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|
/*
Miranda NG: the free IM client for Microsoft* Windows*
Copyright (ñ) 2012-15 Miranda NG project (http://miranda-ng.org),
Copyright (c) 2000-08 Miranda ICQ/IM project,
all portions of this codebase are copyrighted to the people
listed in contributors.txt.
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
//Include
#include "stdafx.h"
#include "m_skin_eng.h"
#include "modern_skinselector.h"
#include "cluiframes.h"
#define _EFFECTENUM_FULL_H
#include "modern_effectenum.h"
#undef _EFFECTENUM_FULL_H
#include "modern_skinengine.h"
#include "modern_commonprototypes.h"
#include "modern_sync.h"
//Implementation
#pragma pack(push, 1)
/* tga header */
struct tga_header_t
{
BYTE id_lenght; /* size of image id */
BYTE colormap_type; /* 1 is has a colormap */
BYTE image_type; /* compression type */
short cm_first_entry; /* colormap origin */
short cm_length; /* colormap length */
BYTE cm_size; /* colormap size */
short x_origin; /* bottom left x coord origin */
short y_origin; /* bottom left y coord origin */
short width; /* picture width (in pixels) */
short height; /* picture height (in pixels) */
BYTE pixel_depth; /* bits per pixel: 8, 16, 24 or 32 */
BYTE image_descriptor; /* 24 bits = 0x00; 32 bits = 0x80 */
};
#pragma pack(pop)
/* Global variables */
SKINOBJECTSLIST g_SkinObjectList = { 0 };
CURRWNDIMAGEDATA *g_pCachedWindow = NULL;
BOOL g_flag_bPostWasCanceled = FALSE;
BOOL g_flag_bFullRepaint = FALSE;
BOOL g_mutex_bLockUpdating = FALSE;
SortedList *gl_plGlyphTexts = NULL;
SortedList *gl_plSkinFonts = NULL;
/* Private module variables */
static HANDLE hSkinLoadedEvent;
static GLYPHIMAGE *pLoadedImages = NULL;
static DWORD dwLoadedImagesCount = 0;
static DWORD dwLoadedImagesAlocated = 0;
static BOOL flag_bUpdateQueued = FALSE;
static BOOL flag_bJustDrawNonFramedObjects = FALSE;
static BOOL mutex_bLockUpdate = FALSE;
static LIST<EFFECTSSTACKITEM> arEffectStack(10, HandleKeySortT);
static SKINOBJECTSLIST *pCurrentSkin = NULL;
static char **pszSettingName = NULL;
static int nArrayLen = 0;
static BYTE pbGammaWeight[256] = { 0 };
static BYTE pbGammaWeightAdv[256] = { 0 };
static BOOL bGammaWeightFilled = FALSE;
static mir_cs cs_SkinChanging;
static LISTMODERNMASK *MainModernMaskList = NULL;
/* Private module procedures */
static BOOL ske_GetMaskBit(BYTE *line, int x);
static INT_PTR ske_Service_AlphaTextOut(WPARAM wParam, LPARAM lParam);
static INT_PTR ske_Service_DrawIconEx(WPARAM wParam, LPARAM lParam);
static int ske_AlphaTextOut(HDC hDC, LPCTSTR lpString, int nCount, RECT *lpRect, UINT format, DWORD ARGBcolor);
static void ske_AddParseTextGlyphObject(char * szGlyphTextID, char * szDefineString, SKINOBJECTSLIST *Skin);
static void ske_AddParseSkinFont(char * szFontID, char * szDefineString);
static int ske_GetSkinFromDB(char * szSection, SKINOBJECTSLIST * Skin);
static LPSKINOBJECTDESCRIPTOR ske_FindObject(const char *szName, SKINOBJECTSLIST *Skin);
static int ske_LoadSkinFromResource(BOOL bOnlyObjects);
static void ske_PreMultiplyChannels(HBITMAP hbmp, BYTE Mult);
static int ske_ValidateSingleFrameImage(FRAMEWND * Frame, BOOL SkipBkgBlitting);
static INT_PTR ske_Service_UpdateFrameImage(WPARAM wParam, LPARAM lParam);
static INT_PTR ske_Service_InvalidateFrameImage(WPARAM wParam, LPARAM lParam);
static INT_PTR ske_Service_DrawTextWithEffect(WPARAM wParam, LPARAM lParam);
static MODERNEFFECT meCurrentEffect = { -1, { 0 }, 0, 0 };
//////////////////////////////////////////////////////////////////////////
// Ini file parser
IniParser::IniParser(TCHAR * tcsFileName, BYTE flags) : _Flags(flags)
{
_DoInit();
if (!tcsFileName) return;
if (tcsFileName[0] == _T('%')) {
//TODO: Add parser of resource filename here
_LoadResourceIni(g_hInst, MAKEINTRESOURCEA(IDR_MSF_DEFAULT_SKIN), "MSF");
return;
}
_hFile = _tfopen(tcsFileName, _T("r"));
if (_hFile != NULL) {
_eType = IT_FILE;
_isValid = true;
}
}
IniParser::IniParser(HINSTANCE hInst, const char * resourceName, const char * resourceType, BYTE flags) : _Flags(flags)
{
_DoInit();
_LoadResourceIni(hInst, resourceName, resourceType);
}
IniParser::~IniParser()
{
mir_free(_szSection);
if (_hFile) fclose(_hFile);
if (_hGlobalRes) {
UnlockResource(_hGlobalRes);
FreeResource(_hGlobalRes);
}
_szSection = NULL;
_hGlobalRes = NULL;
_hFile = NULL;
_isValid = false;
_eType = IT_UNKNOWN;
}
HRESULT IniParser::Parse(ParserCallback_t pLineCallBackProc, LPARAM SecCheck)
{
if (_isValid && pLineCallBackProc) {
_pLineCallBackProc = pLineCallBackProc;
_SecCheck = SecCheck;
switch (_eType) {
case IT_FILE:
return _DoParseFile();
case IT_RESOURCE:
return _DoParseResource();
}
}
return E_FAIL;
}
HRESULT IniParser::WriteStrToDb(const char * szSection, const char * szName, const char * szValue, IniParser * This)
{
if (This->_SecCheck) {
//TODO check security here
if (wildcmp(szSection, "Skin_Description_Section"))
return S_OK;
}
if ((This->_Flags == IniParser::FLAG_ONLY_OBJECTS) && !wildcmp(szSection, DEFAULTSKINSECTION))
return S_OK; // skip not objects
switch (szValue[0]) {
case 'b':
db_set_b(NULL, szSection, szName, (BYTE)atoi(szValue + 1));
break;
case 'w':
db_set_w(NULL, szSection, szName, (WORD)atoi(szValue + 1));
break;
case 'd':
db_set_dw(NULL, szSection, szName, (DWORD)atoi(szValue + 1));
break;
case 's':
db_set_s(NULL, szSection, szName, szValue + 1);
break;
}
return S_OK;
}
int IniParser::GetSkinFolder(IN const TCHAR * szFileName, OUT TCHAR * pszFolderName)
{
TCHAR *szBuff = mir_tstrdup(szFileName);
TCHAR *pszPos = szBuff + mir_tstrlen(szBuff);
while (pszPos > szBuff && *pszPos != _T('.')) { pszPos--; }
*pszPos = _T('\0');
mir_tstrcpy(pszFolderName, szBuff);
TCHAR custom_folder[MAX_PATH], cus[MAX_PATH];
TCHAR *b3;
mir_tstrncpy(custom_folder, pszFolderName, _countof(custom_folder));
b3 = custom_folder + mir_tstrlen(custom_folder);
while (b3 > custom_folder && *b3 != _T('\\')) { b3--; }
*b3 = _T('\0');
GetPrivateProfileString(_T("Skin_Description_Section"), _T("SkinFolder"), _T(""), cus, _countof(custom_folder), szFileName);
if (cus[0] != 0)
mir_sntprintf(pszFolderName, MAX_PATH, _T("%s\\%s"), custom_folder, cus);
mir_free(szBuff);
PathToRelativeT(pszFolderName, pszFolderName);
return 0;
}
void IniParser::_DoInit()
{
_isValid = false;
_eType = IT_UNKNOWN;
_szSection = NULL;
_hFile = NULL;
_hGlobalRes = NULL;
_dwSizeOfRes = 0;
_pPosition = NULL;
_pLineCallBackProc = NULL;
_SecCheck = 0;
}
void IniParser::_LoadResourceIni(HINSTANCE hInst, const char * resourceName, const char * resourceType)
{
if (_eType != IT_UNKNOWN)
return;
HRSRC hRSrc = FindResourceA(hInst, resourceName, resourceType);
if (!hRSrc)
return;
_hGlobalRes = LoadResource(hInst, hRSrc);
if (!_hGlobalRes)
return;
_dwSizeOfRes = SizeofResource(hInst, hRSrc);
_pPosition = (char*)LockResource(_hGlobalRes);
_isValid = true;
_eType = IT_RESOURCE;
}
HRESULT IniParser::_DoParseFile()
{
char szLine[MAX_LINE_LEN];
_nLine = 0;
while (fgets(szLine, _countof(szLine), _hFile) != NULL) {
size_t len = 0;
char * pLine = (char*)_RemoveTailings(szLine, len);
if (len > 0) {
pLine[len] = '\0';
if (!_DoParseLine(pLine)) return E_FAIL;
}
else _nLine++;
};
return S_OK;
}
HRESULT IniParser::_DoParseResource()
{
_nLine = 0;
char szLine[MAX_LINE_LEN];
char * pos = (char*)_pPosition;
while (pos < _pPosition + _dwSizeOfRes) {
int i = 0;
while (pos < _pPosition + _dwSizeOfRes && *pos != '\n' && *pos != '\0' && i < MAX_LINE_LEN - 1) {
if ((*pos) != '\r')
szLine[i++] = *pos;
pos++;
}
szLine[i] = '\0';
pos++;
size_t len = 0;
char * pLine = (char*)_RemoveTailings(szLine, len);
if (len > 0) {
pLine[len] = '\0';
if (!_DoParseLine(pLine)) return E_FAIL;
}
else _nLine++;
}
return S_OK;
}
const char * IniParser::_RemoveTailings(const char * szLine, size_t& len)
{
const char * pStart = szLine;
while (*pStart == ' ' || *pStart == '\t')
pStart++; //skip spaces at begin
const char * pEnd = pStart + mir_strlen(pStart);
while (pEnd > pStart && (*pEnd == ' ' || *pEnd == '\t' || *pEnd == '\n' || *pEnd == '\r'))
pEnd--;
len = pEnd - pStart;
return pStart;
}
BOOL IniParser::_DoParseLine(char *szLine)
{
_nLine++;
size_t len = mir_strlen(szLine);
if (len == 0)
return TRUE;
switch (szLine[0]) {
case ';':
return TRUE; // start of comment is found
case '[':
//New section start here
mir_free(_szSection);
_szSection = NULL;
{
char *tbuf = szLine + 1; // skip [
char *ebuf = tbuf;
while (*ebuf != ']' && *ebuf != '\0') ebuf++;
if (*ebuf == '\0')
return FALSE; // no close bracket
DWORD sectionLen = ebuf - tbuf + 1;
_szSection = (char*)mir_alloc(sectionLen + 1);
mir_strncpy(_szSection, tbuf, sectionLen);
_szSection[sectionLen] = '\0';
}
return TRUE;
default:
if (!_szSection)
return TRUE; //param found out of section
char *keyName = szLine;
char *keyValue = szLine;
size_t eqPlace = 0, len2 = mir_strlen(keyName);
while (eqPlace < len2 && keyName[eqPlace] != '=')
eqPlace++; //find '='
if (eqPlace == 0 || eqPlace == len2)
return TRUE; // = not found or no key name //say false
keyName[eqPlace] = '\0';
keyValue = keyName + eqPlace + 1;
//remove tail spaces in Name
rtrim(keyName);
while (*keyValue) {
if (!isspace(*keyValue))
break;
keyValue++;
}
rtrim(keyValue);
_pLineCallBackProc(_szSection, keyName, keyValue, this);
}
return TRUE;
}
//////////////////////////////////////////////////////////////////////////
// End of IniParser
//////////////////////////////////////////////////////////////////////////
HRESULT SkinEngineLoadModule()
{
ModernSkinButtonLoadModule();
MainModernMaskList = (LISTMODERNMASK*)mir_calloc(sizeof(LISTMODERNMASK));
//init variables
g_SkinObjectList.dwObjLPAlocated = 0;
g_SkinObjectList.dwObjLPReserved = 0;
g_SkinObjectList.pObjects = NULL;
// Initialize GDI+
InitGdiPlus();
AniAva_InitModule();
//create services
CreateServiceFunction(MS_SKIN_DRAWGLYPH, ske_Service_DrawGlyph);
CreateServiceFunction(MS_SKINENG_UPTATEFRAMEIMAGE, ske_Service_UpdateFrameImage);
CreateServiceFunction(MS_SKINENG_INVALIDATEFRAMEIMAGE, ske_Service_InvalidateFrameImage);
CreateServiceFunction(MS_SKINENG_ALPHATEXTOUT, ske_Service_AlphaTextOut);
CreateServiceFunction(MS_SKINENG_DRAWICONEXFIX, ske_Service_DrawIconEx);
CreateServiceFunction(MS_DRAW_TEXT_WITH_EFFECT, ske_Service_DrawTextWithEffect);
//create event handle
hSkinLoadedEvent = HookEvent(ME_SKIN_SERVICESCREATED, CLUI_OnSkinLoad);
NotifyEventHooks(g_CluiData.hEventSkinServicesCreated, 0, 0);
return S_OK;
}
int SkinEngineUnloadModule()
{
//unload services
ModernSkinButtonUnloadModule(0, 0);
ske_UnloadSkin(&g_SkinObjectList);
mir_free_and_nil(g_SkinObjectList.pObjects);
mir_free_and_nil(g_SkinObjectList.pMaskList);
mir_free_and_nil(MainModernMaskList);
for (int i = 0; i < arEffectStack.getCount(); i++)
mir_free(arEffectStack[i]);
arEffectStack.destroy();
if (g_pCachedWindow) {
SelectObject(g_pCachedWindow->hBackDC, g_pCachedWindow->hBackOld);
SelectObject(g_pCachedWindow->hImageDC, g_pCachedWindow->hImageOld);
DeleteObject(g_pCachedWindow->hBackDIB);
DeleteObject(g_pCachedWindow->hImageDIB);
DeleteDC(g_pCachedWindow->hBackDC);
DeleteDC(g_pCachedWindow->hImageDC);
ReleaseDC(NULL, g_pCachedWindow->hScreenDC);
mir_free_and_nil(g_pCachedWindow);
}
GdiFlush();
DestroyHookableEvent(g_CluiData.hEventSkinServicesCreated);
AniAva_UnloadModule();
ShutdownGdiPlus();
//free variables
return 1;
}
BOOL ske_AlphaBlend(HDC hdcDest, int nXOriginDest, int nYOriginDest, int nWidthDest, int nHeightDest, HDC hdcSrc, int nXOriginSrc, int nYOriginSrc, int nWidthSrc, int nHeightSrc, BLENDFUNCTION blendFunction)
{
if (g_CluiData.fDisableSkinEngine && !(blendFunction.BlendFlags & 128)) {
if (nWidthDest != nWidthSrc || nHeightDest != nHeightSrc)
return StretchBlt(hdcDest, nXOriginDest, nYOriginDest, nWidthDest, nHeightDest, hdcSrc, nXOriginSrc, nYOriginSrc, nWidthSrc, nHeightSrc, SRCCOPY);
return BitBlt(hdcDest, nXOriginDest, nYOriginDest, nWidthDest, nHeightDest, hdcSrc, nXOriginSrc, nYOriginSrc, SRCCOPY);
}
if (blendFunction.BlendFlags & 128) // Use gdi+ engine
return GDIPlus_AlphaBlend(hdcDest, nXOriginDest, nYOriginDest, nWidthDest, nHeightDest,
hdcSrc, nXOriginSrc, nYOriginSrc, nWidthSrc, nHeightSrc,
&blendFunction);
blendFunction.BlendFlags &= ~128;
return AlphaBlend(hdcDest, nXOriginDest, nYOriginDest, nWidthDest, nHeightDest, hdcSrc, nXOriginSrc, nYOriginSrc, nWidthSrc, nHeightSrc, blendFunction);
}
struct DCBUFFER
{
HDC hdcOwnedBy;
int nUsageID;
int width;
int height;
void* pImage;
HDC hDC;
HBITMAP oldBitmap;
HBITMAP hBitmap;
DWORD dwDestroyAfterTime;
};
static int SortBufferList(const DCBUFFER *buf1, const DCBUFFER *buf2)
{
if (buf1->hdcOwnedBy != buf2->hdcOwnedBy) return (int)(buf1->hdcOwnedBy < buf2->hdcOwnedBy);
else if (buf1->nUsageID != buf2->nUsageID) return (int)(buf1->nUsageID < buf2->nUsageID);
else return (int)(buf1->hDC < buf2->hDC);
}
LIST<DCBUFFER> BufferList(2, SortBufferList);
mir_cs BufferListCS;
enum
{
BUFFER_DRAWICON = 0,
BUFFER_DRAWIMAGE
};
HDC ske_RequestBufferDC(HDC hdcOwner, int dcID, int width, int height, BOOL fClear)
{
mir_cslock lck(BufferListCS);
//Try to find DC in buffer list
DCBUFFER buf;
buf.hdcOwnedBy = hdcOwner;
buf.nUsageID = dcID;
buf.hDC = NULL;
DCBUFFER *pBuf = BufferList.find(&buf);
if (!pBuf) {
//if not found - allocate it
pBuf = (DCBUFFER *)mir_alloc(sizeof(DCBUFFER));
*pBuf = buf;
pBuf->width = width;
pBuf->height = height;
pBuf->hBitmap = ske_CreateDIB32Point(width, height, &(pBuf->pImage));
pBuf->hDC = CreateCompatibleDC(hdcOwner);
pBuf->oldBitmap = (HBITMAP)SelectObject(pBuf->hDC, pBuf->hBitmap);
pBuf->dwDestroyAfterTime = 0;
BufferList.insert(pBuf);
}
else {
if (pBuf->width != width || pBuf->height != height) {
//resize
SelectObject(pBuf->hDC, pBuf->oldBitmap);
DeleteObject(pBuf->hBitmap);
pBuf->width = width;
pBuf->height = height;
pBuf->hBitmap = ske_CreateDIB32Point(width, height, &(pBuf->pImage));
pBuf->oldBitmap = (HBITMAP)SelectObject(pBuf->hDC, pBuf->hBitmap);
}
else if (fClear)
memset(pBuf->pImage, 0, width*height*sizeof(DWORD));
}
pBuf->dwDestroyAfterTime = 0;
return pBuf->hDC;
}
int ske_ReleaseBufferDC(HDC hDC, int keepTime)
{
DWORD dwCurrentTime = GetTickCount();
//Try to find DC in buffer list - set flag to be release after time;
mir_cslock lck(BufferListCS);
for (int i = 0; i < BufferList.getCount(); i++) {
DCBUFFER *pBuf = BufferList[i];
if (pBuf) {
if (hDC != NULL && pBuf->hDC == hDC) {
pBuf->dwDestroyAfterTime = dwCurrentTime + keepTime;
break;
}
if ((pBuf->dwDestroyAfterTime && pBuf->dwDestroyAfterTime < dwCurrentTime) || keepTime == -1) {
SelectObject(pBuf->hDC, pBuf->oldBitmap);
DeleteObject(pBuf->hBitmap);
DeleteDC(pBuf->hDC);
mir_free(pBuf);
BufferList.remove(i);
i--;
}
}
}
return 0;
}
BOOL ske_SetRgnOpaque(HDC memdc, HRGN hrgn, BOOL force)
{
if (g_CluiData.fDisableSkinEngine && !force) return TRUE;
DWORD rgnsz = GetRegionData(hrgn, 0, NULL);
RGNDATA *rdata = (RGNDATA *)mir_alloc(rgnsz);
GetRegionData(hrgn, rgnsz, rdata);
RECT *rect = (RECT *)rdata->Buffer;
for (DWORD d = 0; d < rdata->rdh.nCount; d++) {
ske_SetRectOpaque(memdc, &rect[d], force);
}
mir_free(rdata);
return TRUE;
}
BOOL ske_SetRectOpaque(HDC memdc, RECT *fr, BOOL force)
{
int f = 0;
BYTE * bits;
BITMAP bmp;
if (g_CluiData.fDisableSkinEngine && !force)
return TRUE;
HBITMAP hbmp = (HBITMAP)GetCurrentObject(memdc, OBJ_BITMAP);
GetObject(hbmp, sizeof(bmp), &bmp);
if (bmp.bmPlanes != 1)
return FALSE;
if (!bmp.bmBits) {
f = 1;
bits = (BYTE*)malloc(bmp.bmWidthBytes*bmp.bmHeight);
GetBitmapBits(hbmp, bmp.bmWidthBytes*bmp.bmHeight, bits);
}
else
bits = (BYTE*)bmp.bmBits;
int sx = (fr->left > 0) ? fr->left : 0;
int sy = (fr->top > 0) ? fr->top : 0;
int ex = (fr->right < bmp.bmWidth) ? fr->right : bmp.bmWidth;
int ey = (fr->bottom < bmp.bmHeight) ? fr->bottom : bmp.bmHeight;
int width = ex - sx;
BYTE* pLine = ((BYTE*)bits) + (bmp.bmHeight - sy - 1)*bmp.bmWidthBytes + (sx << 2) + 3;
for (int y = 0; y < (ey - sy); y++) {
BYTE * pColumn = pLine;
for (int x = 0; x < width; x++) {
*pColumn = 255;
pColumn += 4;
}
pLine -= bmp.bmWidthBytes;
}
if (f) {
SetBitmapBits(hbmp, bmp.bmWidthBytes*bmp.bmHeight, bits);
free(bits);
}
// DeleteObject(hbmp);
return 1;
}
static BOOL ske_SkinFillRectByGlyph(HDC hDest, HDC hSource, RECT *rFill, RECT *rGlyph, RECT *rClip, BYTE mode, BYTE drawMode)
{
BLENDFUNCTION bf = { AC_SRC_OVER, 0, 255, AC_SRC_ALPHA };
//initializations
if (mode == FM_STRETCH) {
HDC mem2dc = NULL;
HBITMAP mem2bmp = NULL, oldbmp = NULL;
RECT wr;
IntersectRect(&wr, rClip, rFill);
if ((wr.bottom - wr.top)*(wr.right - wr.left) == 0) return 0;
if (drawMode != 2) {
mem2dc = CreateCompatibleDC(hDest);
mem2bmp = ske_CreateDIB32(wr.right - wr.left, wr.bottom - wr.top);
oldbmp = (HBITMAP)SelectObject(mem2dc, mem2bmp);
}
if (drawMode == 0 || drawMode == 2) {
if (drawMode == 0) {
ske_AlphaBlend(mem2dc, rFill->left - wr.left, rFill->top - wr.top, rFill->right - rFill->left, rFill->bottom - rFill->top,
hSource, rGlyph->left, rGlyph->top, rGlyph->right - rGlyph->left, rGlyph->bottom - rGlyph->top, bf);
ske_AlphaBlend(hDest, wr.left, wr.top, wr.right - wr.left, wr.bottom - wr.top, mem2dc, 0, 0, wr.right - wr.left, wr.bottom - wr.top, bf);
}
else {
ske_AlphaBlend(hDest, rFill->left, rFill->top, rFill->right - rFill->left, rFill->bottom - rFill->top,
hSource, rGlyph->left, rGlyph->top, rGlyph->right - rGlyph->left, rGlyph->bottom - rGlyph->top, bf);
}
}
else {
// BLENDFUNCTION bf = {AC_SRC_OVER, 0, 255, 0 };
ske_AlphaBlend(mem2dc, rFill->left - wr.left, rFill->top - wr.top, rFill->right - rFill->left, rFill->bottom - rFill->top,
hSource, rGlyph->left, rGlyph->top, rGlyph->right - rGlyph->left, rGlyph->bottom - rGlyph->top, bf);
ske_AlphaBlend(hDest, wr.left, wr.top, wr.right - wr.left, wr.bottom - wr.top, mem2dc, 0, 0, wr.right - wr.left, wr.bottom - wr.top, bf);
}
if (drawMode != 2) {
SelectObject(mem2dc, oldbmp);
DeleteObject(mem2bmp);
DeleteDC(mem2dc);
}
return 1;
}
else if (mode == FM_TILE_VERT && (rGlyph->bottom - rGlyph->top > 0) && (rGlyph->right - rGlyph->left > 0)) {
RECT wr;
IntersectRect(&wr, rClip, rFill);
if ((wr.bottom - wr.top)*(wr.right - wr.left) == 0) return 0;
HDC mem2dc = CreateCompatibleDC(hDest);
//SetStretchBltMode(mem2dc, HALFTONE);
HBITMAP mem2bmp = ske_CreateDIB32(wr.right - wr.left, rGlyph->bottom - rGlyph->top);
HBITMAP oldbmp = (HBITMAP)SelectObject(mem2dc, mem2bmp);
if (!oldbmp)
return 0;
/// draw here
{
int y = 0;
int w = rFill->right - rFill->left;
int h = rGlyph->bottom - rGlyph->top;
if (h > 0 && (wr.bottom - wr.top)*(wr.right - wr.left) != 0) {
w = wr.right - wr.left;
{
// BLENDFUNCTION bf = {AC_SRC_OVER, 0, 255, 0 };
ske_AlphaBlend(mem2dc, -(wr.left - rFill->left), 0, rFill->right - rFill->left, h, hSource, rGlyph->left, rGlyph->top, rGlyph->right - rGlyph->left, h, bf);
//StretchBlt(mem2dc,-(wr.left-rFill->left), 0, rFill->right-rFill->left,h,hSource,rGlyph->left,rGlyph->top,rGlyph->right-rGlyph->left,h,SRCCOPY);
}
if (drawMode == 0 || drawMode == 2) {
if (drawMode == 0) {
int dy = (wr.top - rFill->top) % h;
if (dy >= 0) {
y = wr.top;
int ht = (y + h - dy <= wr.bottom) ? (h - dy) : (wr.bottom - wr.top);
BitBlt(hDest, wr.left, y, w, ht, mem2dc, 0, dy, SRCCOPY);
}
y = wr.top + h - dy;
while (y < wr.bottom - h) {
BitBlt(hDest, wr.left, y, w, h, mem2dc, 0, 0, SRCCOPY);
y += h;
}
if (y <= wr.bottom)
BitBlt(hDest, wr.left, y, w, wr.bottom - y, mem2dc, 0, 0, SRCCOPY);
}
else {
y = wr.top;
while (y < wr.bottom - h) {
// BLENDFUNCTION bf = {AC_SRC_OVER, 0, 255, 0 };
ske_AlphaBlend(hDest, wr.left, y, w, h, mem2dc, 0, 0, w, h, bf);
y += h;
}
if (y <= wr.bottom) {
// BLENDFUNCTION bf = {AC_SRC_OVER, 0, 255, 0 };
ske_AlphaBlend(hDest, wr.left, y, w, wr.bottom - y, mem2dc, 0, 0, w, wr.bottom - y, bf);
}
}
}
else {
BLENDFUNCTION bf = { AC_SRC_OVER, 0, 255, AC_SRC_ALPHA };
int dy = (wr.top - rFill->top) % h;
if (dy >= 0) {
y = wr.top;
int ht = (y + h - dy <= wr.bottom) ? (h - dy) : (wr.bottom - wr.top);
ske_AlphaBlend(hDest, wr.left, y, w, ht, mem2dc, 0, dy, w, ht, bf);
}
y = wr.top + h - dy;
while (y < wr.bottom - h) {
ske_AlphaBlend(hDest, wr.left, y, w, h, mem2dc, 0, 0, w, h, bf);
y += h;
}
if (y <= wr.bottom)
ske_AlphaBlend(hDest, wr.left, y, w, wr.bottom - y, mem2dc, 0, 0, w, wr.bottom - y, bf);
}
}
}
SelectObject(mem2dc, oldbmp);
DeleteObject(mem2bmp);
DeleteDC(mem2dc);
}
else if (mode == FM_TILE_HORZ && (rGlyph->right - rGlyph->left > 0) && (rGlyph->bottom - rGlyph->top > 0) && (rFill->bottom - rFill->top) > 0 && (rFill->right - rFill->left) > 0) {
RECT wr;
int w = rGlyph->right - rGlyph->left;
int h = rFill->bottom - rFill->top;
IntersectRect(&wr, rClip, rFill);
if ((wr.bottom - wr.top)*(wr.right - wr.left) == 0) return 0;
h = wr.bottom - wr.top;
HDC mem2dc = CreateCompatibleDC(hDest);
HBITMAP mem2bmp = ske_CreateDIB32(w, h);
HBITMAP oldbmp = (HBITMAP)SelectObject(mem2dc, mem2bmp);
if (!oldbmp)
return 0;
/// draw here
{
int x = 0;
{
//SetStretchBltMode(mem2dc, HALFTONE);
//StretchBlt(mem2dc, 0, 0, w,h,hSource,rGlyph->left+(wr.left-rFill->left),rGlyph->top,w,h,SRCCOPY);
// BLENDFUNCTION bf = {AC_SRC_OVER, 0, 255, 0 };
ske_AlphaBlend(mem2dc, 0, -(wr.top - rFill->top), w, rFill->bottom - rFill->top, hSource, rGlyph->left, rGlyph->top, w, rGlyph->bottom - rGlyph->top, bf);
if (drawMode == 0 || drawMode == 2) {
if (drawMode == 0) {
int dx = (wr.left - rFill->left) % w;
if (dx >= 0) {
x = wr.left;
int wt = (x + w - dx <= wr.right) ? (w - dx) : (wr.right - wr.left);
BitBlt(hDest, x, wr.top, wt, h, mem2dc, dx, 0, SRCCOPY);
}
x = wr.left + w - dx;
while (x < wr.right - w) {
BitBlt(hDest, x, wr.top, w, h, mem2dc, 0, 0, SRCCOPY);
x += w;
}
if (x <= wr.right)
BitBlt(hDest, x, wr.top, wr.right - x, h, mem2dc, 0, 0, SRCCOPY);
}
else {
int dx = (wr.left - rFill->left) % w;
x = wr.left - dx;
while (x < wr.right - w) {
ske_AlphaBlend(hDest, x, wr.top, w, h, mem2dc, 0, 0, w, h, bf);
x += w;
}
if (x <= wr.right)
ske_AlphaBlend(hDest, x, wr.top, wr.right - x, h, mem2dc, 0, 0, wr.right - x, h, bf);
}
}
else {
BLENDFUNCTION bf = { AC_SRC_OVER, 0, 255, AC_SRC_ALPHA };
int dx = (wr.left - rFill->left) % w;
if (dx >= 0) {
x = wr.left;
int wt = (x + w - dx <= wr.right) ? (w - dx) : (wr.right - wr.left);
ske_AlphaBlend(hDest, x, wr.top, wt, h, mem2dc, dx, 0, wt, h, bf);
}
x = wr.left + w - dx;
while (x < wr.right - w) {
ske_AlphaBlend(hDest, x, wr.top, w, h, mem2dc, 0, 0, w, h, bf);
x += w;
}
if (x <= wr.right)
ske_AlphaBlend(hDest, x, wr.top, wr.right - x, h, mem2dc, 0, 0, wr.right - x, h, bf);
}
}
}
SelectObject(mem2dc, oldbmp);
DeleteObject(mem2bmp);
DeleteDC(mem2dc);
}
else if (mode == FM_TILE_BOTH && (rGlyph->right - rGlyph->left > 0) && (rGlyph->bottom - rGlyph->top > 0)) {
int w = rGlyph->right - rGlyph->left;
int x = 0;
int h = rFill->bottom - rFill->top;
RECT wr;
IntersectRect(&wr, rClip, rFill);
if ((wr.bottom - wr.top)*(wr.right - wr.left) == 0) return 0;
HDC mem2dc = CreateCompatibleDC(hDest);
HBITMAP mem2bmp = ske_CreateDIB32(w, wr.bottom - wr.top);
h = wr.bottom - wr.top;
HBITMAP oldbmp = (HBITMAP)SelectObject(mem2dc, mem2bmp);
#ifdef _DEBUG
if (!oldbmp)
(NULL, "Tile bitmap not selected", "ERROR", MB_OK);
#endif
/// draw here
{
//fill temp bitmap
{
int dy = (wr.top - rFill->top) % (rGlyph->bottom - rGlyph->top);
int y = -dy;
while (y < wr.bottom - wr.top) {
ske_AlphaBlend(mem2dc, 0, y, w, rGlyph->bottom - rGlyph->top, hSource, rGlyph->left, rGlyph->top, w, rGlyph->bottom - rGlyph->top, bf);
y += rGlyph->bottom - rGlyph->top;
}
//--
//end temp bitmap
if (drawMode == 0 || drawMode == 2) {
if (drawMode == 0) {
int dx = (wr.left - rFill->left) % w;
if (dx >= 0) {
x = wr.left;
int wt = (x + w - dx <= wr.right) ? (w - dx) : (wr.right - wr.left);
BitBlt(hDest, x, wr.top, wt, h, mem2dc, dx, 0, SRCCOPY);
}
x = wr.left + w - dx;
while (x < wr.right - w) {
BitBlt(hDest, x, wr.top, w, h, mem2dc, 0, 0, SRCCOPY);
x += w;
}
if (x <= wr.right)
BitBlt(hDest, x, wr.top, wr.right - x, h, mem2dc, 0, 0, SRCCOPY);
}
else {
int dx = (wr.left - rFill->left) % w;
x = wr.left - dx;
while (x < wr.right - w) {
ske_AlphaBlend(hDest, x, wr.top, w, h, mem2dc, 0, 0, w, h, bf);
x += w;
}
if (x <= wr.right)
ske_AlphaBlend(hDest, x, wr.top, wr.right - x, h, mem2dc, 0, 0, wr.right - x, h, bf);
}
}
else {
BLENDFUNCTION bf = { AC_SRC_OVER, 0, 255, AC_SRC_ALPHA };
int dx = (wr.left - rFill->left) % w;
if (dx >= 0) {
x = wr.left;
int wt = (x + w - dx <= wr.right) ? (w - dx) : (wr.right - wr.left);
ske_AlphaBlend(hDest, x, wr.top, wt, h, mem2dc, dx, 0, wt, h, bf);
}
x = wr.left + w - dx;
while (x < wr.right - w) {
ske_AlphaBlend(hDest, x, wr.top, w, h, mem2dc, 0, 0, w, h, bf);
x += w;
}
if (x <= wr.right)
ske_AlphaBlend(hDest, x, wr.top, wr.right - x, h, mem2dc, 0, 0, wr.right - x, h, bf);
}
}
}
SelectObject(mem2dc, oldbmp);
DeleteObject(mem2bmp);
DeleteDC(mem2dc);
}
return 1;
}
HBITMAP ske_CreateDIB32(int cx, int cy)
{
return ske_CreateDIB32Point(cx, cy, NULL);
}
HBITMAP ske_CreateDIB32Point(int cx, int cy, void ** bits)
{
if (cx < 0 || cy < 0)
return NULL;
BITMAPINFO RGB32BitsBITMAPINFO = { 0 };
RGB32BitsBITMAPINFO.bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
RGB32BitsBITMAPINFO.bmiHeader.biWidth = cx;//bm.bmWidth;
RGB32BitsBITMAPINFO.bmiHeader.biHeight = cy;//bm.bmHeight;
RGB32BitsBITMAPINFO.bmiHeader.biPlanes = 1;
RGB32BitsBITMAPINFO.bmiHeader.biBitCount = 32;
// pointer used for direct Bitmap pixels access
UINT *ptPixels;
HBITMAP DirectBitmap = CreateDIBSection(NULL,
&RGB32BitsBITMAPINFO,
DIB_RGB_COLORS,
(void **)&ptPixels,
NULL, 0);
if ((DirectBitmap == NULL || ptPixels == NULL) && cx != 0 && cy != 0) {
#ifdef _DEBUG
MessageBoxA(NULL, "Object not allocated. Check GDI object count", "ERROR", MB_OK | MB_ICONERROR);
DebugBreak();
#endif
;
}
else memset(ptPixels, 0, cx*cy * 4);
if (bits != NULL) *bits = ptPixels;
return DirectBitmap;
}
HRGN ske_CreateOpaqueRgn(BYTE Level, bool Opaque)
{
if (!g_pCachedWindow)
return NULL;
RGBQUAD *buf = (RGBQUAD *)g_pCachedWindow->hImageDIBByte;
if (buf == NULL)
return NULL;
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 < g_pCachedWindow->Height; ++y) {
bool inside = false;
bool lastin = false;
unsigned int entry = 0;
for (int x = 0; x < g_pCachedWindow->Width; ++x) {
inside = Opaque ? (buf->rgbReserved > Level) : (buf->rgbReserved < Level);
++buf;
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, g_pCachedWindow->Height - y, x, g_pCachedWindow->Height - 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, g_pCachedWindow->Height - y, g_pCachedWindow->Width, g_pCachedWindow->Height - y + 1);
pRgnData->rdh.nCount++;
}
}
HRGN hRgn = ExtCreateRegion(NULL, sizeof(RGNDATAHEADER) + pRgnData->rdh.nCount*sizeof(RECT), (LPRGNDATA)pRgnData);
free(pRgnData);
return hRgn;
}
static int ske_DrawSkinObject(SKINDRAWREQUEST * preq, GLYPHOBJECT * pobj)
{
HDC memdc = NULL, glyphdc = NULL;
int k = 0;
//BITMAP bmp = {0};
HBITMAP membmp = 0, oldbmp = 0, oldglyph = 0;
BYTE Is32Bit = 0;
RECT PRect;
POINT mode2offset = { 0 };
int depth = 0;
int mode = 0; //0-FastDraw, 1-DirectAlphaDraw, 2-BufferedAlphaDraw
if (!(preq && pobj)) return -1;
if ((!pobj->hGlyph || pobj->hGlyph == (HBITMAP)-1) && ((pobj->Style & 7) == ST_IMAGE || (pobj->Style & 7) == ST_FRAGMENT || (pobj->Style & 7) == ST_SOLARIZE)) return 0;
// Determine painting mode
depth = GetDeviceCaps(preq->hDC, BITSPIXEL);
depth = depth < 16 ? 16 : depth;
Is32Bit = pobj->bmBitsPixel == 32;
if ((!Is32Bit && pobj->dwAlpha == 255) && pobj->Style != ST_BRUSH) mode = 0;
else if (pobj->dwAlpha == 255 && pobj->Style != ST_BRUSH) mode = 1;
else mode = 2;
// End painting mode
//force mode
if (preq->rcClipRect.bottom - preq->rcClipRect.top*preq->rcClipRect.right - preq->rcClipRect.left == 0)
preq->rcClipRect = preq->rcDestRect;
IntersectRect(&PRect, &preq->rcDestRect, &preq->rcClipRect);
if (IsRectEmpty(&PRect)) {
return 0;
}
if (mode == 2) {
memdc = CreateCompatibleDC(preq->hDC);
membmp = ske_CreateDIB32(PRect.right - PRect.left, PRect.bottom - PRect.top);
oldbmp = (HBITMAP)SelectObject(memdc, membmp);
if (oldbmp == NULL) {
if (mode == 2) {
SelectObject(memdc, oldbmp);
DeleteDC(memdc);
DeleteObject(membmp);
}
return 0;
}
}
if (mode != 2) memdc = preq->hDC;
{
if (pobj->hGlyph && pobj->hGlyph != (HBITMAP)-1) {
glyphdc = CreateCompatibleDC(preq->hDC);
oldglyph = (HBITMAP)SelectObject(glyphdc, pobj->hGlyph);
}
// Drawing
{
RECT rFill, rGlyph, rClip;
if ((pobj->Style & 7) == ST_BRUSH) {
HBRUSH br = CreateSolidBrush(pobj->dwColor);
RECT fr;
if (mode == 2) {
SetRect(&fr, 0, 0, PRect.right - PRect.left, PRect.bottom - PRect.top);
FillRect(memdc, &fr, br);
ske_SetRectOpaque(memdc, &fr);
// FillRectAlpha(memdc,&fr,pobj->dwColor|0xFF000000);
}
else {
fr = PRect;
// SetRect(&fr, 0, 0, PRect.right-PRect.left,PRect.bottom-PRect.top);
FillRect(preq->hDC, &fr, br);
}
DeleteObject(br);
k = -1;
}
else {
if (mode == 2) {
mode2offset.x = PRect.left;
mode2offset.y = PRect.top;
OffsetRect(&PRect, -mode2offset.x, -mode2offset.y);
}
rClip = (preq->rcClipRect);
{
int lft = 0;
int top = 0;
int rgh = pobj->bmWidth;
int btm = pobj->bmHeight;
if ((pobj->Style & 7) == ST_FRAGMENT) {
lft = pobj->clipArea.x;
top = pobj->clipArea.y;
rgh = min(rgh, lft + pobj->szclipArea.cx);
btm = min(btm, top + pobj->szclipArea.cy);
}
// Draw center...
if (1) {
rFill.top = preq->rcDestRect.top + pobj->dwTop;
rFill.bottom = preq->rcDestRect.bottom - pobj->dwBottom;
rFill.left = preq->rcDestRect.left + pobj->dwLeft;
rFill.right = preq->rcDestRect.right - pobj->dwRight;
if (mode == 2)
OffsetRect(&rFill, -mode2offset.x, -mode2offset.y);
rGlyph.top = top + pobj->dwTop;
rGlyph.left = lft + pobj->dwLeft;
rGlyph.right = rgh - pobj->dwRight;
rGlyph.bottom = btm - pobj->dwBottom;
k += ske_SkinFillRectByGlyph(memdc, glyphdc, &rFill, &rGlyph, &PRect, pobj->FitMode, mode);
}
// Draw top side...
if (1) {
rFill.top = preq->rcDestRect.top;
rFill.bottom = preq->rcDestRect.top + pobj->dwTop;
rFill.left = preq->rcDestRect.left + pobj->dwLeft;
rFill.right = preq->rcDestRect.right - pobj->dwRight;
if (mode == 2)
OffsetRect(&rFill, -mode2offset.x, -mode2offset.y);
rGlyph.top = top + 0;
rGlyph.left = lft + pobj->dwLeft;
rGlyph.right = rgh - pobj->dwRight;
rGlyph.bottom = top + pobj->dwTop;
k += ske_SkinFillRectByGlyph(memdc, glyphdc, &rFill, &rGlyph, &PRect, pobj->FitMode&FM_TILE_HORZ, mode);
}
// Draw bottom side...
if (1) {
rFill.top = preq->rcDestRect.bottom - pobj->dwBottom;
rFill.bottom = preq->rcDestRect.bottom;
rFill.left = preq->rcDestRect.left + pobj->dwLeft;
rFill.right = preq->rcDestRect.right - pobj->dwRight;
if (mode == 2)
OffsetRect(&rFill, -mode2offset.x, -mode2offset.y);
rGlyph.top = btm - pobj->dwBottom;
rGlyph.left = lft + pobj->dwLeft;
rGlyph.right = rgh - pobj->dwRight;
rGlyph.bottom = btm;
k += ske_SkinFillRectByGlyph(memdc, glyphdc, &rFill, &rGlyph, &PRect, pobj->FitMode&FM_TILE_HORZ, mode);
}
// Draw left side...
if (1) {
rFill.top = preq->rcDestRect.top + pobj->dwTop;
rFill.bottom = preq->rcDestRect.bottom - pobj->dwBottom;
rFill.left = preq->rcDestRect.left;
rFill.right = preq->rcDestRect.left + pobj->dwLeft;
if (mode == 2)
OffsetRect(&rFill, -mode2offset.x, -mode2offset.y);
rGlyph.top = top + pobj->dwTop;
rGlyph.left = lft;
rGlyph.right = lft + pobj->dwLeft;
rGlyph.bottom = btm - pobj->dwBottom;
k += ske_SkinFillRectByGlyph(memdc, glyphdc, &rFill, &rGlyph, &PRect, pobj->FitMode&FM_TILE_VERT, mode);
}
// Draw right side...
if (1) {
rFill.top = preq->rcDestRect.top + pobj->dwTop;
rFill.bottom = preq->rcDestRect.bottom - pobj->dwBottom;
rFill.left = preq->rcDestRect.right - pobj->dwRight;
rFill.right = preq->rcDestRect.right;
if (mode == 2)
OffsetRect(&rFill, -mode2offset.x, -mode2offset.y);
rGlyph.top = top + pobj->dwTop;
rGlyph.left = rgh - pobj->dwRight;
rGlyph.right = rgh;
rGlyph.bottom = btm - pobj->dwBottom;
k += ske_SkinFillRectByGlyph(memdc, glyphdc, &rFill, &rGlyph, &PRect, pobj->FitMode&FM_TILE_VERT, mode);
}
// Draw Top-Left corner...
if (1) {
rFill.top = preq->rcDestRect.top;
rFill.bottom = preq->rcDestRect.top + pobj->dwTop;
rFill.left = preq->rcDestRect.left;
rFill.right = preq->rcDestRect.left + pobj->dwLeft;
if (mode == 2)
OffsetRect(&rFill, -mode2offset.x, -mode2offset.y);
rGlyph.top = top;
rGlyph.left = lft;
rGlyph.right = lft + pobj->dwLeft;
rGlyph.bottom = top + pobj->dwTop;
k += ske_SkinFillRectByGlyph(memdc, glyphdc, &rFill, &rGlyph, &PRect, 0, mode);
}
// Draw Top-Right corner...
if (1) {
rFill.top = preq->rcDestRect.top;
rFill.bottom = preq->rcDestRect.top + pobj->dwTop;
rFill.left = preq->rcDestRect.right - pobj->dwRight;
rFill.right = preq->rcDestRect.right;
if (mode == 2)
OffsetRect(&rFill, -mode2offset.x, -mode2offset.y);
rGlyph.top = top;
rGlyph.left = rgh - pobj->dwRight;
rGlyph.right = rgh;
rGlyph.bottom = top + pobj->dwTop;
k += ske_SkinFillRectByGlyph(memdc, glyphdc, &rFill, &rGlyph, &PRect, 0, mode);
}
// Draw Bottom-Left corner...
if (1) {
rFill.top = preq->rcDestRect.bottom - pobj->dwBottom;
rFill.bottom = preq->rcDestRect.bottom;
rFill.left = preq->rcDestRect.left;
rFill.right = preq->rcDestRect.left + pobj->dwLeft;
if (mode == 2)
OffsetRect(&rFill, -mode2offset.x, -mode2offset.y);
rGlyph.left = lft;
rGlyph.right = lft + pobj->dwLeft;
rGlyph.top = btm - pobj->dwBottom;
rGlyph.bottom = btm;
k += ske_SkinFillRectByGlyph(memdc, glyphdc, &rFill, &rGlyph, &PRect, 0, mode);
}
// Draw Bottom-Right corner...
if (1) {
rFill.top = preq->rcDestRect.bottom - pobj->dwBottom;
rFill.bottom = preq->rcDestRect.bottom;
rFill.left = preq->rcDestRect.right - pobj->dwRight;
rFill.right = preq->rcDestRect.right;
if (mode == 2)
OffsetRect(&rFill, -mode2offset.x, -mode2offset.y);
rGlyph.left = rgh - pobj->dwRight;
rGlyph.right = rgh;
rGlyph.top = btm - pobj->dwBottom;
rGlyph.bottom = btm;
k += ske_SkinFillRectByGlyph(memdc, glyphdc, &rFill, &rGlyph, &PRect, 0, mode);
}
}
}
if ((k > 0 || k == -1) && mode == 2) {
{
BLENDFUNCTION bf = { AC_SRC_OVER, 0, /*(bm.bmBitsPixel == 32)?255:*/pobj->dwAlpha, (pobj->bmBitsPixel == 32 && pobj->Style != ST_BRUSH) ? AC_SRC_ALPHA : 0 };
if (mode == 2)
OffsetRect(&PRect, mode2offset.x, mode2offset.y);
ske_AlphaBlend(preq->hDC, PRect.left, PRect.top, PRect.right - PRect.left, PRect.bottom - PRect.top,
memdc, 0, 0, PRect.right - PRect.left, PRect.bottom - PRect.top, bf);
}
}
}
//free GDI resources
//--++--
//free GDI resources
{
if (oldglyph) SelectObject(glyphdc, oldglyph);
if (glyphdc) DeleteDC(glyphdc);
}
if (mode == 2) {
SelectObject(memdc, oldbmp);
DeleteDC(memdc);
DeleteObject(membmp);
}
}
if (pobj->plTextList && pobj->plTextList->realCount > 0) {
HFONT hOldFont;
for (int i = 0; i < pobj->plTextList->realCount; i++) {
GLYPHTEXT * gt = (GLYPHTEXT *)pobj->plTextList->items[i];
if (!gt->hFont) {
if (gl_plSkinFonts && gl_plSkinFonts->realCount > 0) {
int j = 0;
for (j = 0; j < gl_plSkinFonts->realCount; j++) {
SKINFONT * sf;
sf = (SKINFONT*)gl_plSkinFonts->items[j];
if (sf->szFontID && !mir_strcmp(sf->szFontID, gt->szFontID)) {
gt->hFont = sf->hFont;
break;
}
}
}
if (!gt->hFont) gt->hFont = (HFONT)-1;
}
if (gt->hFont != (HFONT)-1) {
RECT rc = { 0 };
hOldFont = (HFONT)SelectObject(preq->hDC, gt->hFont);
if (gt->RelativeFlags & 2) rc.left = preq->rcDestRect.right + gt->iLeft;
else if (gt->RelativeFlags & 1) rc.left = ((preq->rcDestRect.right - preq->rcDestRect.left) >> 1) + gt->iLeft;
else rc.left = preq->rcDestRect.left + gt->iLeft;
if (gt->RelativeFlags & 8) rc.top = preq->rcDestRect.bottom + gt->iTop;
else if (gt->RelativeFlags & 4) rc.top = ((preq->rcDestRect.bottom - preq->rcDestRect.top) >> 1) + gt->iTop;
else rc.top = preq->rcDestRect.top + gt->iTop;
if (gt->RelativeFlags & 32) rc.right = preq->rcDestRect.right + gt->iRight;
else if (gt->RelativeFlags & 16) rc.right = ((preq->rcDestRect.right - preq->rcDestRect.left) >> 1) + gt->iRight;
else rc.right = preq->rcDestRect.left + gt->iRight;
if (gt->RelativeFlags & 128) rc.bottom = preq->rcDestRect.bottom + gt->iBottom;
else if (gt->RelativeFlags & 64) rc.bottom = ((preq->rcDestRect.bottom - preq->rcDestRect.top) >> 1) + gt->iBottom;
else rc.bottom = preq->rcDestRect.top + gt->iBottom;
ske_AlphaTextOut(preq->hDC, gt->stText, -1, &rc, gt->dwFlags, gt->dwColor);
SelectObject(preq->hDC, hOldFont);
}
}
}
return 0;
}
int ske_AddDescriptorToSkinObjectList(LPSKINOBJECTDESCRIPTOR lpDescr, SKINOBJECTSLIST* Skin)
{
SKINOBJECTSLIST *sk = (Skin ? Skin : &g_SkinObjectList);
if (!mir_strcmpi(lpDescr->szObjectID, "_HEADER_"))
return 0;
//check if new object allready presents.
for (DWORD i = 0; i < sk->dwObjLPAlocated; i++)
if (!mir_strcmp(sk->pObjects[i].szObjectID, lpDescr->szObjectID))
return 0;
// Realocated list to add space for new object
if (sk->dwObjLPAlocated + 1 > sk->dwObjLPReserved) {
sk->pObjects = (SKINOBJECTDESCRIPTOR*)mir_realloc(sk->pObjects, sizeof(SKINOBJECTDESCRIPTOR)*(sk->dwObjLPReserved + 1)/*alloc step*/);
sk->dwObjLPReserved++;
}
{ //filling new objects field
sk->pObjects[sk->dwObjLPAlocated].bType = lpDescr->bType;
sk->pObjects[sk->dwObjLPAlocated].Data = NULL;
sk->pObjects[sk->dwObjLPAlocated].szObjectID = mir_strdup(lpDescr->szObjectID);
// sk->Objects[sk->dwObjLPAlocated].szObjectName = mir_strdup(lpDescr->szObjectName);
if (lpDescr->Data != NULL) { //Copy defaults values
switch (lpDescr->bType) {
case OT_GLYPHOBJECT:
{
GLYPHOBJECT * gl = (GLYPHOBJECT*)lpDescr->Data;
sk->pObjects[sk->dwObjLPAlocated].Data = mir_alloc(sizeof(GLYPHOBJECT));
GLYPHOBJECT *obdat = (GLYPHOBJECT*)sk->pObjects[sk->dwObjLPAlocated].Data;
memcpy(obdat, gl, sizeof(GLYPHOBJECT));
if (gl->szFileName != NULL) {
obdat->szFileName = mir_strdup(gl->szFileName);
mir_free_and_nil(gl->szFileName);
}
else obdat->szFileName = NULL;
obdat->hGlyph = NULL;
break;
}
}
}
}
sk->dwObjLPAlocated++;
return 1;
}
static LPSKINOBJECTDESCRIPTOR ske_FindObject(const char *szName, SKINOBJECTSLIST *Skin)
{
SKINOBJECTSLIST *sk = (Skin == NULL) ? (&g_SkinObjectList) : Skin;
return skin_FindObjectByRequest((char *)szName, sk->pMaskList);
}
static LPSKINOBJECTDESCRIPTOR ske_FindObjectByMask(MODERNMASK *pModernMask, SKINOBJECTSLIST *Skin)
{
SKINOBJECTSLIST *sk = (Skin == NULL) ? (&g_SkinObjectList) : Skin;
return sk->pMaskList ? skin_FindObjectByMask(pModernMask, sk->pMaskList) : NULL;
}
LPSKINOBJECTDESCRIPTOR ske_FindObjectByName(const char * szName, BYTE objType, SKINOBJECTSLIST* Skin)
{
SKINOBJECTSLIST *sk = (Skin == NULL) ? (&g_SkinObjectList) : Skin;
for (DWORD i = 0; i < sk->dwObjLPAlocated; i++) {
if (sk->pObjects[i].bType == objType || objType == OT_ANY) {
if (!mir_strcmp(sk->pObjects[i].szObjectID, szName))
return &(sk->pObjects[i]);
}
}
return NULL;
}
//////////////////////////////////////////////////////////////////////////
// Paint glyph
// wParam - LPSKINDRAWREQUEST
// lParam - possible direct pointer to modern mask
//////////////////////////////////////////////////////////////////////////
INT_PTR ske_Service_DrawGlyph(WPARAM wParam, LPARAM lParam)
{
LPSKINDRAWREQUEST preq = (LPSKINDRAWREQUEST)wParam;
if (preq == NULL)
return -1;
mir_cslock lck(cs_SkinChanging);
LPSKINOBJECTDESCRIPTOR pgl = (lParam ? ske_FindObjectByMask((MODERNMASK*)lParam, NULL) : ske_FindObject(preq->szObjectID, NULL));
if (pgl == NULL) return -1;
if (pgl->Data == NULL) return -1;
LPGLYPHOBJECT gl = (LPGLYPHOBJECT)pgl->Data;
int iStyle = gl->Style & 7;
if (iStyle == ST_SKIP)
return ST_SKIP;
if (gl->hGlyph == NULL && gl->hGlyph != (HBITMAP)-1 && (iStyle == ST_IMAGE || iStyle == ST_FRAGMENT || iStyle == ST_SOLARIZE)) {
if (gl->szFileName) {
gl->hGlyph = ske_LoadGlyphImage(_A2T(gl->szFileName));
if (gl->hGlyph) {
BITMAP bmp = { 0 };
GetObject(gl->hGlyph, sizeof(BITMAP), &bmp);
gl->bmBitsPixel = (BYTE)bmp.bmBitsPixel;
gl->bmHeight = bmp.bmHeight;
gl->bmWidth = bmp.bmWidth;
}
else gl->hGlyph = (HBITMAP)-1; //invalid
}
}
return ske_DrawSkinObject(preq, gl);
}
void ske_PreMultiplyChannels(HBITMAP hbmp, BYTE Mult)
{
BITMAP bmp;
BOOL flag = FALSE;
BYTE * pBitmapBits;
DWORD Len;
int bh, bw, y, x;
GetObject(hbmp, sizeof(BITMAP), (LPSTR)&bmp);
bh = bmp.bmHeight;
bw = bmp.bmWidth;
Len = bh*bw * 4;
flag = (bmp.bmBits == NULL);
if (flag) {
pBitmapBits = (LPBYTE)malloc(Len);
GetBitmapBits(hbmp, Len, pBitmapBits);
}
else
pBitmapBits = (BYTE*)bmp.bmBits;
for (y = 0; y < bh; ++y) {
BYTE *pPixel = pBitmapBits + bw * 4 * y;
for (x = 0; x < bw; ++x) {
if (Mult) {
pPixel[0] = pPixel[0] * pPixel[3] / 255;
pPixel[1] = pPixel[1] * pPixel[3] / 255;
pPixel[2] = pPixel[2] * pPixel[3] / 255;
}
else {
pPixel[3] = 255;
}
pPixel += 4;
}
}
if (flag) {
Len = SetBitmapBits(hbmp, Len, pBitmapBits);
free(pBitmapBits);
}
return;
}
int ske_GetFullFilename(TCHAR *buf, const TCHAR *file, TCHAR *skinfolder, BOOL madeAbsolute)
{
TCHAR *SkinPlace = db_get_tsa(NULL, SKIN, "SkinFolder");
if (SkinPlace == NULL)
SkinPlace = mir_tstrdup(_T("\\Skin\\default"));
TCHAR b2[MAX_PATH];
if (file[0] != '\\' && file[1] != ':')
mir_sntprintf(b2, _countof(b2), _T("%s\\%s"), (skinfolder == NULL) ? SkinPlace : ((INT_PTR)skinfolder != -1) ? skinfolder : _T(""), file);
else
mir_tstrncpy(b2, file, _countof(b2));
if (madeAbsolute) {
if (b2[0] == '\\' && b2[1] != '\\')
PathToAbsoluteT(b2 + 1, buf);
else
PathToAbsoluteT(b2, buf);
}
else mir_tstrncpy(buf, b2, MAX_PATH);
mir_free(SkinPlace);
return 0;
}
/*
This function is required to load TGA to dib buffer myself
Major part of routines is from http://tfcduke.developpez.com/tutoriel/format/tga/fichiers/tga.c
*/
static BOOL ske_ReadTGAImageData(void * From, DWORD fromSize, BYTE * destBuf, DWORD bufSize, BOOL RLE)
{
BYTE * pos = destBuf;
BYTE * from = fromSize ? (BYTE*)From : NULL;
FILE * fp = !fromSize ? (FILE*)From : NULL;
DWORD destCount = 0;
DWORD fromCount = 0;
if (!RLE) {
while (((from && fromCount < fromSize) || (fp && fromCount < bufSize))
&& (destCount < bufSize)) {
BYTE r = from ? from[fromCount++] : (BYTE)fgetc(fp);
BYTE g = from ? from[fromCount++] : (BYTE)fgetc(fp);
BYTE b = from ? from[fromCount++] : (BYTE)fgetc(fp);
BYTE a = from ? from[fromCount++] : (BYTE)fgetc(fp);
pos[destCount++] = r;
pos[destCount++] = g;
pos[destCount++] = b;
pos[destCount++] = a;
if (destCount > bufSize) break;
if (from) if (fromCount < fromSize) break;
}
}
else {
BYTE rgba[4];
BYTE packet_header;
BYTE *ptr = pos;
BYTE size;
int i;
while (ptr < pos + bufSize) {
/* read first byte */
packet_header = from ? from[fromCount] : (BYTE)fgetc(fp);
if (from) from++;
size = 1 + (packet_header & 0x7f);
if (packet_header & 0x80) {
/* run-length packet */
if (from) {
*((DWORD*)rgba) = *((DWORD*)(from + fromCount));
fromCount += 4;
}
else fread(rgba, sizeof(BYTE), 4, fp);
for (i = 0; i < size; ++i, ptr += 4) {
ptr[2] = rgba[2];
ptr[1] = rgba[1];
ptr[0] = rgba[0];
ptr[3] = rgba[3];
}
}
else { /* not run-length packet */
for (i = 0; i < size; ++i, ptr += 4) {
ptr[0] = from ? from[fromCount++] : (BYTE)fgetc(fp);
ptr[1] = from ? from[fromCount++] : (BYTE)fgetc(fp);
ptr[2] = from ? from[fromCount++] : (BYTE)fgetc(fp);
ptr[3] = from ? from[fromCount++] : (BYTE)fgetc(fp);
}
}
}
}
return TRUE;
}
static HBITMAP ske_LoadGlyphImage_TGA(const TCHAR *szFilename)
{
BYTE *colormap = NULL;
int cx = 0, cy = 0;
BOOL err = FALSE;
tga_header_t header;
if (!szFilename) return NULL;
if (!wildcmpit(szFilename, _T("*\\*%.tga"))) {
//Loading TGA image from file
FILE *fp = _tfopen(szFilename, _T("rb"));
if (!fp) {
TRACEVAR("error: couldn't open \"%s\"!\n", szFilename);
return NULL;
}
/* read header */
fread(&header, sizeof(tga_header_t), 1, fp);
if ((header.pixel_depth != 32) || ((header.image_type != 10) && (header.image_type != 2))) {
fclose(fp);
return NULL;
}
/*memory allocation */
colormap = (BYTE*)malloc(header.width*header.height * 4);
cx = header.width;
cy = header.height;
fseek(fp, header.id_lenght, SEEK_CUR);
fseek(fp, header.cm_length, SEEK_CUR);
err = !ske_ReadTGAImageData((void*)fp, 0, colormap, header.width*header.height * 4, header.image_type == 10);
fclose(fp);
}
else {
/* reading from resources IDR_TGA_DEFAULT_SKIN */
HRSRC hRSrc = FindResourceA(g_hInst, MAKEINTRESOURCEA(IDR_TGA_DEFAULT_SKIN), "TGA");
if (!hRSrc) return NULL;
HGLOBAL hRes = LoadResource(g_hInst, hRSrc);
if (!hRes) return NULL;
DWORD size = SizeofResource(g_hInst, hRSrc);
BYTE *mem = (BYTE*)LockResource(hRes);
if (size > sizeof(header)) {
tga_header_t * header = (tga_header_t *)mem;
if (header->pixel_depth == 32 && (header->image_type == 2 || header->image_type == 10)) {
colormap = (BYTE*)malloc(header->width*header->height * 4);
cx = header->width;
cy = header->height;
ske_ReadTGAImageData((void*)(mem + sizeof(tga_header_t) + header->id_lenght + header->cm_length), size - (sizeof(tga_header_t) + header->id_lenght + header->cm_length), colormap, cx*cy * 4, header->image_type == 10);
}
}
FreeResource(hRes);
}
if (colormap) { //create dib section
BYTE * pt;
HBITMAP hbmp = ske_CreateDIB32Point(cx, cy, (void**)&pt);
if (hbmp)
memcpy(pt, colormap, cx*cy * 4);
free(colormap);
return hbmp;
}
return NULL;
}
static HBITMAP ske_LoadGlyphImageByDecoders(const TCHAR *tszFileName)
{
if (!_tcschr(tszFileName, '%') && !PathFileExists(tszFileName))
return NULL;
const TCHAR *ext = _tcsrchr(tszFileName, '.');
if (ext == NULL)
return NULL;
BITMAP bmpInfo;
HBITMAP hBitmap;
bool f = false;
if (!mir_tstrcmpi(ext, _T(".tga"))) {
hBitmap = ske_LoadGlyphImage_TGA(tszFileName);
f = true;
}
else hBitmap = Bitmap_Load(tszFileName);
if (hBitmap == NULL)
return NULL;
GetObject(hBitmap, sizeof(BITMAP), &bmpInfo);
if (bmpInfo.bmBitsPixel == 32)
ske_PreMultiplyChannels(hBitmap, f);
else {
HDC dc32 = CreateCompatibleDC(NULL);
HDC dc24 = CreateCompatibleDC(NULL);
HBITMAP hBitmap32 = ske_CreateDIB32(bmpInfo.bmWidth, bmpInfo.bmHeight);
HBITMAP obmp24 = (HBITMAP)SelectObject(dc24, hBitmap);
HBITMAP obmp32 = (HBITMAP)SelectObject(dc32, hBitmap32);
BitBlt(dc32, 0, 0, bmpInfo.bmWidth, bmpInfo.bmHeight, dc24, 0, 0, SRCCOPY);
SelectObject(dc24, obmp24);
SelectObject(dc32, obmp32);
DeleteDC(dc24);
DeleteDC(dc32);
DeleteObject(hBitmap);
hBitmap = hBitmap32;
ske_PreMultiplyChannels(hBitmap, 0);
}
return hBitmap;
}
static HBITMAP ske_skinLoadGlyphImage(const TCHAR *tszFileName)
{
if (!wildcmpit(tszFileName, _T("*.tga")))
return GDIPlus_LoadGlyphImage(tszFileName);
return ske_LoadGlyphImageByDecoders(tszFileName);
}
HBITMAP ske_LoadGlyphImage(const TCHAR *tszFileName)
{
// try to find image in loaded
TCHAR szFile[MAX_PATH] = { 0 };
ske_GetFullFilename(szFile, tszFileName, g_SkinObjectList.szSkinPlace, TRUE);
mir_cslock lck(cs_SkinChanging);
if (pLoadedImages) {
for (DWORD i = 0; i < dwLoadedImagesCount; i++) {
if (!mir_tstrcmpi(pLoadedImages[i].szFileName, szFile)) {
pLoadedImages[i].dwLoadedTimes++;
return pLoadedImages[i].hGlyph;
}
}
}
// load new image
HBITMAP hbmp = ske_skinLoadGlyphImage(szFile);
if (hbmp == NULL)
return NULL;
// add to loaded list
if (dwLoadedImagesCount + 1 > dwLoadedImagesAlocated) {
pLoadedImages = (GLYPHIMAGE*)mir_realloc(pLoadedImages, sizeof(GLYPHIMAGE)*(dwLoadedImagesCount + 1));
if (!pLoadedImages)
return NULL;
dwLoadedImagesAlocated++;
}
pLoadedImages[dwLoadedImagesCount].dwLoadedTimes = 1;
pLoadedImages[dwLoadedImagesCount].hGlyph = hbmp;
pLoadedImages[dwLoadedImagesCount].szFileName = mir_tstrdup(szFile);
dwLoadedImagesCount++;
return hbmp;
}
int ske_UnloadGlyphImage(HBITMAP hbmp)
{
for (DWORD i = 0; i < dwLoadedImagesCount && pLoadedImages; i++) {
if (hbmp != pLoadedImages[i].hGlyph)
continue;
pLoadedImages[i].dwLoadedTimes--;
if (pLoadedImages[i].dwLoadedTimes == 0) {
LPGLYPHIMAGE gl = &(pLoadedImages[i]);
mir_free_and_nil(gl->szFileName);
memmove(&(pLoadedImages[i]), &(pLoadedImages[i + 1]), sizeof(GLYPHIMAGE)*(dwLoadedImagesCount - i - 1));
dwLoadedImagesCount--;
DeleteObject(hbmp);
if (dwLoadedImagesCount == 0) {
dwLoadedImagesAlocated = 0;
mir_free_and_nil(pLoadedImages);
}
}
return 0;
}
DeleteObject(hbmp);
return 0;
}
int ske_UnloadSkin(SKINOBJECTSLIST * Skin)
{
ClearMaskList(Skin->pMaskList);
//clear font list
if (gl_plSkinFonts && gl_plSkinFonts->realCount > 0) {
for (int i = 0; i < gl_plSkinFonts->realCount; i++) {
SKINFONT * sf = (SKINFONT *)gl_plSkinFonts->items[i];
if (sf) {
mir_free(sf->szFontID);
DeleteObject(sf->hFont);
mir_free(sf);
}
}
List_Destroy(gl_plSkinFonts);
mir_free_and_nil(gl_plSkinFonts);
}
mir_free_and_nil(Skin->szSkinPlace);
if (Skin->pTextList) List_Destroy(Skin->pTextList);
mir_free_and_nil(Skin->pTextList);
ModernSkinButtonDeleteAll();
if (Skin->dwObjLPAlocated == 0)
return 0;
for (DWORD i = 0; i < Skin->dwObjLPAlocated; i++) {
switch (Skin->pObjects[i].bType) {
case OT_GLYPHOBJECT:
GLYPHOBJECT *dt = (GLYPHOBJECT*)Skin->pObjects[i].Data;
if (dt->hGlyph && dt->hGlyph != (HBITMAP)-1)
ske_UnloadGlyphImage(dt->hGlyph);
dt->hGlyph = NULL;
mir_free_and_nil(dt->szFileName);
if (dt->plTextList && dt->plTextList->realCount > 0) {
for (int i = 0; i < dt->plTextList->realCount; i++) {
GLYPHTEXT *gt = (GLYPHTEXT *)dt->plTextList->items[i];
if (gt) {
mir_free(gt->stText);
mir_free(gt->stValueText);
mir_free(gt->szFontID);
mir_free(gt->szGlyphTextID);
mir_free(gt);
}
}
List_Destroy(dt->plTextList);
mir_free(dt->plTextList);
}
mir_free(dt);
break;
}
mir_free_and_nil(Skin->pObjects[i].szObjectID);
}
mir_free_and_nil(Skin->pObjects);
Skin->pTextList = NULL;
Skin->dwObjLPAlocated = 0;
Skin->dwObjLPReserved = 0;
return 0;
}
static void RegisterMaskByParce(const char *szSetting, char *szValue, SKINOBJECTSLIST *pSkin)
{
size_t i, val_len = mir_strlen(szValue);
for (i = 0; i < val_len; i++)
if (szValue[i] == ':')
break;
if (i < val_len) {
char * Obj, *Mask;
int res;
DWORD ID = atoi(szSetting + 1);
Mask = szValue + i + 1;
Obj = (char*)mir_alloc(i + 2);
mir_strncpy(Obj, szValue, i + 1);
Obj[i + 1] = '\0';
res = AddStrModernMaskToList(ID, Mask, Obj, pSkin->pMaskList);
mir_free(Obj);
}
}
static int ske_ProcessLoadindString(const char *szSetting, char *szValue)
{
if (!pCurrentSkin) return 0;
if (szSetting[0] == '$')
RegisterObjectByParce((char *)szSetting, szValue);
else if (szSetting[0] == '#')
RegisterButtonByParce((char *)szSetting, szValue);
else if (szSetting[0] == '@')
RegisterMaskByParce((char *)szSetting, szValue, pCurrentSkin); ///
else if (szSetting[0] == 't')
ske_AddParseTextGlyphObject((char*)szSetting, szValue, pCurrentSkin);
else if (szSetting[0] == 'f')
ske_AddParseSkinFont((char*)szSetting, szValue);
else return 0;
return 1;
}
static int ske_enumdb_SkinObjectsProc(const char *szSetting, LPARAM)
{
ptrA value(db_get_sa(NULL, SKIN, szSetting));
ske_ProcessLoadindString(szSetting, value);
return 0;
}
static int ske_SortTextGlyphObjectFunc(void * first, void * second)
{
return mir_strcmp(((GLYPHTEXT*)(((int*)first)[0]))->szGlyphTextID, ((GLYPHTEXT*)(((int*)second)[0]))->szGlyphTextID);
}
static void ske_LinkSkinObjects(SKINOBJECTSLIST * pObjectList)
{
// LINK Mask with objects
for (DWORD i = 0; i < pObjectList->pMaskList->dwMaskCnt; i++) {
MODERNMASK *mm = &(pObjectList->pMaskList->pl_Masks[i]);
void * pObject = (void*)ske_FindObjectByName(mm->szObjectName, OT_ANY, (SKINOBJECTSLIST*)pObjectList);
mir_free_and_nil(mm->szObjectName);
mm->bObjectFound = TRUE;
mm->pObject = pObject;
}
if (pObjectList->pTextList) {
// LINK Text with objects
for (int i = 0; i < pObjectList->pTextList->realCount; i++) {
GLYPHTEXT *glText = (GLYPHTEXT *)pObjectList->pTextList->items[i];
SKINOBJECTDESCRIPTOR *lpobj = ske_FindObjectByName(glText->szObjectName, OT_GLYPHOBJECT, pObjectList);
mir_free_and_nil(glText->szObjectName);
GLYPHOBJECT *globj = NULL;
if (lpobj)
globj = (GLYPHOBJECT*)lpobj->Data;
if (globj) {
if (!globj->plTextList) {
globj->plTextList = List_Create(0, 1);
globj->plTextList->sortFunc = ske_SortTextGlyphObjectFunc;
}
List_Insert(globj->plTextList, (void*)glText, globj->plTextList->realCount);
qsort(globj->plTextList->items, globj->plTextList->realCount, sizeof(void*), (int(*)(const void*, const void*))globj->plTextList->sortFunc);
pObjectList->pTextList->items[i] = NULL;
}
else {
GLYPHTEXT *gt = glText;
if (gt) {
mir_free(gt->stText);
mir_free(gt->stValueText);
mir_free(gt->szFontID);
mir_free(gt->szGlyphTextID);
mir_free(gt);
}
}
}
List_Destroy(pObjectList->pTextList);
mir_free_and_nil(pObjectList->pTextList);
}
}
// Getting skin objects and masks from DB
static int ske_GetSkinFromDB(char *, SKINOBJECTSLIST *Skin)
{
if (Skin == NULL) return 0;
ske_UnloadSkin(Skin);
g_CluiData.fDisableSkinEngine = db_get_b(NULL, "ModernData", "DisableEngine", SETTING_DISABLESKIN_DEFAULT);
// window borders
if (g_CluiData.fDisableSkinEngine) {
g_CluiData.LeftClientMargin = 0;
g_CluiData.RightClientMargin = 0;
g_CluiData.TopClientMargin = 0;
g_CluiData.BottomClientMargin = 0;
}
else {
// window borders
g_CluiData.LeftClientMargin = (int)db_get_b(NULL, "CLUI", "LeftClientMargin", SETTING_LEFTCLIENTMARIGN_DEFAULT);
g_CluiData.RightClientMargin = (int)db_get_b(NULL, "CLUI", "RightClientMargin", SETTING_RIGHTCLIENTMARIGN_DEFAULT);
g_CluiData.TopClientMargin = (int)db_get_b(NULL, "CLUI", "TopClientMargin", SETTING_TOPCLIENTMARIGN_DEFAULT);
g_CluiData.BottomClientMargin = (int)db_get_b(NULL, "CLUI", "BottomClientMargin", SETTING_BOTTOMCLIENTMARIGN_DEFAULT);
}
if (g_CluiData.fDisableSkinEngine)
return 0;
Skin->pMaskList = (LISTMODERNMASK*)mir_alloc(sizeof(LISTMODERNMASK));
memset(Skin->pMaskList, 0, sizeof(LISTMODERNMASK));
Skin->szSkinPlace = db_get_tsa(NULL, SKIN, "SkinFolder");
if (!Skin->szSkinPlace || (_tcschr(Skin->szSkinPlace, '%') && !db_get_b(NULL, SKIN, "Modified", 0))) {
BOOL bOnlyObjects = FALSE;
if (Skin->szSkinPlace && _tcschr(Skin->szSkinPlace, '%'))
bOnlyObjects = TRUE;
mir_free(Skin->szSkinPlace);
Skin->szSkinPlace = mir_tstrdup(_T("%Default%"));
ske_LoadSkinFromResource(bOnlyObjects);
}
// Load objects
DBCONTACTENUMSETTINGS dbces;
pCurrentSkin = Skin;
dbces.pfnEnumProc = ske_enumdb_SkinObjectsProc;
dbces.szModule = SKIN;
dbces.ofsSettings = 0;
CallService(MS_DB_CONTACT_ENUMSETTINGS, 0, (LPARAM)&dbces);
SortMaskList(pCurrentSkin->pMaskList);
ske_LinkSkinObjects(pCurrentSkin);
// Load Masks
return 0;
}
// surrogate to be called from outside
void ske_LoadSkinFromDB(void)
{
ske_GetSkinFromDB(SKIN, &g_SkinObjectList);
g_CluiData.dwKeyColor = db_get_dw(NULL, "ModernSettings", "KeyColor", (DWORD)SETTING_KEYCOLOR_DEFAULT);
}
static int ske_LoadSkinFromResource(BOOL bOnlyObjects)
{
IniParser parser(g_hInst, MAKEINTRESOURCEA(IDR_MSF_DEFAULT_SKIN), "MSF", bOnlyObjects ? IniParser::FLAG_ONLY_OBJECTS : IniParser::FLAG_WITH_SETTINGS);
if (parser.CheckOK()) {
CallService(MS_DB_MODULE_DELETE, 0, (LPARAM)"ModernSkin");
db_set_s(NULL, SKIN, "SkinFolder", "%Default%");
db_set_s(NULL, SKIN, "SkinFile", "%Default%");
parser.Parse(IniParser::WriteStrToDb, 0);
}
return 0;
}
// Load data from ini file
int ske_LoadSkinFromIniFile(TCHAR *szFileName, BOOL bOnlyObjects)
{
if (_tcschr(szFileName, _T('%')))
return ske_LoadSkinFromResource(bOnlyObjects);
IniParser parser(szFileName, bOnlyObjects ? IniParser::FLAG_ONLY_OBJECTS : IniParser::FLAG_WITH_SETTINGS);
if (!parser.CheckOK())
return 0;
CallService(MS_DB_MODULE_DELETE, 0, (LPARAM)"ModernSkin");
TCHAR skinFolder[MAX_PATH], skinFile[MAX_PATH];
IniParser::GetSkinFolder(szFileName, skinFolder);
PathToRelativeT(szFileName, skinFile);
db_set_ts(NULL, SKIN, "SkinFolder", skinFolder);
db_set_ts(NULL, SKIN, "SkinFile", skinFile);
parser.Parse(IniParser::WriteStrToDb, 1);
return 0;
}
BOOL ske_TextOut(HDC hdc, int x, int y, LPCTSTR lpString, int nCount)
{
SIZE sz;
GetTextExtentPoint32(hdc, lpString, nCount, &sz);
RECT rc = { 0 };
SetRect(&rc, x, y, x + sz.cx, y + sz.cy);
ske_DrawText(hdc, lpString, nCount, &rc, DT_NOCLIP | DT_SINGLELINE | DT_LEFT);
return 1;
}
static INT_PTR ske_Service_AlphaTextOut(WPARAM wParam, LPARAM)
{
if (!wParam) return 0;
AlphaTextOutParams ap = *(AlphaTextOutParams*)wParam;
return ske_AlphaTextOut(ap.hDC, ap.lpString, ap.nCount, ap.lpRect, ap.format, ap.ARGBcolor);
}
static __inline void ske_SetMatrix(sbyte * matrix,
sbyte a, sbyte b, sbyte c,
sbyte d, sbyte e, sbyte f,
sbyte g, sbyte h, sbyte i)
{
matrix[0] = a; matrix[1] = b; matrix[2] = c;
matrix[3] = d; matrix[4] = e; matrix[5] = f;
matrix[6] = g; matrix[7] = h; matrix[8] = i;
}
static void ske_SetTextEffect(BYTE EffectID, DWORD FirstColor, DWORD SecondColor)
{
if (EffectID > MAXPREDEFINEDEFFECTS) return;
if (EffectID == -1) meCurrentEffect.EffectID = -1;
else {
meCurrentEffect.EffectID = EffectID;
meCurrentEffect.EffectMatrix = ModernEffectsEnum[EffectID];
meCurrentEffect.EffectColor1 = FirstColor;
meCurrentEffect.EffectColor2 = SecondColor;
}
}
bool ske_ResetTextEffect(HDC hdc)
{
int idx = arEffectStack.getIndex((EFFECTSSTACKITEM*)&hdc);
if (idx == -1)
return false;
mir_free(arEffectStack[idx]);
arEffectStack.remove(idx);
return true;
}
bool ske_SelectTextEffect(HDC hdc, BYTE EffectID, DWORD FirstColor, DWORD SecondColor)
{
if (EffectID > MAXPREDEFINEDEFFECTS)
return false;
if (EffectID == -1)
return ske_ResetTextEffect(hdc);
EFFECTSSTACKITEM *effect = arEffectStack.find((EFFECTSSTACKITEM*)&hdc);
if (effect == NULL) {
effect = (EFFECTSSTACKITEM *)mir_alloc(sizeof(EFFECTSSTACKITEM));
effect->hdc = hdc;
arEffectStack.insert(effect);
}
effect->EffectID = EffectID;
effect->FirstColor = FirstColor;
effect->SecondColor = SecondColor;
return true;
}
static bool ske_GetTextEffect(HDC hdc, MODERNEFFECT *modernEffect)
{
if (!modernEffect)
return false;
EFFECTSSTACKITEM *effect = arEffectStack.find((EFFECTSSTACKITEM*)&hdc);
if (effect == NULL)
return false;
modernEffect->EffectID = effect->EffectID;
modernEffect->EffectColor1 = effect->FirstColor;
modernEffect->EffectColor2 = effect->SecondColor;
modernEffect->EffectMatrix = ModernEffectsEnum[effect->EffectID];
return true;
}
static bool ske_DrawTextEffect(BYTE* destPt, BYTE* maskPt, DWORD width, DWORD height, MODERNEFFECT *effect)
{
sbyte *buf;
sbyte *outbuf;
sbyte *bufline, *buflineTop, *buflineMid;
int sign = 0;
BYTE *maskline, *destline;
BYTE al, rl, gl, bl, ad, rd, gd, bd;
int k = 0;
DWORD x, y;
sbyte *matrix;
BYTE mcTopStart;
BYTE mcBottomEnd;
BYTE mcLeftStart;
BYTE mcRightEnd;
BYTE effectCount;
int minX = width;
int maxX = 0;
int minY = height;
int maxY = 0;
if (effect->EffectID == 0xFF) return false;
if (!width || !height) return false;
if (!destPt) return false;
buf = (sbyte*)malloc(width*height*sizeof(BYTE));
{
matrix = effect->EffectMatrix.matrix;
mcTopStart = 2 - effect->EffectMatrix.topEffect;
mcBottomEnd = 3 + effect->EffectMatrix.bottomEffect;
mcLeftStart = 2 - effect->EffectMatrix.leftEffect;
mcRightEnd = 3 + effect->EffectMatrix.rightEffect;
effectCount = effect->EffectMatrix.cycleCount;
}
al = 255 - ((BYTE)(effect->EffectColor1 >> 24));
rl = GetRValue(effect->EffectColor1);
gl = GetGValue(effect->EffectColor1);
bl = GetBValue(effect->EffectColor1);
ad = 255 - ((BYTE)(effect->EffectColor2 >> 24));
rd = GetRValue(effect->EffectColor2);
gd = GetGValue(effect->EffectColor2);
bd = GetBValue(effect->EffectColor2);
// Fill buffer by mid values of image
for (y = 0; y < height; y++) {
bufline = buf + y*width;
maskline = maskPt + ((y*width) << 2);
for (x = 0; x < width; x++) {
BYTE a = (sbyte)(DWORD)((maskline[0] + maskline[2] + maskline[1] + maskline[1]) >> 4);
*bufline = a;
if (a != 0) {
minX = min((int)x, minX);
minY = min((int)y, minY);
maxX = max((int)x, maxX);
maxY = max((int)y, maxY);
}
bufline++;
maskline += 4;
}
}
// Here perform effect on buffer and place results to outbuf
for (k = 0; k < (effectCount & 0x7F); k++) {
minX = max(0, minX + mcLeftStart - 2);
minY = max(0, minY + mcTopStart - 2);
maxX = min((int)width, maxX + mcRightEnd - 1);
maxY = min((int)height, maxY + mcBottomEnd - 1);
outbuf = (sbyte*)malloc(width*height*sizeof(sbyte));
memset(outbuf, 0, width*height*sizeof(sbyte));
for (y = (DWORD)minY; y < (DWORD)maxY; y++) {
int val;
bufline = outbuf + y*width + minX;
buflineMid = buf + y*width + minX;
for (x = (DWORD)minX; x < (DWORD)maxX; x++) {
int matrixHor, matrixVer;
val = 0;
for (matrixVer = mcTopStart; matrixVer < mcBottomEnd; matrixVer++) {
int buflineStep = width*(matrixVer - 2);
int as = y + matrixVer - 2;
sbyte * buflineTopS = NULL;
if (as >= 0 && (DWORD)as < height) buflineTopS = buflineMid + buflineStep;
for (matrixHor = mcLeftStart; matrixHor < mcRightEnd; matrixHor++) {
buflineTop = buflineTopS;
int a = x + matrixHor - 2;
if (buflineTop && a >= 0 && (DWORD)a < width) buflineTop += matrixHor - 2;
else buflineTop = NULL;
if (buflineTop)
val += ((*buflineTop)*matrix[matrixVer * 5 + matrixHor]);
}
}
val = (val + 1) >> 5;
*bufline = (sbyte)((val>127) ? 127 : (val < -125) ? -125 : val);
bufline++;
buflineMid++;
}
}
free(buf);
buf = outbuf;
}
{
BYTE r1, b1, g1, a1;
b1 = bl; r1 = rl; g1 = gl; a1 = al; sign = 1;
//perform out to dest
for (y = 0; y < height; y++) {
bufline = buf + y*width;
destline = destPt + ((y*width) << 2);
for (x = 0; x < width; x++) {
sbyte val = *bufline;
BYTE absVal = ((val < 0) ? -val : val);
if (val != 0) {
if (val>0 && sign < 0) {
b1 = bl; r1 = rl; g1 = gl; a1 = al; sign = 1;
}
else if (val < 0 && sign>0) {
b1 = bd; r1 = rd; g1 = gd; a1 = ad; sign = -1;
}
absVal = absVal*a1 / 255;
destline[0] = ((destline[0] * (128 - absVal)) + absVal*b1) >> 7;
destline[1] = ((destline[1] * (128 - absVal)) + absVal*g1) >> 7;
destline[2] = ((destline[2] * (128 - absVal)) + absVal*r1) >> 7;
destline[3] += ((255 - destline[3])*(a1*absVal)) / 32640;
}
bufline++;
destline += 4;
}
}
free(buf);
}
return false;
}
static int ske_AlphaTextOut(HDC hDC, LPCTSTR lpString, int nCount, RECT *lpRect, UINT format, DWORD ARGBcolor)
{
if (!(lpString && lpRect))
return 0;
// Step first fill fast calc correction tables:
static bool _tables_empty = true;
static BYTE gammaTbl[256]; // Gamma correction table
static WORD blueMulTbl[256]; // blue coefficient multiplication table
static WORD greenMulTbl[256]; // green coefficient multiplication table
static WORD redMulTbl[256]; // red coefficient multiplication table
if (_tables_empty) {
// fill tables
double gammaCfPw = 1000 / (double)DBGetContactSettingRangedWord(NULL, "ModernData", "AlphaTextOutGamma", 700, 1, 5000);
BYTE blueCf = db_get_b(NULL, "ModernData", "AlphaTextOutBlueCorrection", 28);
BYTE redCf = db_get_b(NULL, "ModernData", "AlphaTextOutRed Correction", 77);
BYTE greenCf = db_get_b(NULL, "ModernData", "AlphaTextOutGreen Correction", 151);
for (int i = 0; i < 256; i++) {
gammaTbl[i] = (BYTE)(255 * pow((double)i / 255, gammaCfPw));
blueMulTbl[i] = i * blueCf;
redMulTbl[i] = i * redCf;
greenMulTbl[i] = i * greenCf;
}
}
// Calc len of input string
if (nCount == -1)
nCount = (int)mir_tstrlen(lpString);
// retrieve destination bitmap bits
HBITMAP hDestBitmap = (HBITMAP)GetCurrentObject(hDC, OBJ_BITMAP);
BITMAP bmpDest;
GetObject(hDestBitmap, sizeof(BITMAP), &bmpDest);
bool destHasNotDIB = (bmpDest.bmBits == NULL);
BYTE *pDestBits;
if (destHasNotDIB) {
pDestBits = (BYTE*)malloc(bmpDest.bmHeight * bmpDest.bmWidthBytes);
GetBitmapBits(hDestBitmap, bmpDest.bmHeight*bmpDest.bmWidthBytes, pDestBits);
}
else
pDestBits = (BYTE*)bmpDest.bmBits;
// Creating offscreen buffer
HDC hOffscreenDC = CreateCompatibleDC(hDC);
// Font to be used to draw text
HFONT hFont = (HFONT)GetCurrentObject(hDC, OBJ_FONT);
HFONT hOldOffscreenFont = (HFONT)SelectObject(hOffscreenDC, hFont);
// Calculating text geometric size
RECT workRect = *lpRect;
int workRectWidth = workRect.right - workRect.left;
int workRectHeight = workRect.bottom - workRect.top;
if (workRectWidth <= 0 || workRectHeight <= 0) {
if (destHasNotDIB)
mir_free(pDestBits);
return 0;
}
SIZE textSize;
GetTextExtentPoint32(hOffscreenDC, lpString, nCount, &textSize);
LPCTSTR lpWorkString = lpString;
BOOL bNeedFreeWorkString = FALSE;
// if we need to cut the text with ellipsis
if ((format & DT_END_ELLIPSIS) && textSize.cx > workRectWidth) {
// Calc geometric width of ellipsis
SIZE szEllipsis;
GetTextExtentPoint32A(hOffscreenDC, "...", 3, &szEllipsis);
szEllipsis.cx++; // CORRECTION: some width correction
// Calc count of visible chars
int visibleCharCount = nCount;
if (workRectWidth > szEllipsis.cx)
GetTextExtentExPoint(hOffscreenDC, lpString, nCount, workRectWidth - szEllipsis.cx, &visibleCharCount, NULL, &textSize);
else
GetTextExtentExPoint(hOffscreenDC, lpString, nCount, 0, &visibleCharCount, NULL, &textSize);
// replace end of string by elipsis
bNeedFreeWorkString = TRUE;
lpWorkString = (TCHAR*)malloc((visibleCharCount + 4) * sizeof(TCHAR));
memcpy((void*)lpWorkString, lpString, visibleCharCount * sizeof(TCHAR));
memcpy((void*)(lpWorkString + visibleCharCount), _T("..."), 4 * sizeof(TCHAR)); // 3 + 1
nCount = visibleCharCount + 3;
}
// Calc sizes and offsets
textSize.cx += 2; // CORRECTION: for italic
int drx = 0; // x-axis offset of draw point
if (workRectWidth > textSize.cx) {
if (format & (DT_RIGHT | DT_RTLREADING))
drx = workRectWidth - textSize.cx;
else if (format & DT_CENTER)
drx = (workRectWidth - textSize.cx) >> 1;
}
else textSize.cx = workRectWidth;
int dry = 0; // y-axis offset of draw point
if (workRectHeight > textSize.cy) {
if (format & DT_BOTTOM)
dry = workRectHeight - textSize.cy;
else if (format & DT_VCENTER)
dry = (workRectHeight - textSize.cy) >> 1;
}
else textSize.cy = workRectHeight;
textSize.cx += 4; // CORRECTION: for effects ???
textSize.cy += 4; // CORRECTION: for effects ???
if (textSize.cx > 0 && textSize.cy > 0) { // Ok we need to paint
// probably here are mess ofscreen and temp buff dc
//Create bitmap image for offscreen
BYTE *bits = NULL;
HBITMAP hbmp = ske_CreateDIB32Point(textSize.cx, textSize.cy, (void**)&bits);
if (bits != NULL) {
HBITMAP holdbmp = (HBITMAP)SelectObject(hOffscreenDC, hbmp);
//Create buffer bitmap image for temp text
BYTE *bufbits = NULL;
HBITMAP bufbmp = ske_CreateDIB32Point(textSize.cx, textSize.cy, (void**)&bufbits);
if (bufbits != NULL) {
HDC bufDC = CreateCompatibleDC(hDC);
HBITMAP bufoldbmp = (HBITMAP)SelectObject(bufDC, bufbmp);
HFONT hOldBufFont = (HFONT)SelectObject(bufDC, hFont);
SetBkColor(bufDC, RGB(0, 0, 0));
SetTextColor(bufDC, RGB(255, 255, 255));
// Copy from destination to temp buffer
BitBlt(hOffscreenDC, 0, 0, textSize.cx, textSize.cy, hDC, workRect.left + drx - 2, workRect.top + dry - 2, SRCCOPY);
//Draw text on offscreen bitmap
TextOut(bufDC, 2, 2, lpWorkString, nCount);
MODERNEFFECT effect;
if (ske_GetTextEffect(hDC, &effect))
ske_DrawTextEffect(bits, bufbits, textSize.cx, textSize.cy, &effect);
// RenderText
RECT drawRect;
drawRect.left = 0; drawRect.top = 0;
drawRect.right = textSize.cx;
drawRect.bottom = textSize.cy;
DWORD width = textSize.cx;
DWORD heigh = textSize.cy;
BYTE *pDestScanLine, *pBufScanLine, *pix, *bufpix;
BYTE al = 255 - ((BYTE)(ARGBcolor >> 24));
BYTE r = GetRValue(ARGBcolor);
BYTE g = GetGValue(ARGBcolor);
BYTE b = GetBValue(ARGBcolor);
for (DWORD y = 2; y < heigh - 2; y++) {
int lineBytes = y * (width << 2);
pDestScanLine = bits + lineBytes;
pBufScanLine = bufbits + lineBytes;
for (DWORD x = 2; x < width - 2; x++) {
pix = pDestScanLine + (x << 2);
bufpix = pBufScanLine + (x << 2);
// Monochromatic
BYTE bx = gammaTbl[bufpix[0]];
BYTE gx = gammaTbl[bufpix[1]];
BYTE rx = gammaTbl[bufpix[2]];
if (al != 255) {
bx *= al / 255;
gx *= al / 255;
rx *= al / 255;
}
BYTE ax = (BYTE)(((DWORD)rx * 77 + (DWORD)gx * 151 + (DWORD)bx * 28 + 128) / 256);
if (ax) {
//Normalize components to gray
BYTE axx = 255 - ((r + g + b) >> 2); // Coefficient of grayance, more white font - more gray edges
WORD atx = ax * (255 - axx);
bx = (atx + bx * axx) / 255;
gx = (atx + gx * axx) / 255;
rx = (atx + rx * axx) / 255;
short brx = (short)((b - pix[0])*bx / 255);
short grx = (short)((g - pix[1])*gx / 255);
short rrx = (short)((r - pix[2])*rx / 255);
pix[0] += brx;
pix[1] += grx;
pix[2] += rrx;
pix[3] = (BYTE)(ax + (BYTE)(255 - ax)*pix[3] / 255);
}
}
}
// Blit to destination
BitBlt(hDC, workRect.left + drx - 2, workRect.top + dry - 2, textSize.cx, textSize.cy, hOffscreenDC, 0, 0, SRCCOPY);
//free resources
SelectObject(bufDC, bufoldbmp);
DeleteObject(bufbmp);
SelectObject(bufDC, hOldBufFont);
DeleteDC(bufDC);
}
SelectObject(hOffscreenDC, holdbmp);
DeleteObject(hbmp);
}
}
// Final cleanup
SelectObject(hOffscreenDC, hOldOffscreenFont);
DeleteDC(hOffscreenDC);
if (destHasNotDIB)
free(pDestBits);
if (bNeedFreeWorkString)
free((void*)lpWorkString);
return 0;
}
static int ske_DrawTextWithEffectWorker(HDC hdc, LPCTSTR lpString, int nCount, RECT *lpRect, UINT format, MODERNFONTEFFECT * effect)
{
if (format & DT_CALCRECT)
return DrawText(hdc, lpString, nCount, lpRect, format);
if (format & DT_RTLREADING)
SetTextAlign(hdc, TA_RTLREADING);
DWORD color = GetTextColor(hdc);
RECT r = *lpRect;
OffsetRect(&r, 1, 1);
DWORD form = format;
if (effect && effect->effectIndex)
ske_SelectTextEffect(hdc, effect->effectIndex - 1, effect->baseColour, effect->secondaryColour);
int res = ske_AlphaTextOut(hdc, lpString, nCount, lpRect, form, color);
if (effect && effect->effectIndex)
ske_ResetTextEffect(hdc);
return res;
}
INT_PTR ske_Service_DrawTextWithEffect(WPARAM wParam, LPARAM)
{
DrawTextWithEffectParam *p = (DrawTextWithEffectParam *)wParam;
if (p->cbSize != sizeof(DrawTextWithEffectParam))
return FALSE;
return ske_DrawTextWithEffectWorker(p->hdc, p->lpchText, p->cchText, p->lprc, p->dwDTFormat, p->pEffect);
}
BOOL ske_DrawText(HDC hdc, LPCTSTR lpString, int nCount, RECT *lpRect, UINT format)
{
RECT r = *lpRect;
OffsetRect(&r, 1, 1);
if (format & DT_RTLREADING)
SetTextAlign(hdc, TA_RTLREADING);
if (format & DT_CALCRECT)
return DrawText(hdc, lpString, nCount, lpRect, format);
if (format & DT_FORCENATIVERENDER || g_CluiData.fDisableSkinEngine)
return DrawText(hdc, lpString, nCount, lpRect, format & ~DT_FORCENATIVERENDER);
DWORD form = format;
DWORD color = GetTextColor(hdc);
return ske_AlphaTextOut(hdc, lpString, nCount, lpRect, form, color);
}
HICON ske_ImageList_GetIcon(HIMAGELIST himl, int i)
{
IMAGEINFO imi = { 0 };
BITMAP bm = { 0 };
if (i != -1) {
ImageList_GetImageInfo(himl, i, &imi);
GetObject(imi.hbmImage, sizeof(bm), &bm);
// stupid bug of Microsoft
// Icons bitmaps are not premultiplied
// So Imagelist_AddIcon - premultiply alpha
// But incorrect - it is possible that alpha will
// be less than color and
// ImageList_GetIcon will return overflowed colors
// TODO: Direct draw Icon from imagelist without
// extracting of icon
if (bm.bmBitsPixel == 32) {
BYTE *bits = (BYTE*)bm.bmBits;
if (!bits) {
bits = (BYTE*)malloc(bm.bmWidthBytes*bm.bmHeight);
GetBitmapBits(imi.hbmImage, bm.bmWidthBytes*bm.bmHeight, bits);
}
BYTE *bcbits = bits + (bm.bmHeight - imi.rcImage.bottom)*bm.bmWidthBytes + (imi.rcImage.left*bm.bmBitsPixel >> 3);
for (int iy = 0; iy < imi.rcImage.bottom - imi.rcImage.top; iy++) {
int x;
// Dummy microsoft fix - alpha can be less than r,g or b
// Looks like color channels in icons should be non-premultiplied with alpha
// But AddIcon store it premultiplied (incorrectly cause can be Alpha == 7F, but R,G or B == 80
// So i check that alpha is 0x7F and set it to 0x80
DWORD *c = ((DWORD*)bcbits);
for (x = 0; x < imi.rcImage.right - imi.rcImage.left; x++) {
DWORD val = *c;
BYTE a = (BYTE)((val) >> 24);
if (a != 0) {
BYTE r = (BYTE)((val & 0xFF0000) >> 16);
BYTE g = (BYTE)((val & 0xFF00) >> 8);
BYTE b = (BYTE)(val & 0xFF);
if (a < r || a < g || a < b) {
a = max(max(r, g), b);
val = a << 24 | r << 16 | g << 8 | b;
*c = val;
}
}
c++;
}
bcbits += bm.bmWidthBytes;
}
if (!bm.bmBits) {
SetBitmapBits(imi.hbmImage, bm.bmWidthBytes*bm.bmHeight, bits);
free(bits);
}
}
}
return ImageList_GetIcon(himl, i, ILD_NORMAL);
}
BOOL ske_ImageList_DrawEx(HIMAGELIST himl, int i, HDC hdcDst, int x, int y, int dx, int dy, COLORREF rgbBk, COLORREF rgbFg, UINT fStyle)
{
// the routine to directly draw icon from image list without creating icon from there - should be some faster
if (i < 0)
return FALSE;
if (g_CluiData.fDisableSkinEngine)
return ImageList_DrawEx(himl, i, hdcDst, x, y, dx, dy, rgbBk, rgbFg, fStyle);
BYTE alpha;
if (fStyle & ILD_BLEND25)
alpha = 64;
else if (fStyle & ILD_BLEND50)
alpha = 128;
else
alpha = 255;
HICON hIcon = ske_ImageList_GetIcon(himl, i);
if (hIcon == NULL)
return FALSE;
ske_DrawIconEx(hdcDst, x, y, hIcon, dx ? dx : GetSystemMetrics(SM_CXSMICON), dy ? dy : GetSystemMetrics(SM_CYSMICON), 0, NULL, DI_NORMAL | (alpha << 24));
DestroyIcon(hIcon);
return TRUE;
}
static INT_PTR ske_Service_DrawIconEx(WPARAM wParam, LPARAM)
{
DrawIconFixParam *p = (DrawIconFixParam*)wParam;
if (!p)
return 0;
return ske_DrawIconEx(p->hdc, p->xLeft, p->yTop, p->hIcon, p->cxWidth, p->cyWidth, p->istepIfAniCur, p->hbrFlickerFreeDraw, p->diFlags);
}
BOOL ske_DrawIconEx(HDC hdcDst, int xLeft, int yTop, HICON hIcon, int cxWidth, int cyWidth, UINT istepIfAniCur, HBRUSH hbrFlickerFreeDraw, UINT diFlags)
{
ICONINFO ici;
BYTE alpha = (BYTE)((diFlags & 0xFF000000) >> 24);
HBITMAP tBmp = NULL;
BYTE *imbits, *imimagbits, *immaskbits;
BYTE *t1, *t2, *t3;
//lockimagelist
BYTE hasmask = FALSE, no32bit = FALSE, noMirrorMask = FALSE, hasalpha = FALSE;
alpha = alpha ? alpha : 255;
if (g_CluiData.fDisableSkinEngine && !(diFlags & 0x80))
return DrawIconEx(hdcDst, xLeft, yTop, hIcon, cxWidth, cyWidth, istepIfAniCur, hbrFlickerFreeDraw, diFlags & 0xFFFF7F);
if (!GetIconInfo(hIcon, &ici))
return 0;
BITMAP imbt;
GetObject(ici.hbmColor, sizeof(BITMAP), &imbt);
if (imbt.bmWidth*imbt.bmHeight == 0) {
DeleteObject(ici.hbmColor);
DeleteObject(ici.hbmMask);
return 0;
}
BITMAP immaskbt;
GetObject(ici.hbmMask, sizeof(BITMAP), &immaskbt);
DWORD cy = imbt.bmHeight;
if (imbt.bmBitsPixel != 32) {
no32bit = TRUE;
HDC tempDC1 = CreateCompatibleDC(hdcDst);
tBmp = ske_CreateDIB32(imbt.bmWidth, imbt.bmHeight);
if (tBmp) {
GetObject(tBmp, sizeof(BITMAP), &imbt);
HBITMAP otBmp = (HBITMAP)SelectObject(tempDC1, tBmp);
DrawIconEx(tempDC1, 0, 0, hIcon, imbt.bmWidth, imbt.bmHeight, istepIfAniCur, hbrFlickerFreeDraw, DI_IMAGE);
noMirrorMask = TRUE;
SelectObject(tempDC1, otBmp);
}
DeleteDC(tempDC1);
}
bool NoDIBImage = (imbt.bmBits == NULL);
if (NoDIBImage) {
imimagbits = (BYTE*)malloc(cy*imbt.bmWidthBytes);
GetBitmapBits(ici.hbmColor, cy*imbt.bmWidthBytes, (void*)imimagbits);
}
else imimagbits = (BYTE*)imbt.bmBits;
if (immaskbt.bmBits == NULL) {
immaskbits = (BYTE*)malloc(cy*immaskbt.bmWidthBytes);
GetBitmapBits(ici.hbmMask, cy*immaskbt.bmWidthBytes, (void*)immaskbits);
}
else immaskbits = (BYTE*)immaskbt.bmBits;
HDC imDC = CreateCompatibleDC(hdcDst);
DWORD icy = imbt.bmHeight;
DWORD cx = imbt.bmWidth;
HBITMAP imBmp = ske_CreateDIB32Point(cx, icy, (void**)&imbits);
HBITMAP oldBmp = (HBITMAP)SelectObject(imDC, imBmp);
if (imbits != NULL && imimagbits != NULL && immaskbits != NULL) {
int x, y;
int mwb = immaskbt.bmWidthBytes;
int mwb2 = imbt.bmWidthBytes;
int bottom = icy;
int right = cx;
int top = 0;
int h = icy;
for (y = top; (y < bottom) && !hasmask; y++) {
t1 = immaskbits + y*mwb;
for (x = 0; (x < mwb) && !hasmask; x++)
hasmask |= (*(t1 + x) != 0);
}
for (y = top; (y < bottom) && !hasalpha; y++) {
t1 = imimagbits + (cy - y - 1)*mwb2;
for (x = 0; (x < right) && !hasalpha; x++)
hasalpha |= (*(t1 + (x << 2) + 3) != 0);
}
for (y = 0; y < (int)icy; y++) {
t1 = imimagbits + (h - y - 1 - top)*mwb2;
t2 = imbits + (!no32bit ? y : (icy - y - 1))*mwb2;
t3 = immaskbits + (noMirrorMask ? y : (h - y - 1 - top))*mwb;
for (x = 0; x < right; x++) {
BYTE mask = 0;
BYTE a = 0;
DWORD *src = (DWORD*)(t1 + (x << 2));
DWORD *dest = (DWORD*)(t2 + (x << 2));
if (hasalpha && !hasmask)
a = ((BYTE*)src)[3];
else {
mask = ((1 << (7 - x % 8))&(*(t3 + (x >> 3)))) != 0;
if (mask) {
if (!hasalpha) {
*dest = 0;
continue;
}
if (((BYTE*)src)[3]>0)
a = ((BYTE*)src)[3];
else
a = 0;
}
else if (hasalpha || hasmask)
a = (((BYTE*)src)[3] > 0 ? ((BYTE*)src)[3] : 255);
else if (!hasalpha && !hasmask)
a = 255;
else { *dest = 0; continue; }
}
if (a > 0) {
((BYTE*)dest)[3] = a;
((BYTE*)dest)[0] = ((BYTE*)src)[0] * a / 255;
((BYTE*)dest)[1] = ((BYTE*)src)[1] * a / 255;
((BYTE*)dest)[2] = ((BYTE*)src)[2] * a / 255;
}
else *dest = 0;
}
}
}
BLENDFUNCTION bf = { AC_SRC_OVER, diFlags & 128, alpha, AC_SRC_ALPHA };
ske_AlphaBlend(hdcDst, xLeft, yTop, cxWidth, cyWidth, imDC, 0, 0, cx, icy, bf);
if (immaskbt.bmBits == NULL) free(immaskbits);
if (imbt.bmBits == NULL) free(imimagbits);
SelectObject(imDC, oldBmp);
DeleteObject(imBmp);
if (no32bit)DeleteObject(tBmp);
DeleteObject(ici.hbmColor);
DeleteObject(ici.hbmMask);
SelectObject(imDC, GetStockObject(DEFAULT_GUI_FONT));
DeleteDC(imDC);
return 1;
}
int ske_PrepareImageButDontUpdateIt(RECT *r)
{
if (!g_CluiData.fLayered)
return ske_ReCreateBackImage(FALSE, r);
mutex_bLockUpdate = 1;
ske_DrawNonFramedObjects(TRUE, r);
ske_ValidateFrameImageProc(r);
mutex_bLockUpdate = 0;
return 0;
}
int ske_RedrawCompleteWindow()
{
if (g_CluiData.fLayered) {
ske_DrawNonFramedObjects(TRUE, 0);
CallService(MS_SKINENG_INVALIDATEFRAMEIMAGE, 0, 0);
}
else RedrawWindow(pcli->hwndContactList, NULL, NULL, RDW_ALLCHILDREN | RDW_ERASE | RDW_INVALIDATE | RDW_FRAME);
return 0;
}
// Request to repaint frame or change/drop callback data
// wParam = hWnd of called frame
// lParam = pointer to sPaintRequest (or NULL to redraw all)
// return 2 - already queued, data updated, 1-have been queued, 0 - failure
static INT_PTR ske_Service_UpdateFrameImage(WPARAM wParam, LPARAM) // Immideately recall paint routines for frame and refresh image
{
if (MirandaLoading())
return 0;
RECT wnd;
bool NoCancelPost = false;
bool IsAnyQueued = false;
if (!g_CluiData.mutexOnEdgeSizing)
GetWindowRect(pcli->hwndContactList, &wnd);
else
wnd = g_rcEdgeSizingRect;
if (!g_CluiData.fLayered) {
RedrawWindow((HWND)wParam, NULL, NULL, RDW_UPDATENOW | RDW_ERASE | RDW_INVALIDATE | RDW_FRAME);
return 0;
}
if (g_pCachedWindow == NULL) ske_ValidateFrameImageProc(&wnd);
else if (g_pCachedWindow->Width != wnd.right - wnd.left || g_pCachedWindow->Height != wnd.bottom - wnd.top) ske_ValidateFrameImageProc(&wnd);
else if (wParam == 0) ske_ValidateFrameImageProc(&wnd);
else { // all Ok Update Single Frame
// TO BE LOCKED OR PROXIED
FRAMEWND *frm = FindFrameByItsHWND((HWND)wParam);
if (!frm)
ske_ValidateFrameImageProc(&wnd);
// Validate frame, update window image and remove it from queue
else {
if (frm->UpdateRgn) {
DeleteObject(frm->UpdateRgn);
frm->UpdateRgn = 0;
}
ske_ValidateSingleFrameImage(frm, 0);
ske_UpdateWindowImage();
NoCancelPost = 1;
//-- Remove frame from queue
if (flag_bUpdateQueued) {
frm->bQueued = 0;
for (int i = 0; i < g_nFramesCount; i++)
if (IsAnyQueued |= g_pfwFrames[i].bQueued)
break;
}
}
}
if ((!NoCancelPost || !IsAnyQueued) && flag_bUpdateQueued) { // no any queued updating cancel post or need to cancel post
flag_bUpdateQueued = 0;
g_flag_bPostWasCanceled = 1;
}
return 1;
}
static INT_PTR ske_Service_InvalidateFrameImage(WPARAM wParam, LPARAM lParam) // Post request for updating
{
if (MirandaLoading()) return 0;
if (wParam) {
FRAMEWND *frm = FindFrameByItsHWND((HWND)wParam);
sPaintRequest *pr = (sPaintRequest*)lParam;
if (!g_CluiData.fLayered || (frm && frm->floating))
return InvalidateRect((HWND)wParam, pr ? (RECT*)&(pr->rcUpdate) : NULL, FALSE);
if (frm) {
if (frm->PaintCallbackProc != NULL) {
frm->PaintData = (sPaintRequest *)pr;
frm->bQueued = 1;
if (pr) {
HRGN r2;
if (!IsRectEmpty(&pr->rcUpdate)) {
RECT rcClient;
RECT rcUpdate;
GetClientRect(frm->hWnd, &rcClient);
IntersectRect(&rcUpdate, &rcClient, &pr->rcUpdate);
if (IsRectEmpty(&rcUpdate))
return 0;
r2 = CreateRectRgn(rcUpdate.left, rcUpdate.top, rcUpdate.right, rcUpdate.bottom);
}
else {
RECT r;
GetClientRect(frm->hWnd, &r);
r2 = CreateRectRgn(r.left, r.top, r.right, r.bottom);
}
if (!frm->UpdateRgn) {
frm->UpdateRgn = CreateRectRgn(0, 0, 1, 1);
CombineRgn(frm->UpdateRgn, r2, 0, RGN_COPY);
}
else CombineRgn(frm->UpdateRgn, frm->UpdateRgn, r2, RGN_OR);
DeleteObject(r2);
}
}
}
else Sync(QueueAllFramesUpdating, true);
}
else Sync(QueueAllFramesUpdating, true);
if (!flag_bUpdateQueued || g_flag_bPostWasCanceled)
if (PostMessage(pcli->hwndContactList, UM_UPDATE, 0, 0)) {
flag_bUpdateQueued = 1;
g_flag_bPostWasCanceled = 0;
}
return 1;
}
static int ske_ValidateSingleFrameImage(FRAMEWND * Frame, BOOL SkipBkgBlitting) // Calling frame paint proc
{
if (!g_pCachedWindow) { TRACE("ske_ValidateSingleFrameImage calling without cached\n"); return 0; }
if (Frame->hWnd == (HWND)-1 && !Frame->PaintCallbackProc) { TRACE("ske_ValidateSingleFrameImage calling without FrameProc\n"); return 0; }
// if ok update image
RECT rcPaint, wnd;
RECT ru = { 0 };
int w1, h1, x1, y1;
CLUI_SizingGetWindowRect(pcli->hwndContactList, &wnd);
rcPaint = Frame->wndSize;
{
int dx, dy, bx, by;
if (g_CluiData.mutexOnEdgeSizing) {
dx = rcPaint.left - wnd.left;
dy = rcPaint.top - wnd.top;
bx = rcPaint.right - wnd.right;
by = rcPaint.bottom - wnd.bottom;
wnd = g_rcEdgeSizingRect;
rcPaint.left = wnd.left + dx;
rcPaint.top = wnd.top + dy;
rcPaint.right = wnd.right + bx;
rcPaint.bottom = wnd.bottom + by;
}
}
int w = rcPaint.right - rcPaint.left;
int h = rcPaint.bottom - rcPaint.top;
if (w <= 0 || h <= 0) {
TRACE("Frame size smaller than 0\n");
return 0;
}
int x = rcPaint.left;
int y = rcPaint.top;
HDC hdc = CreateCompatibleDC(g_pCachedWindow->hImageDC);
HBITMAP n = ske_CreateDIB32(w, h);
HBITMAP o = (HBITMAP)SelectObject(hdc, n);
if (Frame->UpdateRgn && !SkipBkgBlitting) {
GetRgnBox(Frame->UpdateRgn, &ru);
{
RECT rc;
GetClientRect(Frame->hWnd, &rc);
if (ru.top < 0) ru.top = 0;
if (ru.left < 0) ru.left = 0;
if (ru.right > rc.right) ru.right = rc.right;
if (ru.bottom > rc.bottom) ru.bottom = rc.bottom;
}
if (!IsRectEmpty(&ru)) {
x1 = ru.left;
y1 = ru.top;
w1 = ru.right - ru.left;
h1 = ru.bottom - ru.top;
}
else {
x1 = 0; y1 = 0; w1 = w; h1 = h;
}
// copy image at hdc
BitBlt(hdc, x1, y1, w1, h1, g_pCachedWindow->hBackDC, x + x1, y + y1, SRCCOPY);
Frame->PaintCallbackProc(Frame->hWnd, hdc, &ru, Frame->UpdateRgn, Frame->dwFlags, Frame->PaintData);
}
else {
RECT r;
GetClientRect(Frame->hWnd, &r);
HRGN rgnUpdate = CreateRectRgn(r.left, r.top, r.right, r.bottom);
ru = r;
if (!IsRectEmpty(&ru)) {
x1 = ru.left;
y1 = ru.top;
w1 = ru.right - ru.left;
h1 = ru.bottom - ru.top;
}
else {
x1 = 0; y1 = 0; w1 = w; h1 = h;
}
// copy image at hdc
if (SkipBkgBlitting) //image already at foreground
BitBlt(hdc, x1, y1, w1, h1, g_pCachedWindow->hImageDC, x + x1, y + y1, SRCCOPY);
else
BitBlt(hdc, x1, y1, w1, h1, g_pCachedWindow->hBackDC, x + x1, y + y1, SRCCOPY);
Frame->PaintCallbackProc(Frame->hWnd, hdc, &r, rgnUpdate, Frame->dwFlags, Frame->PaintData);
ru = r;
DeleteObject(rgnUpdate);
}
DeleteObject(Frame->UpdateRgn);
Frame->UpdateRgn = 0;
if (!IsRectEmpty(&ru)) {
x1 = ru.left;
y1 = ru.top;
w1 = ru.right - ru.left;
h1 = ru.bottom - ru.top;
}
else {
x1 = 0; y1 = 0; w1 = w; h1 = h;
}
BitBlt(g_pCachedWindow->hImageDC, x + x1, y + y1, w1, h1, hdc, x1, y1, SRCCOPY);
if (GetWindowLongPtr(Frame->hWnd, GWL_STYLE) & WS_VSCROLL) {
//Draw vertical scroll bar
//
SCROLLBARINFO si = { 0 };
si.cbSize = sizeof(SCROLLBARINFO);
GetScrollBarInfo(Frame->hWnd, OBJID_VSCROLL, &si);
RECT rLine = (si.rcScrollBar);
RECT rUpBtn = rLine;
RECT rDnBtn = rLine;
RECT rThumb = rLine;
rUpBtn.bottom = rUpBtn.top + si.dxyLineButton;
rDnBtn.top = rDnBtn.bottom - si.dxyLineButton;
rThumb.top = rLine.top + si.xyThumbTop;
rThumb.bottom = rLine.top + si.xyThumbBottom;
int dx = Frame->wndSize.right - rLine.right;
int dy = -rLine.top + Frame->wndSize.top;
OffsetRect(&rLine, dx, dy);
OffsetRect(&rUpBtn, dx, dy);
OffsetRect(&rDnBtn, dx, dy);
OffsetRect(&rThumb, dx, dy);
BitBlt(g_pCachedWindow->hImageDC, rLine.left, rLine.top, rLine.right - rLine.left, rLine.bottom - rLine.top, g_pCachedWindow->hBackDC, rLine.left, rLine.top, SRCCOPY);
char req[255];
mir_snprintf(req, _countof(req), "Main,ID=ScrollBar,Frame=%S,Part=Back", Frame->name);
SkinDrawGlyph(g_pCachedWindow->hImageDC, &rLine, &rLine, req);
mir_snprintf(req, _countof(req), "Main,ID=ScrollBar,Frame=%S,Part=Thumb", Frame->name);
SkinDrawGlyph(g_pCachedWindow->hImageDC, &rThumb, &rThumb, req);
mir_snprintf(req, _countof(req), "Main,ID=ScrollBar, Frame=%S,Part=UpLineButton", Frame->name);
SkinDrawGlyph(g_pCachedWindow->hImageDC, &rUpBtn, &rUpBtn, req);
mir_snprintf(req, _countof(req), "Main,ID=ScrollBar,Frame=%S,Part=DownLineButton", Frame->name);
SkinDrawGlyph(g_pCachedWindow->hImageDC, &rDnBtn, &rDnBtn, req);
}
SelectObject(hdc, o);
DeleteObject(n);
DeleteDC(hdc);
return 1;
}
int ske_BltBackImage(HWND destHWND, HDC destDC, RECT *BltClientRect)
{
POINT ptMainWnd = { 0 };
POINT ptChildWnd = { 0 };
RECT w = { 0 };
if (g_CluiData.fDisableSkinEngine) {
FillRect(destDC, BltClientRect, GetSysColorBrush(COLOR_3DFACE));
return 0;
}
ske_ReCreateBackImage(FALSE, NULL);
if (BltClientRect) w = *BltClientRect;
else GetClientRect(destHWND, &w);
ptChildWnd.x = w.left;
ptChildWnd.y = w.top;
ClientToScreen(destHWND, &ptChildWnd);
ClientToScreen(pcli->hwndContactList, &ptMainWnd);
//TODO if main not relative to client area
return BitBlt(destDC, w.left, w.top, (w.right - w.left), (w.bottom - w.top), g_pCachedWindow->hBackDC, (ptChildWnd.x - ptMainWnd.x), (ptChildWnd.y - ptMainWnd.y), SRCCOPY);
}
int ske_ReCreateBackImage(BOOL Erase, RECT *w)
{
RECT wnd = { 0 };
BOOL IsNewCache = 0;
if (g_CluiData.fDisableSkinEngine) return 0;
GetClientRect(pcli->hwndContactList, &wnd);
if (w) wnd = *w;
//-- Check cached.
if (g_pCachedWindow == NULL) {
//-- Create New Cache
g_pCachedWindow = (CURRWNDIMAGEDATA*)mir_calloc(sizeof(CURRWNDIMAGEDATA));
g_pCachedWindow->hScreenDC = GetDC(NULL);
g_pCachedWindow->hBackDC = CreateCompatibleDC(g_pCachedWindow->hScreenDC);
g_pCachedWindow->hImageDC = CreateCompatibleDC(g_pCachedWindow->hScreenDC);
g_pCachedWindow->Width = wnd.right - wnd.left;
g_pCachedWindow->Height = wnd.bottom - wnd.top;
if (g_pCachedWindow->Width != 0 && g_pCachedWindow->Height != 0) {
g_pCachedWindow->hImageDIB = ske_CreateDIB32Point(g_pCachedWindow->Width, g_pCachedWindow->Height, (void**)&(g_pCachedWindow->hImageDIBByte));
g_pCachedWindow->hBackDIB = ske_CreateDIB32Point(g_pCachedWindow->Width, g_pCachedWindow->Height, (void**)&(g_pCachedWindow->hBackDIBByte));
g_pCachedWindow->hImageOld = (HBITMAP)SelectObject(g_pCachedWindow->hImageDC, g_pCachedWindow->hImageDIB);
g_pCachedWindow->hBackOld = (HBITMAP)SelectObject(g_pCachedWindow->hBackDC, g_pCachedWindow->hBackDIB);
}
IsNewCache = 1;
}
if (g_pCachedWindow->Width != wnd.right - wnd.left || g_pCachedWindow->Height != wnd.bottom - wnd.top) {
HBITMAP hb1 = NULL, hb2 = NULL;
g_pCachedWindow->Width = wnd.right - wnd.left;
g_pCachedWindow->Height = wnd.bottom - wnd.top;
if (g_pCachedWindow->Width != 0 && g_pCachedWindow->Height != 0) {
hb1 = ske_CreateDIB32Point(g_pCachedWindow->Width, g_pCachedWindow->Height, (void**)&(g_pCachedWindow->hImageDIBByte));
hb2 = ske_CreateDIB32Point(g_pCachedWindow->Width, g_pCachedWindow->Height, (void**)&(g_pCachedWindow->hBackDIBByte));
SelectObject(g_pCachedWindow->hImageDC, hb1);
SelectObject(g_pCachedWindow->hBackDC, hb2);
}
else {
SelectObject(g_pCachedWindow->hImageDC, g_pCachedWindow->hImageOld);
SelectObject(g_pCachedWindow->hBackDC, g_pCachedWindow->hBackOld);
}
if (g_pCachedWindow->hImageDIB) DeleteObject(g_pCachedWindow->hImageDIB);
if (g_pCachedWindow->hBackDIB) DeleteObject(g_pCachedWindow->hBackDIB);
g_pCachedWindow->hImageDIB = hb1;
g_pCachedWindow->hBackDIB = hb2;
IsNewCache = 1;
}
if ((Erase || IsNewCache) && (g_pCachedWindow->Width != 0 && g_pCachedWindow->Height != 0)) {
HBITMAP hb2 = ske_CreateDIB32(g_pCachedWindow->Width, g_pCachedWindow->Height);
SelectObject(g_pCachedWindow->hBackDC, hb2);
DeleteObject(g_pCachedWindow->hBackDIB);
g_pCachedWindow->hBackDIB = hb2;
FillRect(g_pCachedWindow->hBackDC, &wnd, GetSysColorBrush(COLOR_BTNFACE));
SkinDrawGlyph(g_pCachedWindow->hBackDC, &wnd, &wnd, "Main,ID=Background,Opt=Non-Layered");
ske_SetRectOpaque(g_pCachedWindow->hBackDC, &wnd);
}
return 1;
}
int ske_DrawNonFramedObjects(BOOL Erase, RECT *r)
{
RECT w, wnd;
if (r) w = *r;
else CLUI_SizingGetWindowRect(pcli->hwndContactList, &w);
if (!g_CluiData.fLayered) return ske_ReCreateBackImage(FALSE, 0);
if (g_pCachedWindow == NULL)
return ske_ValidateFrameImageProc(&w);
wnd = w;
OffsetRect(&w, -w.left, -w.top);
if (Erase) {
HBITMAP hb2;
hb2 = ske_CreateDIB32(g_pCachedWindow->Width, g_pCachedWindow->Height);
SelectObject(g_pCachedWindow->hBackDC, hb2);
DeleteObject(g_pCachedWindow->hBackDIB);
g_pCachedWindow->hBackDIB = hb2;
}
SkinDrawGlyph(g_pCachedWindow->hBackDC, &w, &w, "Main,ID=Background");
//--Draw frames captions
for (int i = 0; i < g_nFramesCount; i++) {
if (g_pfwFrames[i].TitleBar.ShowTitleBar && g_pfwFrames[i].visible && !g_pfwFrames[i].floating) {
RECT rc;
SetRect(&rc, g_pfwFrames[i].wndSize.left, g_pfwFrames[i].wndSize.top - g_nTitleBarHeight - g_CluiData.nGapBetweenTitlebar, g_pfwFrames[i].wndSize.right, g_pfwFrames[i].wndSize.top - g_CluiData.nGapBetweenTitlebar);
Sync(DrawTitleBar, g_pCachedWindow->hBackDC, &rc, g_pfwFrames[i].id);
}
}
g_mutex_bLockUpdating = 1;
flag_bJustDrawNonFramedObjects = 1;
return 0;
}
// Calling queued frame paint procs and refresh image
int ske_ValidateFrameImageProc(RECT *r)
{
RECT wnd = { 0 };
BOOL IsNewCache = 0;
BOOL IsForceAllPainting = 0;
if (r) wnd = *r;
else GetWindowRect(pcli->hwndContactList, &wnd);
if (wnd.right - wnd.left == 0 || wnd.bottom - wnd.top == 0)
return 0;
g_mutex_bLockUpdating = 1;
//-- Check cached.
if (g_pCachedWindow == NULL) {
//-- Create New Cache
g_pCachedWindow = (CURRWNDIMAGEDATA*)mir_calloc(sizeof(CURRWNDIMAGEDATA));
g_pCachedWindow->hScreenDC = GetDC(NULL);
g_pCachedWindow->hBackDC = CreateCompatibleDC(g_pCachedWindow->hScreenDC);
g_pCachedWindow->hImageDC = CreateCompatibleDC(g_pCachedWindow->hScreenDC);
g_pCachedWindow->Width = wnd.right - wnd.left;
g_pCachedWindow->Height = wnd.bottom - wnd.top;
g_pCachedWindow->hImageDIB = ske_CreateDIB32Point(g_pCachedWindow->Width, g_pCachedWindow->Height, (void**)&(g_pCachedWindow->hImageDIBByte));
g_pCachedWindow->hBackDIB = ske_CreateDIB32Point(g_pCachedWindow->Width, g_pCachedWindow->Height, (void**)&(g_pCachedWindow->hBackDIBByte));
g_pCachedWindow->hImageOld = (HBITMAP)SelectObject(g_pCachedWindow->hImageDC, g_pCachedWindow->hImageDIB);
g_pCachedWindow->hBackOld = (HBITMAP)SelectObject(g_pCachedWindow->hBackDC, g_pCachedWindow->hBackDIB);
IsNewCache = 1;
}
if (g_pCachedWindow->Width != wnd.right - wnd.left || g_pCachedWindow->Height != wnd.bottom - wnd.top) {
HBITMAP hb1, hb2;
g_pCachedWindow->Width = wnd.right - wnd.left;
g_pCachedWindow->Height = wnd.bottom - wnd.top;
hb1 = ske_CreateDIB32Point(g_pCachedWindow->Width, g_pCachedWindow->Height, (void**)&(g_pCachedWindow->hImageDIBByte));
hb2 = ske_CreateDIB32Point(g_pCachedWindow->Width, g_pCachedWindow->Height, (void**)&(g_pCachedWindow->hBackDIBByte));
SelectObject(g_pCachedWindow->hImageDC, hb1);
SelectObject(g_pCachedWindow->hBackDC, hb2);
DeleteObject(g_pCachedWindow->hImageDIB);
DeleteObject(g_pCachedWindow->hBackDIB);
g_pCachedWindow->hImageDIB = hb1;
g_pCachedWindow->hBackDIB = hb2;
IsNewCache = 1;
}
if (IsNewCache) {
ske_DrawNonFramedObjects(0, &wnd);
IsForceAllPainting = 1;
}
if (flag_bJustDrawNonFramedObjects) {
IsForceAllPainting = 1;
flag_bJustDrawNonFramedObjects = 0;
}
if (IsForceAllPainting) {
BitBlt(g_pCachedWindow->hImageDC, 0, 0, g_pCachedWindow->Width, g_pCachedWindow->Height, g_pCachedWindow->hBackDC, 0, 0, SRCCOPY);
Sync(QueueAllFramesUpdating, true);
}
//-- Validating frames
for (int i = 0; i < g_nFramesCount; i++)
if (g_pfwFrames[i].PaintCallbackProc && g_pfwFrames[i].visible && !g_pfwFrames[i].floating)
if (g_pfwFrames[i].bQueued || IsForceAllPainting)
ske_ValidateSingleFrameImage(&g_pfwFrames[i], IsForceAllPainting);
g_mutex_bLockUpdating = 1;
ModernSkinButtonRedrawAll();
g_mutex_bLockUpdating = 0;
if (!mutex_bLockUpdate)
ske_UpdateWindowImageRect(&wnd);
//-- Clear queue
Sync(QueueAllFramesUpdating, false);
flag_bUpdateQueued = 0;
g_flag_bPostWasCanceled = 0;
return 1;
}
int ske_UpdateWindowImage()
{
if (MirandaExiting())
return 0;
if (g_CluiData.fLayered) {
RECT r;
GetWindowRect(pcli->hwndContactList, &r);
return ske_UpdateWindowImageRect(&r);
}
else ske_ReCreateBackImage(FALSE, 0);
ske_ApplyTranslucency();
return 0;
}
int ske_UpdateWindowImageRect(RECT *r) // Update window with current image and
{
//if not validity -> ValidateImageProc
//else Update using current alpha
RECT wnd = *r;
if (!g_CluiData.fLayered) return ske_ReCreateBackImage(FALSE, 0);
if (g_pCachedWindow == NULL) return ske_ValidateFrameImageProc(&wnd);
if (g_pCachedWindow->Width != wnd.right - wnd.left || g_pCachedWindow->Height != wnd.bottom - wnd.top) return ske_ValidateFrameImageProc(&wnd);
if (g_flag_bFullRepaint) {
g_flag_bFullRepaint = 0;
return ske_ValidateFrameImageProc(&wnd);
}
ske_JustUpdateWindowImageRect(&wnd);
return 0;
}
void ske_ApplyTranslucency()
{
int IsTransparancy;
HWND hwnd = pcli->hwndContactList;
BOOL layered = (GetWindowLongPtr(hwnd, GWL_EXSTYLE) & WS_EX_LAYERED) ? TRUE : FALSE;
IsTransparancy = g_CluiData.fSmoothAnimation || g_bTransparentFlag;
if (!g_bTransparentFlag && !g_CluiData.fSmoothAnimation && g_CluiData.bCurrentAlpha != 0)
g_CluiData.bCurrentAlpha = 255;
if (!g_CluiData.fLayered && IsTransparancy) {
if (!layered)
SetWindowLongPtr(hwnd, GWL_EXSTYLE, GetWindowLongPtr(hwnd, GWL_EXSTYLE) | WS_EX_LAYERED);
SetLayeredWindowAttributes(hwnd, RGB(0, 0, 0), (BYTE)g_CluiData.bCurrentAlpha, LWA_ALPHA);
}
AniAva_RedrawAllAvatars(FALSE);
return;
}
int ske_JustUpdateWindowImage()
{
RECT r;
if (!g_CluiData.fLayered) {
ske_ApplyTranslucency();
return 0;
}
GetWindowRect(pcli->hwndContactList, &r);
return ske_JustUpdateWindowImageRect(&r);
}
// Update window image
int ske_JustUpdateWindowImageRect(RECT *rty)
{
if (!g_CluiData.fLayered) {
ske_ApplyTranslucency();
return 0;
}
if (!pcli->hwndContactList)
return 0;
RECT wnd = *rty;
RECT rect = wnd;
POINT dest = { 0 }, src = { 0 };
dest.x = rect.left;
dest.y = rect.top;
SIZE sz = { rect.right - rect.left, rect.bottom - rect.top };
if (g_CluiData.fLayered) {
if (!(GetWindowLongPtr(pcli->hwndContactList, GWL_EXSTYLE)&WS_EX_LAYERED))
SetWindowLongPtr(pcli->hwndContactList, GWL_EXSTYLE, GetWindowLongPtr(pcli->hwndContactList, GWL_EXSTYLE) | WS_EX_LAYERED);
Sync(SetAlpha, g_CluiData.bCurrentAlpha);
BLENDFUNCTION bf = { AC_SRC_OVER, 0, g_CluiData.bCurrentAlpha, AC_SRC_ALPHA };
UpdateLayeredWindow(pcli->hwndContactList, g_pCachedWindow->hScreenDC, &dest, &sz, g_pCachedWindow->hImageDC, &src, RGB(1, 1, 1), &bf, ULW_ALPHA);
g_CluiData.fAeroGlass = false;
CLUI_UpdateAeroGlass();
}
else InvalidateRect(pcli->hwndContactList, NULL, TRUE);
return 0;
}
int ske_DrawImageAt(HDC hdc, RECT *rc)
{
BLENDFUNCTION bf = { AC_SRC_OVER, 0, 255, AC_SRC_ALPHA };
BitBlt(g_pCachedWindow->hImageDC, rc->left, rc->top, rc->right - rc->left, rc->bottom - rc->top, g_pCachedWindow->hBackDC, rc->left, rc->top, SRCCOPY);
ske_AlphaBlend(g_pCachedWindow->hImageDC, rc->left, rc->top, rc->right - rc->left, rc->bottom - rc->top, hdc, 0, 0, rc->right - rc->left, rc->bottom - rc->top, bf);
if (!g_mutex_bLockUpdating)
ske_UpdateWindowImage();
return 0;
}
HBITMAP ske_GetCurrentWindowImage()
{
return g_pCachedWindow->hImageDIB;
}
/*
* Glyph text routine
*/
static DWORD ske_HexToARGB(char * Hex)
{
char buf[10] = { 0 };
char buf2[11] = { 0 };
mir_snprintf(buf, "%s\n", Hex);
if (buf[1] == 'x' || buf[1] == 'X')
mir_snprintf(buf2, _countof(buf2), "0x%s\n", buf + 2);
else
mir_snprintf(buf2, _countof(buf2), "0x%s\n", buf);
buf2[10] = '\0';
char *st;
DWORD AARRGGBB = strtoul(buf2, &st, 16);
BYTE alpha = (BYTE)((AARRGGBB & 0xFF000000) >> 24);
alpha = 255 - ((alpha == 0) ? 255 : alpha);
AARRGGBB = (alpha << 24) + ((AARRGGBB & 0x00FF0000) >> 16) + ((AARRGGBB & 0x000000FF) << 16) + (AARRGGBB & 0x0000FF00);
return AARRGGBB;
}
static TCHAR *ske_ReAppend(TCHAR *lfirst, TCHAR * lsecond, int len)
{
size_t l1 = lfirst ? mir_tstrlen(lfirst) : 0;
size_t l2 = (len ? len : (mir_tstrlen(lsecond) + 1));
TCHAR *buf = (TCHAR *)mir_alloc((l1 + l2 + 1)*sizeof(TCHAR));
if (lfirst) memmove(buf, lfirst, l1*sizeof(TCHAR));
memmove(buf + l1, lsecond, l2*sizeof(TCHAR));
mir_free(lfirst);
if (len) buf[l1 + l2] = _T('\0');
return buf;
}
TCHAR* ske_ReplaceVar(TCHAR *var)
{
if (!var) return mir_tstrdup(_T(""));
if (!mir_tstrcmpi(var, _T("Profile"))) {
char buf[MAX_PATH] = { 0 };
CallService(MS_DB_GETPROFILENAME, (WPARAM)MAX_PATH, (LPARAM)buf);
char *p = strrchr(buf, '.');
if (p) *p = 0;
mir_free(var);
return mir_a2u(buf);
}
mir_free(var);
return mir_tstrdup(_T(""));
}
TCHAR *ske_ParseText(TCHAR *stzText)
{
size_t len = mir_tstrlen(stzText);
TCHAR *result = NULL;
size_t stpos = 0, curpos = 0;
while (curpos < len) {
//1 find first %
while (curpos < len && stzText[curpos] != (TCHAR)'%')
curpos++;
if (curpos < len) { //% found
if (curpos - stpos > 0)
result = ske_ReAppend(result, stzText + stpos, int(curpos - stpos));
stpos = curpos + 1;
curpos++;
//3 find second %
while (curpos < len && stzText[curpos] != (TCHAR)'%')
curpos++;
if (curpos >= len)
break;
if (curpos - stpos > 0) {
TCHAR *var = (TCHAR *)mir_alloc((curpos - stpos + 1)*sizeof(TCHAR));
memcpy(var, stzText + stpos, (curpos - stpos)*sizeof(TCHAR));
var[curpos - stpos] = (TCHAR)'\0';
var = ske_ReplaceVar(var);
result = ske_ReAppend(result, var, 0);
mir_free(var);
}
else result = ske_ReAppend(result, _T("%"), 0);
curpos++;
stpos = curpos;
}
else {
if (curpos - stpos > 0)
result = ske_ReAppend(result, stzText + stpos, int(curpos - stpos));
break;
}
}
return result;
}
/*
* Parse text object string, find glyph object and add text to it.
* szGlyphTextID and Define string is:
* t[szGlyphTextID] = s[HostObjectID],[Left],[Top],[Right],[Bottom],[LTRBHV],[FontID],[Color1],[reservedforColor2],[Text]
*/
static void ske_AddParseTextGlyphObject(char * szGlyphTextID, char * szDefineString, SKINOBJECTSLIST *Skin)
{
char buf[255] = { 0 };
GetParamN(szDefineString, buf, sizeof(buf), 0, ',', TRUE);
if (buf[0] == 0)
return;
GLYPHTEXT *glText = (GLYPHTEXT*)mir_calloc(sizeof(GLYPHTEXT));
glText->szGlyphTextID = mir_strdup(szGlyphTextID);
glText->szObjectName = mir_strdup(buf);
glText->iLeft = atoi(GetParamN(szDefineString, buf, sizeof(buf), 1, ',', TRUE));
glText->iTop = atoi(GetParamN(szDefineString, buf, sizeof(buf), 2, ',', TRUE));
glText->iRight = atoi(GetParamN(szDefineString, buf, sizeof(buf), 3, ',', TRUE));
glText->iBottom = atoi(GetParamN(szDefineString, buf, sizeof(buf), 4, ',', TRUE));
{
memset(buf, 0, 6);
GetParamN(szDefineString, buf, sizeof(buf), 5, ',', TRUE);
buf[0] &= 95; buf[1] &= 95; buf[2] &= 95; buf[3] &= 95; buf[4] &= 95; buf[5] &= 95; //to uppercase: &01011111 (0-95)
glText->RelativeFlags =
(buf[0] == 'C' ? 1 : ((buf[0] == 'R') ? 2 : 0)) //[BC][RC][BC][RC] --- Left relative
| (buf[1] == 'C' ? 4 : ((buf[1] == 'B') ? 8 : 0)) // | | |--------- Top relative
| (buf[2] == 'C' ? 16 : ((buf[2] == 'R') ? 32 : 0)) // | |--------------Right relative
| (buf[3] == 'C' ? 64 : ((buf[3] == 'B') ? 128 : 0)); // |------------------Bottom relative
glText->dwFlags = (buf[4] == 'C' ? DT_CENTER : ((buf[4] == 'R') ? DT_RIGHT : DT_LEFT))
| (buf[5] == 'C' ? DT_VCENTER : ((buf[5] == 'B') ? DT_BOTTOM : DT_TOP));
}
glText->szFontID = mir_strdup(GetParamN(szDefineString, buf, sizeof(buf), 6, ',', TRUE));
glText->dwColor = ske_HexToARGB(GetParamN(szDefineString, buf, sizeof(buf), 7, ',', TRUE));
glText->dwShadow = ske_HexToARGB(GetParamN(szDefineString, buf, sizeof(buf), 8, ',', TRUE));
glText->stValueText = mir_a2u(GetParamN(szDefineString, buf, sizeof(buf), 9, ',', TRUE));
glText->stText = ske_ParseText(glText->stValueText);
if (!Skin->pTextList)
Skin->pTextList = List_Create(0, 1);
List_InsertPtr(Skin->pTextList, glText);
}
/*
* Parse font definition string.
* szGlyphTextID and Define string is:
* f[szFontID] = s[FontTypefaceName],[size],[BIU]
*/
static void ske_AddParseSkinFont(char * szFontID, char * szDefineString)
{
SKINFONT *sf = (SKINFONT*)mir_calloc(sizeof(SKINFONT));
if (!sf)
return;
LOGFONTA logfont = { 0 };
logfont.lfCharSet = DEFAULT_CHARSET;
logfont.lfOutPrecision = OUT_DEFAULT_PRECIS;
logfont.lfClipPrecision = CLIP_DEFAULT_PRECIS;
logfont.lfQuality = DEFAULT_QUALITY;
logfont.lfPitchAndFamily = DEFAULT_PITCH | FF_DONTCARE;
char buf[255];
mir_strncpy(logfont.lfFaceName, GetParamN(szDefineString, buf, sizeof(buf), 0, ',', TRUE), _countof(logfont.lfFaceName));
logfont.lfHeight = atoi(GetParamN(szDefineString, buf, sizeof(buf), 1, ',', TRUE));
if (logfont.lfHeight < 0) {
HDC hdc = CreateCompatibleDC(NULL);
logfont.lfHeight = (long)-MulDiv(logfont.lfHeight, GetDeviceCaps(hdc, LOGPIXELSY), 72);
DeleteDC(hdc);
}
logfont.lfHeight = -logfont.lfHeight;
GetParamN(szDefineString, buf, sizeof(buf), 2, ',', TRUE);
buf[0] &= 95; buf[1] &= 95; buf[2] &= 95;
logfont.lfWeight = (buf[0] == 'B') ? FW_BOLD : FW_NORMAL;
logfont.lfItalic = (buf[1] == 'I') ? 1 : 0;
logfont.lfUnderline = (buf[2] == 'U') ? 1 : 0;
sf->hFont = CreateFontIndirectA(&logfont);
if (sf->hFont) {
sf->szFontID = mir_strdup(szFontID);
if (!gl_plSkinFonts)
gl_plSkinFonts = List_Create(0, 1);
if (gl_plSkinFonts)
List_Insert(gl_plSkinFonts, sf, gl_plSkinFonts->realCount);
else
mir_free(sf);
}
else mir_free(sf);
}
/*
* ske_CheckHasAlfaChannel - checks if image has at least one BYTE in alpha chennel
* that is not a 0. (is image real 32 bit or just 24 bit)
*/
static BOOL ske_CheckHasAlfaChannel(BYTE * from, int widthByte, int height)
{
DWORD *pt = (DWORD*)from;
for (int j = 0; j < height; j++) {
BYTE *add = (BYTE*)pt + widthByte;
while (pt < (DWORD*)add) {
if ((*pt & 0xFF000000) != 0)
return TRUE;
pt++;
}
pt = (DWORD*)(from + widthByte*j);
}
return FALSE;
}
/*
* ske_CheckIconHasMask - checks if mask image has at least one that is not a 0.
* Not sure is ir required or not
*/
static BOOL ske_CheckIconHasMask(BYTE * from)
{
for (int i = 0; i < 16 * 16 / 8; i++)
if (from[i] != 0)
return TRUE;
return FALSE;
}
/*
* ske_GetMaskBit - return value of apropriate mask bit in line at x position
*/
static BOOL ske_GetMaskBit(BYTE *line, int x)
{
return ((*(line + (x >> 3)))&(0x01 << (7 - (x & 0x07)))) != 0;
}
/*
* ske_Blend - alpha ske_Blend ARGB values of 2 pixels. X1 - underlaying,
* X2 - overlaying points.
*/
static DWORD ske_Blend(DWORD X1, DWORD X2, BYTE alpha)
{
BYTE a1 = (BYTE)(X1 >> 24);
BYTE a2 = (BYTE)(((X2 >> 24)*alpha) >> 8);
BYTE r1 = (BYTE)(X1 >> 16);
BYTE r2 = (BYTE)(X2 >> 16);
BYTE g1 = (BYTE)(X1 >> 8);
BYTE g2 = (BYTE)(X2 >> 8);
BYTE b1 = (BYTE)(X1);
BYTE b2 = (BYTE)(X2);
BYTE a_1 = ~a1;
BYTE a_2 = ~a2;
WORD am = (WORD)a1*a_2;
/* it is possible to use >>8 instead of /255 but it is require additional
* checking of alphavalues
*/
WORD ar = a1 + (((WORD)a_1*a2) / 255);
// if a2 more than 0 than result should be more
// or equal (if a1 == 0) to a2, else in combination
// with mask we can get here black points
ar = (a2 > ar) ? a2 : ar;
if (ar == 0) return 0;
WORD arm = ar * 255;
WORD rr = (((WORD)r1*am + (WORD)r2*a2 * 255)) / arm;
WORD gr = (((WORD)g1*am + (WORD)g2*a2 * 255)) / arm;
WORD br = (((WORD)b1*am + (WORD)b2*a2 * 255)) / arm;
return (ar << 24) | (rr << 16) | (gr << 8) | br;
}
/*
* CreateJoinedIcon - creates new icon by drawing hTop over hBottom.
*/
HICON ske_CreateJoinedIcon(HICON hBottom, HICON hTop, BYTE alpha)
{
ICONINFO iNew = { 0 };
ICONINFO iciBottom = { 0 };
ICONINFO iciTop = { 0 };
BITMAP bmp_top = { 0 };
BITMAP bmp_top_mask = { 0 };
BITMAP bmp_bottom = { 0 };
BITMAP bmp_bottom_mask = { 0 };
HDC tempDC = CreateCompatibleDC(NULL);
BYTE *ptPixels;
HBITMAP nImage = ske_CreateDIB32Point(16, 16, (void**)&ptPixels);
HBITMAP oImage = (HBITMAP)SelectObject(tempDC, nImage);
GetIconInfo(hBottom, &iciBottom);
GetObject(iciBottom.hbmColor, sizeof(BITMAP), &bmp_bottom);
GetObject(iciBottom.hbmMask, sizeof(BITMAP), &bmp_bottom_mask);
GetIconInfo(hTop, &iciTop);
GetObject(iciTop.hbmColor, sizeof(BITMAP), &bmp_top);
GetObject(iciTop.hbmMask, sizeof(BITMAP), &bmp_top_mask);
if (bmp_bottom.bmBitsPixel == 32 && bmp_top.bmBitsPixel == 32) {
BYTE *BottomBuffer, *TopBuffer, *BottomMaskBuffer, *TopMaskBuffer;
BYTE *bb, *tb, *bmb, *tmb;
BYTE *db = ptPixels;
int vstep_d = 16 * 4;
int vstep_b = bmp_bottom.bmWidthBytes;
int vstep_t = bmp_top.bmWidthBytes;
int vstep_bm = bmp_bottom_mask.bmWidthBytes;
int vstep_tm = bmp_top_mask.bmWidthBytes;
alpha = alpha ? alpha : 255;
if (bmp_bottom.bmBits) bb = BottomBuffer = (BYTE*)bmp_bottom.bmBits;
else {
BottomBuffer = (BYTE*)malloc(bmp_bottom.bmHeight*bmp_bottom.bmWidthBytes);
GetBitmapBits(iciBottom.hbmColor, bmp_bottom.bmHeight*bmp_bottom.bmWidthBytes, BottomBuffer);
bb = BottomBuffer + vstep_b*(bmp_bottom.bmHeight - 1);
vstep_b = -vstep_b;
}
if (bmp_top.bmBits) tb = TopBuffer = (BYTE*)bmp_top.bmBits;
else {
TopBuffer = (BYTE*)malloc(bmp_top.bmHeight*bmp_top.bmWidthBytes);
GetBitmapBits(iciTop.hbmColor, bmp_top.bmHeight*bmp_top.bmWidthBytes, TopBuffer);
tb = TopBuffer + vstep_t*(bmp_top.bmHeight - 1);
vstep_t = -vstep_t;
}
if (bmp_bottom_mask.bmBits) {
BottomMaskBuffer = (BYTE*)bmp_bottom_mask.bmBits;
bmb = BottomMaskBuffer;
}
else {
BottomMaskBuffer = (BYTE*)malloc(bmp_bottom_mask.bmHeight*bmp_bottom_mask.bmWidthBytes);
GetBitmapBits(iciBottom.hbmMask, bmp_bottom_mask.bmHeight*bmp_bottom_mask.bmWidthBytes, BottomMaskBuffer);
bmb = BottomMaskBuffer + vstep_bm*(bmp_bottom_mask.bmHeight - 1);
vstep_bm = -vstep_bm;
}
if (bmp_top_mask.bmBits) {
TopMaskBuffer = (BYTE*)bmp_top_mask.bmBits;
tmb = TopMaskBuffer;
}
else {
TopMaskBuffer = (BYTE*)malloc(bmp_top_mask.bmHeight*bmp_top_mask.bmWidthBytes);
GetBitmapBits(iciTop.hbmMask, bmp_top_mask.bmHeight*bmp_top_mask.bmWidthBytes, TopMaskBuffer);
tmb = TopMaskBuffer + vstep_tm*(bmp_top_mask.bmHeight - 1);
vstep_tm = -vstep_tm;
}
BOOL topHasAlpha = ske_CheckHasAlfaChannel(TopBuffer, bmp_top.bmWidthBytes, bmp_top.bmHeight);
BOOL bottomHasAlpha = ske_CheckHasAlfaChannel(BottomBuffer, bmp_bottom.bmWidthBytes, bmp_bottom.bmHeight);
BOOL topHasMask = ske_CheckIconHasMask(TopMaskBuffer);
BOOL bottomHasMask = ske_CheckIconHasMask(BottomMaskBuffer);
for (int y = 0; y < 16; y++) {
for (int x = 0; x < 16; x++) {
BOOL mask_b = ske_GetMaskBit(bmb, x);
BOOL mask_t = ske_GetMaskBit(tmb, x);
DWORD bottom_d = ((DWORD*)bb)[x];
DWORD top_d = ((DWORD*)tb)[x];
if (topHasMask) {
if (mask_t == 1 && !topHasAlpha) top_d &= 0xFFFFFF;
else if (!topHasAlpha) top_d |= 0xFF000000;
}
if (bottomHasMask) {
if (mask_b == 1 && !bottomHasAlpha) bottom_d &= 0xFFFFFF;
else if (!bottomHasAlpha) bottom_d |= 0xFF000000;
}
((DWORD*)db)[x] = ske_Blend(bottom_d, top_d, alpha);
}
bb += vstep_b;
tb += vstep_t;
bmb += vstep_bm;
tmb += vstep_tm;
db += vstep_d;
}
if (!bmp_bottom.bmBits) free(BottomBuffer);
if (!bmp_top.bmBits) free(TopBuffer);
if (!bmp_bottom_mask.bmBits) free(BottomMaskBuffer);
if (!bmp_top_mask.bmBits) free(TopMaskBuffer);
}
else {
ske_DrawIconEx(tempDC, 0, 0, hBottom, 16, 16, 0, NULL, DI_NORMAL);
ske_DrawIconEx(tempDC, 0, 0, hTop, 16, 16, 0, NULL, DI_NORMAL | (alpha << 24));
}
DeleteObject(iciBottom.hbmColor);
DeleteObject(iciTop.hbmColor);
DeleteObject(iciBottom.hbmMask);
DeleteObject(iciTop.hbmMask);
SelectObject(tempDC, oImage);
DeleteDC(tempDC);
BYTE p[32] = { 0 };
HBITMAP nMask = CreateBitmap(16, 16, 1, 1, (void*)&p);
{
HDC tempDC2 = CreateCompatibleDC(NULL);
HDC tempDC3 = CreateCompatibleDC(NULL);
HBITMAP hbm = CreateCompatibleBitmap(tempDC3, 16, 16);
HBITMAP obmp = (HBITMAP)SelectObject(tempDC2, nMask);
HBITMAP obmp2 = (HBITMAP)SelectObject(tempDC3, hbm);
DrawIconEx(tempDC2, 0, 0, hBottom, 16, 16, 0, NULL, DI_MASK);
DrawIconEx(tempDC3, 0, 0, hTop, 16, 16, 0, NULL, DI_MASK);
BitBlt(tempDC2, 0, 0, 16, 16, tempDC3, 0, 0, SRCAND);
SelectObject(tempDC2, obmp);
SelectObject(tempDC3, obmp2);
DeleteObject(hbm);
DeleteDC(tempDC2);
DeleteDC(tempDC3);
}
iNew.fIcon = TRUE;
iNew.hbmColor = nImage;
iNew.hbmMask = nMask;
HICON res = CreateIconIndirect(&iNew);
DeleteObject(nImage);
DeleteObject(nMask);
return res;
}
#define NEWJOINEDSTR(destination, first, separator, last) \
destination = (char*)alloca(mir_strlen(first)+mir_strlen(separator)+mir_strlen(last)+1); \
if (destination) { \
*destination = '\0'; \
mir_strcat(destination,first); \
mir_strcat(destination,separator); \
mir_strcat(destination,last); \
}
#define SKINSETSECTION "SkinnedSettings"
BOOL SkinDBGetContactSetting(MCONTACT hContact, const char *szSection, const char *szKey, DBVARIANT *retdbv, BOOL *bSkinned)
{
if (!hContact) { //only for not contact settings
char *szSkinKey;
NEWJOINEDSTR(szSkinKey, szSection, "@", szKey);
if (!db_get(hContact, SKINSETSECTION, szSkinKey, retdbv)) {
if (bSkinned) *bSkinned = TRUE;
return FALSE;
}
}
// not skinned
if (bSkinned) bSkinned = FALSE;
return db_get(hContact, szSection, szKey, retdbv);
}
BYTE SkinDBGetContactSettingByte(MCONTACT hContact, const char *szSection, const char *szKey, BYTE bDefault)
{
DBVARIANT dbv = { 0 };
BOOL bSkinned = FALSE;
if (!SkinDBGetContactSetting(hContact, szSection, szKey, &dbv, &bSkinned)) {
if (dbv.type == DBVT_BYTE) {
BYTE retVal = dbv.bVal;
db_free(&dbv);
return retVal;
}
else {
db_free(&dbv);
if (!bSkinned)
return db_get_b(hContact, szSection, szKey, bDefault);
}
}
return bDefault;
}
WORD SkinDBGetContactSettingWord(MCONTACT hContact, const char *szSection, const char *szKey, WORD wDefault)
{
BOOL bSkinned = FALSE;
DBVARIANT dbv = { 0 };
if (!SkinDBGetContactSetting(hContact, szSection, szKey, &dbv, &bSkinned)) {
if (dbv.type == DBVT_WORD) {
WORD retVal = dbv.wVal;
db_free(&dbv);
return retVal;
}
db_free(&dbv);
if (!bSkinned)
return db_get_w(hContact, szSection, szKey, wDefault);
}
return wDefault;
}
DWORD SkinDBGetContactSettingDword(MCONTACT hContact, const char *szSection, const char *szKey, DWORD dwDefault)
{
DBVARIANT dbv = { 0 };
BOOL bSkinned = FALSE;
if (!SkinDBGetContactSetting(hContact, szSection, szKey, &dbv, &bSkinned)) {
if (dbv.type == DBVT_DWORD) {
DWORD retVal = dbv.dVal;
db_free(&dbv);
return retVal;
}
db_free(&dbv);
if (!bSkinned)
return db_get_dw(hContact, szSection, szKey, dwDefault);
}
return dwDefault;
}
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