg); float koef2r = (getb(opt.colBg)) / 128.0; float koef2g = (getg(opt.colBg)) / 128.0; float koef2b = (getr(opt.colBg)) / 128.0; for (int i = 0; i < w * h; i++) { long alpha = geta(skin.colBits[i]); COLOR32 cl = alpha ? getr(skin.colBits[i]) * 255 / alpha : 0; skin.colBits[i] = (cl > 128) ? rgba( PU_DIV255((koef1r * cl + br) * alpha), PU_DIV255((koef1g * cl + bg) * alpha), PU_DIV255((koef1b * cl + bb) * alpha), alpha) : rgba( PU_DIV255(koef2r * cl * alpha), PU_DIV255(koef2g * cl * alpha), PU_DIV255(koef2b * cl * alpha), alpha); } } // code from Clist Modern by FYR HRGN CreateOpaqueRgn(uint8_t level, bool bOpaque) { if (!skin.colBits) return nullptr; GdiFlush(); RGBQUAD *buff = (RGBQUAD *)skin.colBits; unsigned int cRect = 64; PRGNDATA pRgnData = (PRGNDATA)malloc(sizeof(RGNDATAHEADER) + (cRect) * sizeof(RECT)); memset(pRgnData, 0, sizeof(RGNDATAHEADER)); pRgnData->rdh.dwSize = sizeof(RGNDATAHEADER); pRgnData->rdh.iType = RDH_RECTANGLES; for (int y = 0; y < skin.iHeight; ++y) { bool inside = false; bool lastin = false; unsigned int entry = 0; int x; for (x = 0; x < skin.iWidth; ++x) { inside = bOpaque ? (buff->rgbReserved > level) : (buff->rgbReserved < level); ++buff; if (inside != lastin) { if (inside) { lastin = true; entry = x; } else { if (pRgnData->rdh.nCount == cRect) { cRect = cRect + 64; pRgnData = (PRGNDATA)realloc(pRgnData, sizeof(RGNDATAHEADER) + (cRect) * sizeof(RECT)); } SetRect(((LPRECT)pRgnData->Buffer) + pRgnData->rdh.nCount, entry, skin.iHeight - y, x, skin.iHeight - y + 1); pRgnData->rdh.nCount++; lastin = false; } } } if (lastin) { if (pRgnData->rdh.nCount == cRect) { cRect = cRect + 64; pRgnData = (PRGNDATA)realloc(pRgnData, sizeof(RGNDATAHEADER) + (cRect) * sizeof(RECT)); } SetRect(((LPRECT)pRgnData->Buffer) + pRgnData->rdh.nCount, entry, skin.iHeight - y, x, skin.iHeight - y + 1); pRgnData->rdh.nCount++; } } HRGN hRgn = ExtCreateRegion(nullptr, sizeof(RGNDATAHEADER) + pRgnData->rdh.nCount * sizeof(RECT), (LPRGNDATA)pRgnData); free(pRgnData); return hRgn; }