Leaked source code of windows server 2003
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#include "stdafx.h"
#include "global.h"
#include "pbrush.h"
#include "pbrusdoc.h"
#include "pbrusfrm.h"
#include "pbrusvw.h"
#include "minifwnd.h"
#include "bmobject.h"
#include "imgsuprt.h"
#include "imgwnd.h"
#include "imgwell.h"
#include "imgtools.h"
#include "t_fhsel.h"
#include "toolbox.h"
#include "imgbrush.h"
#include "imgdlgs.h"
#ifdef _DEBUG
#undef THIS_FILE
static CHAR BASED_CODE THIS_FILE[] = __FILE__;
#endif // _DEBUG
#include "memtrace.h"
BOOL g_bUseTrans = FALSE;
BOOL g_bCustomBrush = FALSE;
BOOL fDraggingBrush = FALSE;
IMG* pImgCur = NULL;
#define NUM_DEF_COLORS 28
extern COLORREF colorColorsDef[NUM_DEF_COLORS];
COLORREF crLeft = 0;
COLORREF crRight = RGB( 0xff, 0xff, 0xff );
COLORREF crTrans = TRANS_COLOR_NONE; // transparent color
int theLeft;
int theRight;
int theTrans;
int wCombineMode;
HDC hRubberDC;
HBITMAP hRubberBM;
int cxRubberWidth;
int cyRubberHeight;
IMG* pRubberImg;
BOOL EnsureUndoSize(IMG* pImg);
static int cxUndoWidth, cyUndoHeight;
static BYTE cUndoPlanes, cUndoBitCount;
HBITMAP g_hUndoImgBitmap = NULL;
HPALETTE g_hUndoPalette = NULL;
COLORREF std2Colors [] =
{
RGB(000, 000, 000), // 0 - black
RGB(255, 255, 255) // 1 - white
};
COLORREF std16Colors [] =
{
RGB( 0, 0, 0), // Black
RGB(128, 0, 0), // Dark Red
RGB( 0, 128, 0), // Dark Green
RGB(128, 128, 0), // Pea Green
RGB( 0, 0, 128), // Dark Blue
RGB(128, 0, 128), // Lavender
RGB( 0, 128, 128), // Slate
RGB(192, 192, 192), // Light Gray
RGB(128, 128, 128), // Dark Gray
RGB(255, 0, 0), // Bright Red
RGB( 0, 255, 0), // Bright Green
RGB(255, 255, 0), // Yellow
RGB( 0, 0, 255), // Bright Blue
RGB(255, 0, 255), // Magenta
RGB( 0, 255, 255), // Cyan
RGB(255, 255, 255) // 1 - white
};
/***************************************************************************/
IMG* CreateImg(int cxWidth, int cyHeight, int cPlanes, int cBitCount, int cXPelsPerMeter, int cYPelsPerMeter, BOOL bPalette )
{
IMG* pimg = NULL;
CTempBitmap bmNew;
HBITMAP hbmOld = NULL;
CClientDC dcScreen(NULL);
if (! cPlanes )
{
cPlanes = dcScreen.GetDeviceCaps( PLANES );
}
if (! cBitCount)
{
cBitCount = dcScreen.GetDeviceCaps( BITSPIXEL );
}
CDC cDC;
cDC.CreateCompatibleDC( &dcScreen );
if (!cDC.m_hDC)
{
return NULL;
}
if (cPlanes * cBitCount > 1)
{
cDC.SetStretchBltMode(HALFTONE);
}
// Set these to 0 to not create a bitmap
if (cxWidth && cyHeight)
{
BOOL bMono = (cPlanes == 1 && cBitCount == 1);
COLORREF* pcrColors = NULL;
int nColors = 0;
cBitCount *= cPlanes;
if (cBitCount <= 1)
{
cBitCount = 1;
pcrColors = std2Colors;
nColors = 2;
}
else if (cBitCount <= 4)
{
cBitCount = 4;
pcrColors = std16Colors;
nColors = 16;
}
else if (cBitCount <= 8)
{
cBitCount = 8;
pcrColors = colorColorsDef;
nColors = NUM_DEF_COLORS;
}
else
{
// I don't want to deal with 15 or 16 bit images
cBitCount = 24;
}
HBITMAP hbmNew = NULL;
if (cBitCount == 4)
{
// Just create a DDB if in 16 colors
hbmNew = CreateCompatibleBitmap( dcScreen.m_hDC, cxWidth, cyHeight);
}
else
{
struct BMHDR
{
BITMAPINFOHEADER bmInfo;
RGBQUAD rgb[256];
} DIBHdr =
{
sizeof(BITMAPINFOHEADER),
cxWidth,
cyHeight,
1,
(WORD)cBitCount,
BI_RGB,
0,
0,
nColors,
nColors,
} ;
if (cBitCount <= 8)
{
RGBQUAD* prgb;
COLORREF* pcr;
int n;
pcr = pcrColors;
prgb = DIBHdr.rgb;
for (n=nColors; n>0; --n, ++pcr, ++prgb)
{
prgb->rgbRed = GetRValue(*pcr);
prgb->rgbGreen = GetGValue(*pcr);
prgb->rgbBlue = GetBValue(*pcr);
prgb->rgbReserved = 0;
}
}
LPVOID lpNewBits;
hbmNew = CreateDIBSection(cDC.m_hDC, (LPBITMAPINFO)&DIBHdr,
DIB_RGB_COLORS, &lpNewBits, NULL, 0);
}
if (!hbmNew)
{
return NULL;
}
bmNew.Attach(hbmNew);
}
TRY
{
pimg = new IMG;
}
CATCH (CMemoryException, e)
{
TRACE( TEXT("CreateImg: Can't alloc an IMG\n") );
return NULL;
}
END_CATCH
pimg->cxWidth = cxWidth;
pimg->cyHeight = cyHeight;
pimg->cPlanes = cPlanes;
pimg->cBitCount = cBitCount;
pimg->cXPelsPerMeter = cXPelsPerMeter;
pimg->cYPelsPerMeter = cYPelsPerMeter;
pimg->hDC = (HDC)cDC.Detach();
pimg->hBitmap = (HBITMAP)bmNew.Detach();
pimg->hBitmapOld = NULL;
pimg->m_pFirstImgWnd = NULL;
pimg->bDirty = FALSE;
pimg->m_hPalOld = NULL;
pimg->m_pPalette = NULL;
pimg->m_bTileGrid = g_bDefaultTileGrid;
pimg->m_cxTile = g_defaultTileGridSize.cx;
pimg->m_cyTile = g_defaultTileGridSize.cy;
BYTE cRed = GetRValue( crRight );
BYTE cGreen = GetGValue( crRight );
BYTE cBlue = GetBValue( crRight );
if (theApp.m_bPaletted)
{
crRight = PALETTERGB( cRed, cGreen, cBlue );
}
else
{
crRight = RGB( cRed, cGreen, cBlue );
}
if (pimg->hBitmap)
{
pimg->hBitmapOld = (HBITMAP)SelectObject(pimg->hDC, pimg->hBitmap);
ClearImg( pimg );
}
return(pimg);
}
/***************************************************************************/
BOOL ClearImg(IMG* pimg)
{
#if 1
HBRUSH hNewBrush;
HBRUSH hOldBrush = NULL;
HPALETTE hpalOld = NULL;
pimg->m_nLastChanged = -1;
if ((hNewBrush = ::CreateSolidBrush( crRight )) == NULL)
return FALSE;
if (pimg->m_pPalette)
{
hpalOld = SelectPalette( pimg->hDC, (HPALETTE)pimg->m_pPalette->m_hObject, FALSE );
RealizePalette( pimg->hDC );
}
hOldBrush = (HBRUSH)SelectObject( pimg->hDC, hNewBrush );
PatBlt( pimg->hDC, 0, 0, pimg->cxWidth, pimg->cyHeight, PATCOPY );
if (hOldBrush)
SelectObject(pimg->hDC, hOldBrush);
DeleteObject( hNewBrush );
if (hpalOld)
SelectPalette( pimg->hDC, hpalOld, FALSE );
return TRUE;
#else
BOOL bResult = FALSE;
HBRUSH hNewBrush = ::CreateSolidBrush( crRight );
if ( hNewBrush )
{
HBRUSH hOldBrush = (HBRUSH)SelectObject( pimg->hDC, hNewBrush );
if ( hOldBrush )
{
HPALETTE hpalOld = SelectPalette( pimg->hDC,
(HPALETTE)pimg->m_pPalette->m_hObject,
FALSE );
if ( hpalOld )
{
RealizePalette( pimg->hDC );
PatBlt( pimg->hDC, 0, 0, pimg->cxWidth, pimg->cyHeight, PATCOPY );
pimg->m_nLastChanged = -1;
bResult = TRUE;
SelectPalette( pimg->hDC, hpalOld, FALSE );
}
SelectObject(pimg->hDC, hOldBrush);
}
DeleteObject( hNewBrush );
}
return bResult;
#endif
}
/***************************************************************************/
void FreeImg(IMG* pimg)
{
if (! pimg)
return;
if (pimg == theImgBrush.m_pImg)
theImgBrush.m_pImg = NULL;
if (pimg->hDC)
{
if (pimg->hBitmapOld)
SelectObject( pimg->hDC, pimg->hBitmapOld );
if (pimg->m_hPalOld)
SelectPalette( pimg->hDC, pimg->m_hPalOld, FALSE ); // Background ??
DeleteDC(pimg->hDC);
}
if (pimg->hBitmap)
DeleteObject(pimg->hBitmap);
if (theApp.m_pPalette == pimg->m_pPalette)
theApp.m_pPalette = NULL;
if (pimg->m_pPalette)
delete pimg->m_pPalette;
if (pimg->m_pBitmapObj->m_pImg == pimg)
pimg->m_pBitmapObj->m_pImg = NULL;
if (pImgCur == pimg)
pImgCur = NULL;
if (pRubberImg == pimg)
pRubberImg = NULL;
delete pimg;
}
/***************************************************************************/
void SelectImg(IMG* pimg)
{
if (pimg == pImgCur)
return;
if (theImgBrush.m_pImg)
HideBrush();
pImgCur = pimg;
SetupRubber(pimg);
}
/***************************************************************************/
void DirtyImg( IMG* pimg )
{
CPBDoc* pDoc = (CPBDoc*)((CFrameWnd*)AfxGetMainWnd())->GetActiveDocument();
if (pDoc)
{
pDoc->SetModifiedFlag( TRUE );
if (theApp.m_bEmbedded)
pDoc->NotifyChanged();
}
pimg->bDirty = TRUE;
pimg->m_pBitmapObj->SetDirty( TRUE );
}
/***************************************************************************/
void CleanupImages()
{
FreeImg( pImgCur );
CleanupImgUndo();
CleanupImgRubber();
}
/***************************************************************************/
void InvalImgRect(IMG* pimg, CRect* prc)
{
CImgWnd* pImgWnd;
CImgWnd* pNextImgWnd;
CRect rc;
rc.SetRect(0, 0, pimg->cxWidth, pimg->cyHeight);
if (prc)
rc &= *prc;
for (pImgWnd = pimg->m_pFirstImgWnd; pImgWnd;
pImgWnd = pNextImgWnd)
{
CRect rcWnd;
pNextImgWnd = pImgWnd->m_pNextImgWnd;
if (prc)
{
rcWnd = rc;
pImgWnd->ImageToClient(rcWnd);
if (pImgWnd->IsGridVisible())
{
rcWnd.right += 1;
rcWnd.bottom += 1;
}
}
pImgWnd->InvalidateRect(prc == NULL ? NULL : &rcWnd, FALSE);
}
}
/***************************************************************************/
void CommitImgRect(IMG* pimg, CRect* prc)
{
ASSERT(hRubberDC);
if (hRubberDC == NULL)
return;
CRect rc;
if (prc == NULL)
{
SetRect( &rc, 0, 0, pimg->cxWidth, pimg->cyHeight );
prc = &rc;
}
HPALETTE hpalOld = NULL;
if (theApp.m_pPalette
&& theApp.m_pPalette->m_hObject)
{
hpalOld = SelectPalette( hRubberDC, (HPALETTE)theApp.m_pPalette->m_hObject, FALSE ); // Background ??
RealizePalette( hRubberDC );
}
BitBlt(hRubberDC, prc->left, prc->top,
prc->Width(), prc->Height(),
pimg->hDC, prc->left, prc->top, SRCCOPY);
if (hpalOld)
SelectPalette( hRubberDC, hpalOld, FALSE ); // Background ??
}
void SelInScreenFirst(CPalette* pPal)
{
// HACK: Select into screen DC first for GDI bug
CWindowDC hdcScreen(NULL);
hdcScreen.SelectPalette(pPal, TRUE);
hdcScreen.RealizePalette();
}
BOOL CreateSafePalette(CPalette* pPal, LPLOGPALETTE lpLogPal)
{
if (!pPal->CreatePalette(lpLogPal))
{
return(FALSE);
}
SelInScreenFirst(pPal);
return(TRUE);
}
/***************************************************************************/
BOOL ReplaceImgPalette( IMG* pImg, LPLOGPALETTE lpLogPal )
{
if (pImg->m_hPalOld)
{
::SelectPalette( pImg->hDC, pImg->m_hPalOld, FALSE );
pImg->m_hPalOld = NULL;
}
if (pImg->m_pPalette)
delete pImg->m_pPalette;
pImg->m_pPalette = new CPalette;
if (pImg->m_pPalette
&& CreateSafePalette(pImg->m_pPalette, lpLogPal ))
{
pImg->m_hPalOld = ::SelectPalette( pImg->hDC,
(HPALETTE)pImg->m_pPalette->GetSafeHandle(), FALSE );
::RealizePalette( pImg->hDC );
InvalImgRect( pImg, NULL );
}
else
{
if (pImg->m_pPalette)
delete pImg->m_pPalette;
pImg->m_pPalette = NULL;
}
return (pImg->m_pPalette != NULL);
}
/***************************************************************************/
void CleanupImgRubber()
{
if (hRubberDC)
{
DeleteDC(hRubberDC);
hRubberDC = NULL;
}
if (hRubberBM)
{
DeleteObject(hRubberBM);
hRubberBM = NULL;
}
pRubberImg = NULL;
cxRubberWidth = 0;
cyRubberHeight = 0;
}
/***************************************************************************/
void IdleImage()
{
if (g_pMouseImgWnd)
{
CRect rcImage(0, 0, g_pMouseImgWnd->GetImg()->cxWidth,
g_pMouseImgWnd->GetImg()->cyHeight);
g_pMouseImgWnd->ImageToClient( rcImage );
CRect rcClient;
g_pMouseImgWnd->GetClientRect( &rcClient );
rcClient &= rcImage;
CPoint pt;
GetCursorPos( &pt );
CPoint ptClient = pt;
g_pMouseImgWnd->ScreenToClient( &ptClient );
if (CWnd::WindowFromPoint( pt ) != g_pMouseImgWnd
|| ! rcClient.PtInRect( ptClient ))
{
extern MTI mti;
CImgTool::GetCurrent()->OnLeave( g_pMouseImgWnd, &mti );
g_pMouseImgWnd = NULL;
if (! CImgTool::IsDragging() &&
::IsWindow(((CPBFrame*)theApp.m_pMainWnd)->m_statBar.m_hWnd) )
((CPBFrame*)theApp.m_pMainWnd)->m_statBar.ClearPosition();
}
}
if (fDraggingBrush)
{
CPoint pt;
CRect rcClient;
CPoint ptClient;
CImgWnd* pImgWnd;
GetCursorPos(&pt);
pImgWnd = g_pDragBrushWnd;
if (pImgWnd == NULL)
return;
CRect rcImage(0, 0, pImgWnd->GetImg()->cxWidth,
pImgWnd->GetImg()->cyHeight);
pImgWnd->ImageToClient( rcImage );
pImgWnd->GetClientRect( &rcClient );
rcClient &= rcImage;
ptClient = pt;
pImgWnd->ScreenToClient( &ptClient );
if ( CWnd::WindowFromPoint(pt) != pImgWnd
|| ! rcClient.PtInRect(ptClient))
{
if (fDraggingBrush && theImgBrush.m_pImg == NULL)
HideBrush();
pImgWnd->UpdPos( CPoint(-1, -1) );
}
else
if (GetCapture() == NULL)
{
CPoint imagePt = ptClient;
pImgWnd->ClientToImage( imagePt );
if (! g_bBrushVisible && fDraggingBrush
&& CImgTool::GetCurrent()->UsesBrush())
{
pImgWnd->ShowBrush( imagePt );
}
}
}
}
/***************************************************************************/
void HideBrush()
{
if (! g_bBrushVisible)
return;
g_bBrushVisible = FALSE;
CImgWnd* pImgWnd = g_pDragBrushWnd;
ASSERT(pImgWnd);
if (pImgWnd == NULL)
return;
IMG* pimg = pImgWnd->GetImg();
if (pimg == NULL)
return;
HPALETTE hpalOld = pImgWnd->SetImgPalette( hRubberDC, FALSE ); // Background ??
BitBlt( pimg->hDC, rcDragBrush.left,
rcDragBrush.top,
rcDragBrush.Width(),
rcDragBrush.Height(),
hRubberDC, rcDragBrush.left,
rcDragBrush.top, SRCCOPY );
if (hpalOld)
SelectPalette( hRubberDC, hpalOld, FALSE ); // Background ??
InvalImgRect( pimg, &rcDragBrush );
}
/***************************************************************************/
void FixRect(RECT * prc)
{
int t;
if (prc->left > prc->right)
{
t = prc->left;
prc->left = prc->right;
prc->right = t;
}
if (prc->top > prc->bottom)
{
t = prc->top;
prc->top = prc->bottom;
prc->bottom = t;
}
}
/***************************************************************************/
BOOL SetupRubber(IMG* pimg)
{
if (cxRubberWidth < pimg->cxWidth
|| cyRubberHeight < pimg->cyHeight)
{
HBITMAP hOldBitmap, hNewBitmap;
HideBrush();
if (hRubberDC == NULL
&& (hRubberDC = CreateCompatibleDC( pimg->hDC )) == NULL)
return FALSE;
hNewBitmap = CreateCompatibleBitmap( pimg->hDC, pimg->cxWidth, pimg->cyHeight );
if (hNewBitmap == NULL)
{
return FALSE;
}
hRubberBM = hNewBitmap;
hOldBitmap = (HBITMAP) SelectObject( hRubberDC, hRubberBM );
if (hOldBitmap)
{
DeleteObject( hOldBitmap );
}
cxRubberWidth = pimg->cxWidth;
cyRubberHeight = pimg->cyHeight;
}
if (pRubberImg != pimg)
{
HideBrush();
HPALETTE hpalOld = NULL;
if (theApp.m_pPalette
&& theApp.m_pPalette->m_hObject)
{
hpalOld = SelectPalette( hRubberDC, (HPALETTE)theApp.m_pPalette->m_hObject, FALSE );
RealizePalette( hRubberDC );
}
BitBlt( hRubberDC, 0, 0, pimg->cxWidth,
pimg->cyHeight, pimg->hDC, 0, 0, SRCCOPY );
if (hpalOld)
SelectPalette( hRubberDC, hpalOld, FALSE ); // Background ??
}
pRubberImg = pimg;
return TRUE;
}
/***************************************************************************/
CPalette* CreatePalette( const COLORREF* colors, int nColors )
{
CPalette* pPal = new CPalette;
if (pPal)
{
LPLOGPALETTE pLogPal = (LPLOGPALETTE) LocalAlloc(
LMEM_FIXED, sizeof (LOGPALETTE) + sizeof (PALETTEENTRY) * nColors);
if (pLogPal)
{
pLogPal->palVersion = 0x300;
pLogPal->palNumEntries = (WORD)nColors;
for (int i = 0; i < nColors; i++)
{
pLogPal->palPalEntry[i] = *(PALETTEENTRY*)colors++;
pLogPal->palPalEntry[i].peFlags = 0;
}
if (! CreateSafePalette(pPal, pLogPal ))
{
theApp.SetGdiEmergency();
delete pPal;
pPal = NULL;
}
LocalFree(pLogPal);
}
else
{
theApp.SetMemoryEmergency();
delete pPal;
pPal = NULL;
}
}
return pPal;
}
/***************************************************************************/
CPalette* GetStd16Palette()
{
return CreatePalette( std16Colors, 16 );
}
/***************************************************************************/
CPalette* GetStd2Palette()
{
return CreatePalette( std2Colors, 2 );
}
/***************************************************************************/
CPalette* GetStd256Palette()
{
return CreatePalette( colorColorsDef, NUM_DEF_COLORS );
}
/***************************************************************************/
CPalette *PaletteFromDS(HDC hdc)
{
DWORD adw[257];
int i,n;
CPalette *pPal = new CPalette;
if ( n = GetDIBColorTable(hdc, 0, 256, (LPRGBQUAD)&adw[1]) )
{
for (i=1; i<=n; i++)
adw[i] = RGB(GetBValue(adw[i]),GetGValue(adw[i]),GetRValue(adw[i]));
adw[0] = MAKELONG(0x300, n);
CreateSafePalette(pPal, (LPLOGPALETTE)&adw[0]);
}
else
{
// No Palette in Bitmap! Use default half-tone palette
pPal->Attach(CreateHalftonePalette( NULL ));
}
return pPal;
}
/////////////////////////////////////////////////////////////////////////////
//
// Packed-DIB Handling Functions
//
// A packed-DIB is a bucket of bits usually consisting of a BITMAPINFOHEADER
// structure followed by an array of RGBQUAD structures followed by the words
// that make up the image. An alternate form consists of a BITMAPCOREHEADER
// structure followed by an array of RGBTRIPLE structures and the image words.
// This format is used by OS/2, but is supported by Windows. The only way
// to tell which format the DIB is using is to check the first word against
// the sizes of the header structures (pretty clever eh?).
//
// This is very similar to a DIB as stored in a file. In fact, a DIB file is
// a BITMAPFILEHEADER structure followed by a packed DIB.
//
// These functions make dealing with packed-DIBs in memory easier.
//
#define WIDTHBYTES(bits) ((((bits) + 31) / 32) * 4)
/***************************************************************************/
void FreeDib(HGLOBAL hDib)
{
ASSERT( hDib );
if (hDib)
GlobalFree(hDib);
}
/***************************************************************************/
HGLOBAL DibFromBitmap( HBITMAP hBitmap, DWORD dwStyle, WORD wBits,
CPalette* pPal, HBITMAP hMaskBitmap, DWORD& dwLen,
LONG cXPelsPerMeter, LONG cYPelsPerMeter )
{
ASSERT(hBitmap);
if (hBitmap == NULL)
return NULL;
ASSERT(hMaskBitmap == NULL || dwStyle == BI_RGB);
HBITMAP hbm;
BITMAP bm;
BITMAPINFOHEADER bi;
LPBITMAPINFOHEADER lpbi;
HDC hDC;
DWORD dwSmallLen;
HPALETTE hPal = (HPALETTE)(pPal->GetSafeHandle());
if (theApp.m_bPaletted && ! hPal)
hPal = (HPALETTE)::GetStockObject( DEFAULT_PALETTE );
GetObject( hBitmap, sizeof( bm ), (LPSTR)&bm );
if (wBits == 0)
wBits = bm.bmPlanes * bm.bmBitsPixel;
if (wBits <= 1)
wBits = 1;
else
if (wBits <= 4)
wBits = 4;
else
if (wBits <= 8)
wBits = 8;
else
wBits = 24;
bi.biSize = sizeof( BITMAPINFOHEADER );
bi.biWidth = bm.bmWidth;
bi.biHeight = bm.bmHeight;
bi.biPlanes = 1;
bi.biBitCount = wBits;
bi.biCompression = dwStyle;
bi.biSizeImage = 0;
// bi.biXPelsPerMeter = theApp.ScreenDeviceInfo.ixPelsPerDM * 10;
// bi.biYPelsPerMeter = theApp.ScreenDeviceInfo.iyPelsPerDM * 10;
// HDC hdc = GetDC(NULL);
// bi.biXPelsPerMeter = MulDiv(::GetDeviceCaps(hdc, LOGPIXELSX),10000, 254);
// bi.biYPelsPerMeter = MulDiv(::GetDeviceCaps(hdc, LOGPIXELSY),10000, 254);
// ReleaseDC (NULL, hdc);
bi.biXPelsPerMeter = cXPelsPerMeter;
bi.biYPelsPerMeter = cYPelsPerMeter;
bi.biClrUsed = 0;
bi.biClrImportant = 0;
dwSmallLen = dwLen = bi.biSize + PaletteSize( (LPSTR) &bi );
lpbi = (LPBITMAPINFOHEADER) GlobalAlloc(GPTR, dwLen);
if (lpbi == NULL)
{
theApp.SetMemoryEmergency();
return NULL;
}
*lpbi = bi;
hbm = CreateBitmap( 2, 2, bm.bmPlanes, bm.bmBitsPixel, NULL );
hDC = CreateCompatibleDC( NULL );
if (hbm == NULL || hDC == NULL)
{
if (hbm)
DeleteObject( hbm );
theApp.SetGdiEmergency();
return NULL;
}
HPALETTE hPalOld = NULL;
HANDLE hbmOld = SelectObject( hDC, hbm );
if (hPal)
{
hPalOld = SelectPalette( hDC, hPal, FALSE );
RealizePalette( hDC );
}
// Compute the byte size of the DIB...
GetDIBits( hDC, hBitmap, 0, (WORD)bi.biHeight, NULL, (LPBITMAPINFO)lpbi, DIB_RGB_COLORS );
bi = *lpbi;
// If the driver did not fill in the biSizeImage field, make one up
// NOTE: This size will be too big if the bitmap is compressed!
// NOTE: This happens with the Paradise 800x600x256 driver...
if (bi.biSizeImage == 0)
{
TRACE( TEXT("Display driver bug! We have to compute DIB size...") );
bi.biSizeImage = WIDTHBYTES( (DWORD)bi.biWidth * wBits ) * bi.biHeight;
if (dwStyle != BI_RGB)
bi.biSizeImage = (bi.biSizeImage * 3) / 2;
}
dwLen = bi.biSize + PaletteSize( (LPSTR)&bi ) + bi.biSizeImage;
if (hMaskBitmap)
dwLen += (LONG)WIDTHBYTES( bi.biWidth ) * bi.biHeight;
CHAR* hpv = (CHAR*) GlobalAlloc(GPTR, dwLen);
if (! hpv)
{
theApp.SetMemoryEmergency();
GlobalFree(lpbi);
if (hbmOld)
DeleteObject( SelectObject( hDC, hbmOld ) );
if (hPalOld)
SelectPalette( hDC, hPalOld, FALSE );
DeleteDC( hDC );
return NULL;
}
memcpy( hpv, (void*)lpbi, dwSmallLen );
GlobalFree(lpbi);
lpbi = (LPBITMAPINFOHEADER)hpv;
LPSTR lpBits = (LPSTR)lpbi + lpbi->biSize + PaletteSize((LPSTR)lpbi);
DWORD biSizeImage = lpbi->biSizeImage;
if (hMaskBitmap)
{
// Do the mask first so the dib ends up with the main bitmap's
// size and palette when we're done...
LONG cbAdjust = ((LONG)WIDTHBYTES( bi.biWidth * wBits )) * bi.biHeight;
lpBits += cbAdjust;
WORD biBitCount = lpbi->biBitCount;
lpbi->biBitCount = 1;
lpbi->biSizeImage = 0;
if (GetDIBits( hDC, hMaskBitmap, 0, (WORD)bi.biHeight, lpBits,
(LPBITMAPINFO)lpbi, DIB_RGB_COLORS ) == 0)
{
GlobalFree(hpv);
if (hbmOld)
DeleteObject( SelectObject( hDC, hbmOld ) );
if (hPalOld)
SelectPalette( hDC, hPalOld, FALSE );
DeleteDC(hDC);
return NULL;
}
biSizeImage += lpbi->biSizeImage;
lpbi->biBitCount = biBitCount;
lpBits -= cbAdjust;
}
if (GetDIBits( hDC, hBitmap, 0, (WORD)bi.biHeight, lpBits,
(LPBITMAPINFO)lpbi, DIB_RGB_COLORS ) == 0)
{
GlobalFree(hpv);
if (hbmOld)
DeleteObject( SelectObject( hDC, hbmOld ) );
if (hPalOld)
SelectPalette( hDC, hPalOld, FALSE );
DeleteDC(hDC);
return NULL;
}
lpbi->biSizeImage = biSizeImage;
if (hMaskBitmap)
lpbi->biHeight *= 2;
if (hbmOld)
DeleteObject( SelectObject( hDC, hbmOld ) );
if (hPalOld)
SelectPalette( hDC, hPalOld, FALSE );
DeleteDC( hDC );
return (LPSTR)lpbi;
}
/***************************************************************************/
UINT DIBBitsPixel(LPSTR lpbi)
{
// Calculate the number of colors in the color table based on
// the number of bits per pixel for the DIB.
if (IS_WIN30_DIB(lpbi))
{
return(((LPBITMAPINFOHEADER)lpbi)->biBitCount);
}
else
{
return(((LPBITMAPCOREHEADER)lpbi)->bcBitCount);
}
}
WORD DIBNumColors(LPSTR lpbi, BOOL bJustUsed)
{
WORD wBitCount;
// If this is a Windows style DIB, the number of colors in the
// color table can be less than the number of bits per pixel
// allows for (i.e. lpbi->biClrUsed can be set to some value).
// If this is the case, return the appropriate value.
if (IS_WIN30_DIB( lpbi ) && bJustUsed)
{
DWORD dwClrUsed = ((LPBITMAPINFOHEADER)lpbi)->biClrUsed;
if (dwClrUsed != 0)
return (WORD)dwClrUsed;
}
// Calculate the number of colors in the color table based on
// the number of bits per pixel for the DIB.
wBitCount = (WORD)DIBBitsPixel(lpbi);
switch (wBitCount)
{
case 1:
return 2;
case 4:
return 16;
case 8:
return 256;
default:
return 0;
}
}
/***************************************************************************/
WORD PaletteSize(LPSTR lpbi)
{
if (IS_WIN30_DIB(lpbi) &&
((LPBITMAPINFOHEADER)lpbi)->biCompression==BI_BITFIELDS)
{
// Images with bitfields have 3 DWORD's that specify the RGB components
// (respectively) of each pixel.
if (((LPBITMAPINFOHEADER)lpbi)->biSize >= sizeof(BITMAPV4HEADER))
{
return 0;
}
else
return(3 * sizeof(DWORD));
}
return DIBNumColors(lpbi,TRUE) *
(IS_WIN30_DIB(lpbi) ? sizeof(RGBQUAD) : sizeof(RGBTRIPLE));
}
/***************************************************************************/
LPSTR FindDIBBits(LPSTR lpbi, DWORD dwOffBits)
{
DWORD dwAfterHdr = *(LPDWORD)lpbi + PaletteSize(lpbi);
DWORD dwOff;
#if 0
if (dwOffBits && dwAfterHdr != dwOffBits)
{
MessageBeep(0);
}
#endif
dwOff = max(dwOffBits, dwAfterHdr);
return(lpbi + dwOff);
}
/***************************************************************************/
DWORD DIBWidth(LPSTR lpDIB)
{
LPBITMAPINFOHEADER lpbmi = (LPBITMAPINFOHEADER)lpDIB;
LPBITMAPCOREHEADER lpbmc = (LPBITMAPCOREHEADER)lpDIB;
if (lpbmi->biSize >= sizeof (BITMAPINFOHEADER))
return (DWORD) abs(lpbmi->biWidth);
else
return (DWORD) abs(lpbmc->bcWidth);
}
/***************************************************************************/
DWORD DIBHeight(LPSTR lpDIB)
{
LPBITMAPINFOHEADER lpbmi = (LPBITMAPINFOHEADER)lpDIB;
LPBITMAPCOREHEADER lpbmc = (LPBITMAPCOREHEADER)lpDIB;
if (lpbmi->biSize >= sizeof (BITMAPINFOHEADER))
return (DWORD) abs(lpbmi->biHeight);
else
return (DWORD) abs(lpbmc->bcHeight);
}
/***************************************************************************/
HBITMAP DIBToBitmap( LPSTR lpDIBHdr, CPalette* pPal, HDC hdc )
{
ASSERT( lpDIBHdr );
ASSERT( hdc );
if (! lpDIBHdr || ! hdc)
return NULL;
LPBYTE lpDIBBits = (LPBYTE)FindDIBBits( lpDIBHdr,0 );
CPalette* ppalOld = NULL;
CBitmap* pbmOld = NULL;
CBitmap bmTemp;
CDC dc;
dc.Attach( hdc );
if (bmTemp.CreateCompatibleBitmap( &dc, 2, 2 ))
pbmOld = dc.SelectObject( &bmTemp );
if (pPal)
{
ASSERT( pPal->m_hObject );
#ifdef FORCEBACKPALETTE
ppalOld = dc.SelectPalette( pPal, TRUE );
#else
ppalOld = dc.SelectPalette( pPal, FALSE );
#endif
dc.RealizePalette();
}
HBITMAP hBitmap = CreateDIBitmap( dc.m_hDC, (LPBITMAPINFOHEADER)lpDIBHdr,
CBM_INIT, lpDIBBits,
(LPBITMAPINFO)lpDIBHdr, DIB_RGB_COLORS );
if (ppalOld)
dc.SelectPalette( ppalOld, FALSE );
if (pbmOld)
dc.SelectObject( pbmOld );
if (bmTemp.m_hObject)
bmTemp.DeleteObject();
dc.Detach();
return hBitmap;
}
/***************************************************************************/
BOOL ShouldUseDDB(HDC hdc, LPBITMAPINFO lpDIBHdr)
{
if (!IS_WIN30_DIB(lpDIBHdr))
{
// I don't want to write special code to deal with this case
return(FALSE);
}
if (lpDIBHdr->bmiHeader.biPlanes*lpDIBHdr->bmiHeader.biBitCount != 4)
{
// No DDB for mono or 8bit or more
return(FALSE);
}
UINT cBitCount = GetDeviceCaps( hdc, BITSPIXEL )
* GetDeviceCaps( hdc, PLANES );
if (cBitCount > 4)
{
return(FALSE);
}
RGBQUAD *lpPal = lpDIBHdr->bmiColors;
for (int i=DIBNumColors((LPSTR)lpDIBHdr, TRUE); i>0; --i, ++lpPal)
{
COLORREF cr = RGB(lpPal->rgbRed, lpPal->rgbGreen, lpPal->rgbBlue);
if (GetNearestColor(hdc, cr) != cr)
{
return(FALSE);
}
}
// OK, so this is a WIN30 DIB, the screen is 16 or less colors, it is
// either an uncompressed or RLE DIB, and all the colors in the DIB can
// be shown on the screen. I guess we can use a DDB.
return(TRUE);
}
/***************************************************************************/
HBITMAP DIBToDS( LPSTR lpDIB, DWORD dwOffBits, HDC hdc )
{
ASSERT( lpDIB );
ASSERT( hdc );
if (! lpDIB || ! hdc)
{
return NULL;
}
LPVOID lpNewBits;
LPBITMAPINFO lpDIBHdr = (LPBITMAPINFO)lpDIB;
LPBYTE lpDIBBits = (LPBYTE)FindDIBBits( lpDIB, dwOffBits );
{
// New block just to scope dcScreen
CClientDC dcScreen(NULL);
if (ShouldUseDDB(dcScreen.m_hDC, lpDIBHdr))
{
return(CreateDIBitmap( dcScreen.m_hDC, &lpDIBHdr->bmiHeader,
CBM_INIT, lpDIBBits, lpDIBHdr, DIB_RGB_COLORS ));
}
}
// Compressed DIB sections are not allowed
DWORD dwCompression = lpDIBHdr->bmiHeader.biCompression;
if (IS_WIN30_DIB(lpDIB))
{
lpDIBHdr->bmiHeader.biCompression = BI_RGB;
}
HBITMAP hBitmap = CreateDIBSection( hdc, lpDIBHdr, DIB_RGB_COLORS,
&lpNewBits, NULL, 0);
if (IS_WIN30_DIB(lpDIB))
{
lpDIBHdr->bmiHeader.biCompression = dwCompression;
}
if (hBitmap)
{
HBITMAP hbmOld = (HBITMAP)SelectObject(hdc, hBitmap);
if (hbmOld)
{
UINT uWid = DIBWidth(lpDIB);
UINT uHgt = DIBHeight(lpDIB);
// Fill with white in case the bitmap has any jumps in it.
PatBlt(hdc, 0, 0, uWid, uHgt, WHITENESS);
// StretchDIBits(hdc, 0, 0, uWid, uHgt, 0, 0, uWid, uHgt, lpDIBBits,
// (LPBITMAPINFO)lpDIBHdr, DIB_RGB_COLORS, SRCCOPY);
SetDIBitsToDevice (hdc,0,0,uWid, uHgt,0,0,0,abs(uHgt),lpDIBBits,
(LPBITMAPINFO)lpDIBHdr, DIB_RGB_COLORS);
SelectObject(hdc, hbmOld);
return(hBitmap);
}
DeleteObject(hBitmap);
}
return(NULL);
}
//------------------------------------------------------------------------------
// SetNewPalette - Used solely by GetRainbowPalette below for initialization.
//------------------------------------------------------------------------------
static void SetNewPalette( PALETTEENTRY* const pPal, PWORD pwRainbowColors,
UINT R, UINT G, UINT B )
{
if (*pwRainbowColors < 256)
{
WORD wC;
for (wC = 0; wC < *pwRainbowColors; wC++)
if (((UINT)GetRValue( *(DWORD*)&pPal[ wC ] ) /* + 1 & ~1 */ ) == (R /* + 1 & ~1 */ )
&& ((UINT)GetGValue( *(DWORD*)&pPal[ wC ] ) /* + 1 & ~1 */ ) == (G /* + 1 & ~1 */ )
&& ((UINT)GetBValue( *(DWORD*)&pPal[ wC ] ) /* + 1 & ~1 */ ) == (B /* + 1 & ~1 */ ))
return;
pPal[*pwRainbowColors].peRed = (BYTE)R;
pPal[*pwRainbowColors].peGreen = (BYTE)G;
pPal[*pwRainbowColors].peBlue = (BYTE)B;
pPal[*pwRainbowColors].peFlags = 0;
(*pwRainbowColors)++;
}
}
/***************************************************************************/
CPalette* CreateDIBPalette(LPSTR lpbi)
{
LPLOGPALETTE lpPal;
CPalette* pPal = NULL;
int iLoop;
int wNumColors;
LPBITMAPINFO lpbmi;
LPBITMAPCOREINFO lpbmc;
BOOL bWinStyleDIB;
BOOL bGetDriverDefaults = FALSE;
ASSERT( lpbi );
if (lpbi == NULL)
return NULL;
lpbmi = (LPBITMAPINFO)lpbi;
lpbmc = (LPBITMAPCOREINFO)lpbi;
wNumColors = (int)DIBNumColors(lpbi, TRUE);
bWinStyleDIB = IS_WIN30_DIB(lpbi);
if (! wNumColors)
{
if (! theApp.m_bPaletted)
return NULL;
bGetDriverDefaults = TRUE;
wNumColors = 256;
}
lpPal = (LPLOGPALETTE)new CHAR [sizeof( LOGPALETTE ) + sizeof( PALETTEENTRY ) * (wNumColors - 1)];
if (lpPal == NULL)
{
theApp.SetMemoryEmergency();
return NULL;
}
if (bGetDriverDefaults)
{
#define DIM( X ) (sizeof(X) / sizeof(X[0]))
// GetRainbowPalette - Based on
// Fran Finnegan's column in Microsoft Systems Journal, Sept.-Oct., 1991 (#5).
static BYTE C[] = { 255, 238, 221,
204, 187, 170,
153, 136, 119,
102, 85, 68,
51, 34, 17,
0
};
PALETTEENTRY* pPal = &(lpPal->palPalEntry[0]);
WORD wColors = 0;
int iC;
int iR;
int iG;
int iB;
for (iC = 0; iC < DIM( C ); iC++)
SetNewPalette( pPal, &wColors, C[ iC ], C[ iC ], C[ iC ] );
for (iR = 0; iR < DIM( C ); iR += 3)
for (iG = 0; iG < DIM( C ); iG += 3)
for (iB = 0; iB < DIM( C ); iB += 3)
SetNewPalette( pPal, &wColors, C[ iR ], C[ iG ], C[ iB ] );
for (iC = 0; iC < DIM( C ); iC++)
{
SetNewPalette( pPal, &wColors, C[ iC ], 0, 0 );
SetNewPalette( pPal, &wColors, 0, C[ iC ], 0 );
SetNewPalette( pPal, &wColors, 0, 0, C[ iC ] );
}
}
else
for (iLoop = 0; iLoop < wNumColors; iLoop++)
{
if (bWinStyleDIB)
{
lpPal->palPalEntry[iLoop].peRed = lpbmi->bmiColors[iLoop].rgbRed;
lpPal->palPalEntry[iLoop].peGreen = lpbmi->bmiColors[iLoop].rgbGreen;
lpPal->palPalEntry[iLoop].peBlue = lpbmi->bmiColors[iLoop].rgbBlue;
lpPal->palPalEntry[iLoop].peFlags = 0;
}
else
{
lpPal->palPalEntry[iLoop].peRed = lpbmc->bmciColors[iLoop].rgbtRed;
lpPal->palPalEntry[iLoop].peGreen = lpbmc->bmciColors[iLoop].rgbtGreen;
lpPal->palPalEntry[iLoop].peBlue = lpbmc->bmciColors[iLoop].rgbtBlue;
lpPal->palPalEntry[iLoop].peFlags = 0;
}
}
lpPal->palVersion = 0x300;
lpPal->palNumEntries = (WORD)wNumColors;
pPal = new CPalette;
if (pPal == NULL || ! CreateSafePalette(pPal, lpPal ))
{
if (pPal)
delete pPal;
pPal = NULL;
}
delete [] (CHAR*)lpPal;
return pPal;
}
/***************************************************************************/
void Draw3dRect(HDC hDC, RECT * prc)
{
CDC* pDC = CDC::FromHandle(hDC);
CBrush* pOldBrush = pDC->SelectObject( GetSysBrush( COLOR_BTNSHADOW ) );
pDC->PatBlt(prc->left, prc->top, prc->right - prc->left - 1, 1, PATCOPY);
pDC->PatBlt(prc->left, prc->top + 1, 1, prc->bottom - prc->top - 2, PATCOPY);
pDC->SelectObject(GetSysBrush( COLOR_BTNHIGHLIGHT ));
pDC->PatBlt(prc->left + 1, prc->bottom - 1,
prc->right - prc->left - 1, 1, PATCOPY);
pDC->PatBlt(prc->right - 1, prc->top + 1,
1, prc->bottom - prc->top - 1, PATCOPY);
pDC->SelectObject(pOldBrush);
}
/***************************************************************************/
// DrawBitmap:
// See header file for usage.
void DrawBitmap(CDC* dc, CBitmap* bmSrc, CRect* rc,
DWORD dwROP /* = SRCCOPY */, CDC* memdc /* = NULL */)
{
CBitmap* obm;
CDC* odc = (memdc? memdc : (new CDC));
if (!memdc)
odc->CreateCompatibleDC(dc);
obm = odc->SelectObject(bmSrc);
BITMAP bms;
bmSrc->GetObject(sizeof (BITMAP), (LPSTR)(LPBITMAP)(&bms));
if (rc)
{
dc->BitBlt(rc->left + ((rc->right - rc->left - bms.bmWidth) >> 1),
rc->top + ((rc->bottom - rc->top - bms.bmHeight) >> 1),
bms.bmWidth, bms.bmHeight, odc, 0, 0, dwROP);
}
else
{
dc->BitBlt(0, 0, bms.bmWidth, bms.bmHeight, odc, 0, 0, dwROP);
}
odc->SelectObject(obm);
if (!memdc)
{
odc->DeleteDC();
delete odc;
}
}
/***************************************************************************/
BOOL EnsureUndoSize(IMG* pimg)
{
if (cxUndoWidth < pimg->cxWidth || cyUndoHeight < pimg->cyHeight ||
(int)cUndoPlanes != pimg->cPlanes ||
(int)cUndoBitCount != pimg->cBitCount)
{
HBITMAP hNewUndoImgBitmap = NULL;
// HBITMAP hNewUndoMaskBitmap = NULL;
HPALETTE hNewUndoPalette = NULL;
hNewUndoImgBitmap = CreateCompatibleBitmap( pimg->hDC, pimg->cxWidth, pimg->cyHeight );
if (hNewUndoImgBitmap == NULL)
{
TRACE(TEXT("EnsureUndoSize: Create image bitmap failed!\n"));
return FALSE;
}
// hNewUndoMaskBitmap = CreateBitmap( pimg->cxWidth, pimg->cyHeight, 1, 1, NULL );
// if (hNewUndoMaskBitmap == NULL)
// {
// TRACE(TEXT("EnsureUndoSize: Create mask bitmap failed!\n"));
// DeleteObject( hNewUndoImgBitmap );
// return FALSE;
// }
// if (theApp.m_pPalette)
// {
// LOGPALETTE256 logPal;
// logPal.palVersion = 0x300;
// logPal.palNumEntries = theApp.m_pPalette->GetPaletteEntries( 0, 256,
// &logPal.palPalEntry[0] );
// theApp.m_pPalette->GetPaletteEntries( 0, logPal.palNumEntries,
// &logPal.palPalEntry[0] );
// hNewUndoPalette = ::CreatePalette( (LPLOGPALETTE)&logPal );
// if (! hNewUndoPalette)
// {
// TRACE("EnsureUndoSize: Create palette bitmap failed!\n");
// DeleteObject( hNewUndoImgBitmap );
// DeleteObject( hNewUndoMaskBitmap );
// return FALSE;
// }
// }
if (g_hUndoImgBitmap)
DeleteObject(g_hUndoImgBitmap);
// if (g_hUndoPalette)
// DeleteObject(g_hUndoPalette);
g_hUndoImgBitmap = hNewUndoImgBitmap;
// g_hUndoPalette = hNewUndoPalette;
cxUndoWidth = pimg->cxWidth;
cyUndoHeight = pimg->cyHeight;
cUndoPlanes = (BYTE)pimg->cPlanes;
cUndoBitCount = (BYTE)pimg->cBitCount;
}
return TRUE;
}
/***************************************************************************/
void CleanupImgUndo()
{
if (g_hUndoImgBitmap)
DeleteObject(g_hUndoImgBitmap);
if (g_hUndoPalette)
DeleteObject(g_hUndoPalette);
g_hUndoImgBitmap = NULL;
g_hUndoPalette = NULL;
cxUndoWidth = 0;
cyUndoHeight = 0;
cUndoPlanes = 0;
cUndoBitCount = 0;
}
/***************************************************************************/
BOOL SetUndo(IMG* pimg)
{
BOOL bSuccess = FALSE;
HDC hTempDC = NULL;
HBITMAP hOldBitmap = NULL;
CRect rect;
if (! EnsureUndoSize( pimg ))
goto LReturn;
rect.SetRect( 0, 0, pimg->cxWidth, pimg->cyHeight );
hTempDC = CreateCompatibleDC( pimg->hDC );
if (hTempDC == NULL)
{
TRACE( TEXT("SetUndo: CreateCompatibleDC failed\n") );
goto LReturn;
}
hOldBitmap = (HBITMAP)SelectObject( hTempDC, g_hUndoImgBitmap );
BitBlt( hTempDC, 0, 0, rect.Width(), rect.Height(),
pimg->hDC, rect.left, rect.top, SRCCOPY );
SelectObject( hTempDC, hOldBitmap );
DeleteDC( hTempDC );
bSuccess = TRUE;
LReturn:
return bSuccess;
}
/***************************************************************************/
void DrawBrush(IMG* pimg, CPoint pt, BOOL bDraw)
{
int nStrokeWidth = CImgTool::GetCurrent()->GetStrokeWidth();
if (g_bCustomBrush)
{
CRect rc(pt.x, pt.y,
pt.x + theImgBrush.m_size.cx, pt.y + theImgBrush.m_size.cy);
rc -= (CPoint)theImgBrush.m_handle;
theImgBrush.m_rcSelection = rc;
int nCombineMode;
COLORREF cr;
if (bDraw)
{
nCombineMode = (theImgBrush.m_bOpaque) ? combineReplace : combineMatte;
cr = crLeft;
}
else
{
nCombineMode = combineColor;
cr = crRight;
}
if (CImgTool::GetCurrentID() == IDMX_TEXTTOOL)
{
// extern CTextTool g_textTool;
// g_textTool.Render(CDC::FromHandle(pimg->hDC), rc, TRUE, TRUE);
}
else
{
switch (nCombineMode)
{
#ifdef DEBUG
default:
ASSERT(FALSE);
#endif
case combineColor:
theImgBrush.BltColor(pimg, rc.TopLeft(), cr);
break;
case combineMatte:
theImgBrush.BltMatte(pimg, rc.TopLeft());
break;
case combineReplace:
theImgBrush.BltReplace(pimg, rc.TopLeft());
break;
}
}
InvalImgRect (pimg, &rc);
CommitImgRect(pimg, &rc);
}
else
{
DrawImgLine(pimg, pt, pt, bDraw ? crLeft : crRight,
CImgTool::GetCurrent()->GetStrokeWidth(),
CImgTool::GetCurrent()->GetStrokeShape(), TRUE);
rcDragBrush.left = pt.x - nStrokeWidth / 2;
rcDragBrush.top = pt.y - nStrokeWidth / 2;
rcDragBrush.right = rcDragBrush.left + nStrokeWidth;
rcDragBrush.bottom = rcDragBrush.top + nStrokeWidth;
}
}
/***************************************************************************/
void DrawDCLine(HDC hDC, CPoint pt1, CPoint pt2,
COLORREF color, int nWidth, int nShape,
CRect& rc)
{
HPEN hOldPen;
HBRUSH hBrush;
HBRUSH hOldBrush;
int sx;
int sy;
int ex;
int ey;
int nWidthD2 = nWidth / 2;
sx = pt1.x;
sy = pt1.y;
ex = pt2.x;
ey = pt2.y;
if (hDC)
{
hBrush = ::CreateSolidBrush( color );
hOldBrush = (HBRUSH)SelectObject( hDC, hBrush );
if (nWidth == 1)
{
HPEN hPen = CreatePen(PS_SOLID, 1, (COLORREF)color);
if (hPen)
{
hOldPen = (HPEN)SelectObject(hDC, hPen);
::MoveToEx(hDC, sx, sy, NULL);
LineTo(hDC, ex, ey);
SetPixel(hDC, ex, ey, color);
SelectObject(hDC, hOldPen);
DeleteObject(hPen);
}
}
else
{
// hOldPen = (HPEN)SelectObject(hDC, GetStockObject( NULL_PEN ));
BrushLine( CDC::FromHandle(hDC),
CPoint(sx - nWidthD2, sy - nWidthD2),
CPoint(ex - nWidthD2, ey - nWidthD2), nWidth, nShape);
// SelectObject( hDC, hOldPen );
}
SelectObject(hDC, hOldBrush);
DeleteObject(hBrush);
}
if (sx < ex)
{
rc.left = sx;
rc.right = ex + 1;
}
else
{
rc.left = ex;
rc.right = sx + 1;
}
if (sy < ey)
{
rc.top = sy;
rc.bottom = ey + 1;
}
else
{
rc.top = ey;
rc.bottom = sy + 1;
}
rc.left -= nWidth * 2;
rc.top -= nWidth * 2;
rc.right += nWidth * 2;
rc.bottom += nWidth * 2;
}
void DrawImgLine(IMG* pimg, CPoint pt1, CPoint pt2,
COLORREF color, int nWidth, int nShape,
BOOL bCommit)
{
CRect rc;
DrawDCLine(pimg->hDC, pt1, pt2, color, nWidth, nShape, rc);
InvalImgRect(pimg, &rc);
if (bCommit)
{
CommitImgRect(pimg, &rc);
}
}
/***************************************************************************/
void FillImgRect( HDC hDC, CRect* prc, COLORREF cr )
{
FixRect( prc );
CPoint pt1 = prc->TopLeft();
CPoint pt2 = prc->BottomRight();
StandardiseCoords( &pt1, &pt2 );
int sx = pt1.x;
int sy = pt1.y;
int ex = pt2.x;
int ey = pt2.y;
CRect rc( sx, sy, ex, ey );
HBRUSH hBr = ::CreateSolidBrush( cr );
if (! hBr)
{
theApp.SetGdiEmergency();
return;
}
if (CImgTool::GetCurrentID() == IDMB_PICKRGNTOOL)
{
if (theImgBrush.m_cRgnPolyFreeHandSel.GetSafeHandle())
{
// offset bitmap in the imgwnd from selection boundary
theImgBrush.m_cRgnPolyFreeHandSel.OffsetRgn( rc.left, rc.top );
::FillRgn( hDC, (HRGN)theImgBrush.m_cRgnPolyFreeHandSel.m_hObject,
hBr );
// offset back to selection boundary
theImgBrush.m_cRgnPolyFreeHandSel.OffsetRgn( -rc.left, -rc.top );
}
}
else
{
HPEN hPen = CreatePen( PS_NULL, 0, 0 );
if (hPen)
{
HPEN hOldPen = (HPEN)SelectObject( hDC, hPen );
HBRUSH hOldBr = (HBRUSH)SelectObject( hDC, hBr );
Rectangle( hDC, sx, sy, ex, ey );
SelectObject( hDC, hOldPen);
DeleteObject( hPen );
SelectObject( hDC, hOldBr );
}
}
DeleteObject( hBr );
*prc = rc;
}
/***************************************************************************/
void BrushLine(CDC* pDC, CPoint fromPt, CPoint toPt, int nWidth, int nShape)
{
CPen* pOldPen = (CPen*) pDC->SelectStockObject(NULL_PEN);
CSize brushSize(nWidth, nWidth);
int octant;
if (nShape == slantedRightBrush || nShape == slantedLeftBrush)
{
int dx = abs(toPt.x - fromPt.x);
int dy = abs(toPt.y - fromPt.y);
if (toPt.x > fromPt.x)
{
if (toPt.y < fromPt.y)
octant = (dx > dy) ? 0 : 1;
else
octant = (dx > dy) ? 7 : 6;
}
else
{
if (toPt.y < fromPt.y)
octant = (dx > dy) ? 3 : 2;
else
octant = (dx > dy) ? 4 : 5;
}
}
switch (nShape)
{
case squareBrush:
PolyTo(pDC, fromPt, toPt, brushSize);
break;
case roundBrush:
if (toPt != fromPt)
{
CRect tan;
CPoint polyPts [4];
if (!GetTanPt(brushSize, (CPoint)(toPt - fromPt), tan))
return;
polyPts[0].x = fromPt.x + tan.left;
polyPts[1].x = fromPt.x + tan.right;
polyPts[2].x = toPt.x + tan.right;
polyPts[3].x = toPt.x + tan.left;
polyPts[0].y = fromPt.y + tan.top;
polyPts[1].y = fromPt.y + tan.bottom;
polyPts[2].y = toPt.y + tan.bottom;
polyPts[3].y = toPt.y + tan.top;
pDC->Polygon(polyPts, 4);
Mylipse(pDC->m_hDC, fromPt.x, fromPt.y,
fromPt.x + brushSize.cx, fromPt.y + brushSize.cy, TRUE);
}
Mylipse(pDC->m_hDC, toPt.x, toPt.y,
toPt.x + brushSize.cx, toPt.y + brushSize.cy, TRUE);
break;
case slantedLeftBrush:
{
CPoint polyPts [6];
fromPt.x -= 1;
toPt.x -= 1;
switch (octant)
{
case 0:
polyPts[0].x = fromPt.x;
polyPts[1].x = fromPt.x + 1;
polyPts[2].x = toPt.x + 1;
polyPts[3].x = toPt.x + brushSize.cy + 1;
polyPts[4].x = toPt.x + brushSize.cy;
polyPts[5].x = fromPt.x + brushSize.cy;
polyPts[0].y = polyPts[1].y = fromPt.y + brushSize.cy;
polyPts[2].y = toPt.y + brushSize.cy;
polyPts[3].y = polyPts[4].y = toPt.y;
polyPts[5].y = fromPt.y;
break;
case 1:
polyPts[0].x = fromPt.x;
polyPts[1].x = fromPt.x + 1;
polyPts[2].x = fromPt.x + brushSize.cy + 1;
polyPts[3].x = toPt.x + brushSize.cy + 1;
polyPts[4].x = toPt.x + brushSize.cy;
polyPts[5].x = toPt.x;
polyPts[0].y = polyPts[1].y = fromPt.y + brushSize.cy;
polyPts[2].y = fromPt.y;
polyPts[3].y = polyPts[4].y = toPt.y;
polyPts[5].y = toPt.y + brushSize.cy;
break;
case 2:
case 3:
polyPts[0].x = fromPt.x + 1;
polyPts[1].x = fromPt.x;
polyPts[2].x = toPt.x;
polyPts[3].x = toPt.x + brushSize.cy;
polyPts[4].x = toPt.x + brushSize.cy + 1;
polyPts[5].x = fromPt.x + brushSize.cy + 1;
polyPts[0].y = polyPts[1].y = fromPt.y + brushSize.cy;
polyPts[2].y = toPt.y + brushSize.cy;
polyPts[3].y = polyPts[4].y = toPt.y;
polyPts[5].y = fromPt.y;
break;
case 4:
polyPts[0].x = fromPt.x + brushSize.cy + 1;
polyPts[1].x = fromPt.x + brushSize.cy;
polyPts[2].x = toPt.x + brushSize.cy;
polyPts[3].x = toPt.x;
polyPts[4].x = toPt.x + 1;
polyPts[5].x = fromPt.x + 1;
polyPts[0].y = polyPts[1].y = fromPt.y;
polyPts[2].y = toPt.y;
polyPts[3].y = polyPts[4].y = toPt.y + brushSize.cy;
polyPts[5].y = fromPt.y + brushSize.cy;
break;
case 5:
polyPts[0].x = fromPt.x + brushSize.cy + 1;
polyPts[1].x = fromPt.x + brushSize.cy;
polyPts[2].x = fromPt.x;
polyPts[3].x = toPt.x;
polyPts[4].x = toPt.x + 1;
polyPts[5].x = toPt.x + brushSize.cy + 1;
polyPts[0].y = polyPts[1].y = fromPt.y;
polyPts[2].y = fromPt.y + brushSize.cy;
polyPts[3].y = polyPts[4].y = toPt.y + brushSize.cy;
polyPts[5].y = toPt.y;
break;
default:
polyPts[0].x = fromPt.x + brushSize.cy;
polyPts[1].x = fromPt.x + brushSize.cy + 1;
polyPts[2].x = toPt.x + brushSize.cy + 1;
polyPts[3].x = toPt.x + 1;
polyPts[4].x = toPt.x;
polyPts[5].x = fromPt.x;
polyPts[0].y = polyPts[1].y = fromPt.y;
polyPts[2].y = toPt.y;
polyPts[3].y = polyPts[4].y = toPt.y + brushSize.cy;
polyPts[5].y = fromPt.y + brushSize.cy;
break;
}
pDC->Polygon(polyPts, 6);
}
break;
case slantedRightBrush:
{
CPoint polyPts [6];
switch (octant)
{
case 0:
case 1:
polyPts[0].x = fromPt.x + brushSize.cy;
polyPts[1].x = fromPt.x + brushSize.cy + 1;
polyPts[2].x = toPt.x + brushSize.cy + 1;
polyPts[3].x = toPt.x + 1;
polyPts[4].x = toPt.x;
polyPts[5].x = fromPt.x;
polyPts[0].y = polyPts[1].y = fromPt.y + brushSize.cy;
polyPts[2].y = toPt.y + brushSize.cy;
polyPts[3].y = polyPts[4].y = toPt.y;
polyPts[5].y = fromPt.y;
break;
case 2 :
polyPts[0].x = fromPt.x + brushSize.cy + 1;
polyPts[1].x = fromPt.x + brushSize.cy;
polyPts[2].x = fromPt.x;
polyPts[3].x = toPt.x;
polyPts[4].x = toPt.x + 1;
polyPts[5].x = toPt.x + brushSize.cy + 1;
polyPts[0].y = polyPts[1].y = fromPt.y + brushSize.cy;
polyPts[2].y = fromPt.y;
polyPts[3].y = polyPts[4].y = toPt.y;
polyPts[5].y = toPt.y + brushSize.cy;
break;
case 3 :
polyPts[0].x = fromPt.x + brushSize.cy + 1;
polyPts[1].x = fromPt.x + brushSize.cy;
polyPts[2].x = toPt.x + brushSize.cy;
polyPts[3].x = toPt.x;
polyPts[4].x = toPt.x + 1;
polyPts[5].x = fromPt.x + 1;
polyPts[0].y = polyPts[1].y = fromPt.y + brushSize.cy;
polyPts[2].y = toPt.y + brushSize.cy;
polyPts[3].y = polyPts[4].y = toPt.y;
polyPts[5].y = fromPt.y;
break;
case 4 :
case 5 :
polyPts[0].x = fromPt.x + 1;
polyPts[1].x = fromPt.x;
polyPts[2].x = toPt.x;
polyPts[3].x = toPt.x + brushSize.cy;
polyPts[4].x = toPt.x + brushSize.cy + 1;
polyPts[5].x = fromPt.x + brushSize.cy + 1;
polyPts[0].y = polyPts[1].y = fromPt.y;
polyPts[2].y = toPt.y;
polyPts[3].y = polyPts[4].y = toPt.y + brushSize.cy;
polyPts[5].y = fromPt.y + brushSize.cy;
break;
case 6 :
polyPts[0].x = fromPt.x;
polyPts[1].x = fromPt.x + 1;
polyPts[2].x = fromPt.x + brushSize.cy + 1;
polyPts[3].x = toPt.x + brushSize.cy + 1;
polyPts[4].x = toPt.x + brushSize.cy;
polyPts[5].x = toPt.x;
polyPts[0].y = polyPts[1].y = fromPt.y;
polyPts[2].y = fromPt.y + brushSize.cy;
polyPts[3].y = polyPts[4].y = toPt.y + brushSize.cy;
polyPts[5].y = toPt.y;
break;
default :
polyPts[0].x = fromPt.x;
polyPts[1].x = fromPt.x + 1;
polyPts[2].x = toPt.x + 1;
polyPts[3].x = toPt.x + brushSize.cy + 1;
polyPts[4].x = toPt.x + brushSize.cy;
polyPts[5].x = fromPt.x + brushSize.cy;
polyPts[0].y = polyPts[1].y = fromPt.y;
polyPts[2].y = toPt.y;
polyPts[3].y = polyPts[4].y = toPt.y + brushSize.cy;
polyPts[5].y = fromPt.y + brushSize.cy;
break;
}
pDC->Polygon(polyPts, 6);
}
break;
}
pDC->SelectObject(pOldPen);
}
/***************************************************************************/
void SetCombineMode(int wNewCombineMode)
{
wCombineMode = wNewCombineMode;
}
/***************************************************************************/
static int cxLastShape;
static int cyLastShape;
static int cxShapeBitmap;
static int cyShapeBitmap;
static CBitmap shapeBitmap;
static enum { ellipse, roundRect } nLastShape;
void Mylipse(HDC hDC, int x1, int y1, int x2, int y2, BOOL bFilled)
{
COLORREF crNewBk, crNewText;
GetMonoBltColors(hDC, NULL, crNewBk, crNewText);
COLORREF crOldText = SetTextColor(hDC, crNewText);
COLORREF crOldBk = SetBkColor (hDC, crNewBk);
int cx = x2 - x1;
int cy = y2 - y1;
if (!bFilled)
{
Ellipse(hDC, x1, y1, x2, y2);
}
else
if (cx == cy && cx > 0 && cx <= 8)
{
// HACK: The Windows Ellipse function is no good for small ellipses, so I
// use some little bitmaps here for filled circles 1 to 8 pixels in
// diameter.
static CBitmap g_ellipses [8];
if (g_ellipses[cx - 1].m_hObject == NULL &&
! g_ellipses[cx - 1].LoadBitmap(IDB_ELLIPSE1 + cx - 1))
{
theApp.SetMemoryEmergency();
SetTextColor(hDC, crOldText);
SetBkColor(hDC, crOldBk);
return;
}
HDC hTempDC = CreateCompatibleDC(hDC);
if (hTempDC == NULL)
{
theApp.SetGdiEmergency();
SetTextColor(hDC, crOldText);
SetBkColor(hDC, crOldBk);
return;
}
HBITMAP hOldBitmap = (HBITMAP) SelectObject(hTempDC,
g_ellipses[cx - 1].m_hObject);
BitBlt(hDC, x1, y1, cx, cy, hTempDC, 0, 0, DSPDxax);
SelectObject(hTempDC, hOldBitmap);
DeleteDC(hTempDC);
}
else
if (cx > 0 && cy > 0)
{
// Actually, Ellipse() is just no good... Let's do as much
// as possible our selves to fix it! Here we draw the ellipse
// into a monochrome bitmap to get the shape and then use that
// as a mask to get the current pattern into the imge.
HDC hTempDC = CreateCompatibleDC(hDC);
if (hTempDC == NULL)
{
theApp.SetGdiEmergency();
SetTextColor(hDC, crOldText);
SetBkColor(hDC, crOldBk);
return;
}
BOOL bRefill = FALSE;
if (cx > cxShapeBitmap || cy > cyShapeBitmap)
{
shapeBitmap.DeleteObject();
if (shapeBitmap.CreateBitmap(cx, cy, 1, 1, NULL))
{
cxShapeBitmap = cx;
cyShapeBitmap = cy;
bRefill = TRUE;
}
}
if (shapeBitmap.m_hObject == NULL)
{
theApp.SetMemoryEmergency();
DeleteDC(hTempDC);
SetTextColor(hDC, crOldText);
SetBkColor(hDC, crOldBk);
return;
}
if (cx != cxLastShape || cy != cyLastShape || nLastShape != ellipse)
{
cxLastShape = cx;
cyLastShape = cy;
nLastShape = ellipse;
bRefill = TRUE;
}
HBITMAP hOldBitmap = (HBITMAP)SelectObject(hTempDC,
shapeBitmap.m_hObject);
if (bRefill)
{
PatBlt(hTempDC, 0, 0, cx, cy, BLACKNESS);
SelectObject(hTempDC, GetStockObject(WHITE_BRUSH));
SelectObject(hTempDC, GetStockObject(WHITE_PEN));
Ellipse(hTempDC, 0, 0, cx, cy);
}
BitBlt(hDC, x1, y1, cx, cy, hTempDC, 0, 0, DSPDxax);
SelectObject(hTempDC, hOldBitmap);
DeleteDC(hTempDC);
}
SetTextColor(hDC, crOldText);
SetBkColor(hDC, crOldBk);
}
/***************************************************************************/
#ifdef XYZZYZ
void MyRoundRect(HDC hDC, int x1, int y1, int x2, int y2,
int nEllipseWidth, int nEllipseHeight, BOOL bFilled)
{
int cx = x2 - x1;
int cy = y2 - y1;
if (!bFilled)
{
RoundRect(hDC, x1, y1, x2, y2, nEllipseWidth, nEllipseHeight);
return;
}
if (cx > 0 && cy > 0)
{
HDC hTempDC = CreateCompatibleDC(hDC);
if (hTempDC == NULL)
{
theApp.SetGdiEmergency();
return;
}
BOOL bRefill = FALSE;
if (cx > cxShapeBitmap || cy > cyShapeBitmap)
{
shapeBitmap.DeleteObject();
if (shapeBitmap.CreateBitmap(cx, cy, 1, 1, NULL))
{
cxShapeBitmap = cx;
cyShapeBitmap = cy;
bRefill = TRUE;
}
}
if (shapeBitmap.m_hObject == NULL)
{
theApp.SetMemoryEmergency();
DeleteDC(hTempDC);
return;
}
if (cx != cxLastShape || cy != cyLastShape || nLastShape != roundRect)
{
cxLastShape = cx;
cyLastShape = cy;
nLastShape = roundRect;
bRefill = TRUE;
}
HBITMAP hOldBitmap = (HBITMAP)SelectObject(hTempDC,
shapeBitmap.m_hObject);
if (bRefill)
{
PatBlt(hTempDC, 0, 0, cx, cy, BLACKNESS);
SelectObject(hTempDC, GetStockObject(WHITE_BRUSH));
SelectObject(hTempDC, GetStockObject(WHITE_PEN));
RoundRect(hTempDC, 0, 0, cx, cy, nEllipseWidth, nEllipseHeight);
}
BitBlt(hDC, x1, y1, cx, cy, hTempDC, 0, 0, DSna);
BitBlt(hDC, x1, y1, cx, cy, hTempDC, 0, 0, DSPao);
SelectObject(hTempDC, hOldBitmap);
DeleteDC(hTempDC);
}
}
#endif
/***************************************************************************/
void PolyTo(CDC* pDC, CPoint fromPt, CPoint toPt, CSize size)
{
CPoint polyPts [6];
if (toPt.x > fromPt.x)
{
polyPts[0].x = polyPts[1].x = fromPt.x;
polyPts[2].x = toPt.x;
polyPts[3].x = polyPts[4].x = toPt.x + size.cx;
polyPts[5].x = fromPt.x + size.cx;
}
else
{
polyPts[0].x = polyPts[1].x = fromPt.x + size.cx;
polyPts[2].x = toPt.x + size.cx;
polyPts[3].x = polyPts[4].x = toPt.x;
polyPts[5].x = fromPt.x;
}
if (toPt.y > fromPt.y)
{
polyPts[0].y = polyPts[5].y = fromPt.y;
polyPts[1].y = fromPt.y + size.cy;
polyPts[2].y = polyPts[3].y = toPt.y + size.cy;
polyPts[4].y = toPt.y;
}
else
{
polyPts[0].y = polyPts[5].y = fromPt.y + size.cy;
polyPts[1].y = fromPt.y;
polyPts[2].y = polyPts[3].y = toPt.y;
polyPts[4].y = toPt.y + size.cy;
}
if (pDC)
pDC->Polygon(polyPts, 6);
}
/***************************************************************************/
BOOL GetTanPt(CSize size, CPoint delta, CRect& tan)
{
int x, y;
int xExt, yExt, theExt, xTemp;
CDC dc;
CBitmap* pOldBitmap, bitmap;
size.cx += 1;
size.cy += 1;
tan.SetRect(0, 0, 0, 0);
if (!dc.CreateCompatibleDC(NULL))
{
theApp.SetGdiEmergency();
return FALSE;
}
if (!bitmap.CreateCompatibleBitmap(&dc, size.cx, size.cy))
{
theApp.SetMemoryEmergency();
return FALSE;
}
VERIFY((pOldBitmap = dc.SelectObject(&bitmap)));
TRY
{
CBrush cBrushWhite(PALETTERGB(0xff, 0xff, 0xff));
CRect cRectTmp(0,0,size.cx, size.cy);
dc.FillRect(&cRectTmp, &cBrushWhite);
// dc.PatBlt(0, 0, size.cx, size.cy, WHITENESS);
}
CATCH(CResourceException, e)
{
}
END_CATCH
dc.SelectStockObject(NULL_PEN);
dc.SelectStockObject(BLACK_BRUSH);
Mylipse(dc.m_hDC, 0, 0, size.cx, size.cy, TRUE);
yExt = 0;
for (xExt = 0; xExt < size.cx - 1; xExt++)
{
if (dc.GetPixel(xExt, 0) == 0)
break;
}
theExt = 10 * xExt;
if (delta.y == 0)
{
tan.SetRect(xExt, 0, xExt, size.cy - 1);
}
else
{
for (y = 0; y < size.cy; y++)
{
for (x = 0; x < size.cx - 1; x++)
{
if (dc.GetPixel(x, y) == 0)
break;
}
xTemp = 10 * x - 10 * y * delta.x / delta.y;
if (theExt > xTemp)
{
xExt = x;
yExt = y;
theExt = xTemp;
}
else
if (theExt < xTemp)
{
break;
}
}
tan.left = xExt;
tan.top = yExt;
for (y = 0; y < size.cy; y++)
{
for (x = size.cx - 1; x > 0; x--)
{
if (dc.GetPixel(x, y) == 0)
break;
}
xTemp = 10 * x - 10 * y * delta.x / delta.y;
if (theExt < xTemp)
{
xExt = x;
yExt = y;
theExt = xTemp;
}
else
if (theExt > xTemp)
{
break;
}
}
tan.right = xExt;
tan.bottom = yExt;
}
dc.SelectObject(pOldBitmap);
return TRUE;
}
/***************************************************************************/
void PickupSelection()
{
// Time to pick up the bits!
ASSERT(theImgBrush.m_pImg);
if (theImgBrush.m_pImg == NULL)
return;
CPalette* ppalOld = theImgBrush.SetBrushPalette( &theImgBrush.m_dc, FALSE ); // Background ??
CDC* pImgDC = CDC::FromHandle( theImgBrush.m_pImg->hDC );
if (CImgTool::GetCurrentID() == IDMB_PICKRGNTOOL)
{
TRY {
CBrush cBrushBk( crRight );
CRect cRectTmp( 0, 0, theImgBrush.m_size.cx,
theImgBrush.m_size.cy );
theImgBrush.m_dc.FillRect( &cRectTmp, &cBrushBk );
}
CATCH(CResourceException, e)
{
theApp.SetGdiEmergency();
return;
}
END_CATCH
if (theImgBrush.m_cRgnPolyFreeHandSel.GetSafeHandle())
{
theImgBrush.m_dc.SelectClipRgn(&theImgBrush.m_cRgnPolyFreeHandSel);
theImgBrush.m_dc.StretchBlt( 0, 0, theImgBrush.m_size.cx,
theImgBrush.m_size.cy,
pImgDC, theImgBrush.m_rcSelection.left,
theImgBrush.m_rcSelection.top,
theImgBrush.m_rcSelection.Width(),
theImgBrush.m_rcSelection.Height(),
SRCCOPY );
theImgBrush.m_dc.SelectClipRgn(NULL);
}
}
else
{
theImgBrush.m_dc.BitBlt( 0, 0, theImgBrush.m_size.cx,
theImgBrush.m_size.cy,
pImgDC, theImgBrush.m_rcSelection.left,
theImgBrush.m_rcSelection.top, SRCCOPY );
}
if (ppalOld)
theImgBrush.m_dc.SelectPalette( ppalOld, FALSE );
theImgBrush.RecalcMask( crRight );
}
/***************************************************************************/
void CommitSelection(BOOL bSetUndo)
{
if (theImgBrush.m_bMakingSelection)
return;
if (! theImgBrush.m_bSmearSel
&& ( theImgBrush.m_pImg == NULL
|| theImgBrush.m_bFirstDrag
|| theImgBrush.m_bLastDragWasASmear))
{
return;
}
if (theImgBrush.m_bLastDragWasFirst
&& (theImgBrush.m_bMoveSel
|| theImgBrush.m_bSmearSel))
{
return;
}
TRACE1( "CommitSelection(%d)\n", bSetUndo );
if (bSetUndo)
{
HideBrush();
CRect rectUndo = theImgBrush.m_rcSelection;
if (theImgBrush.m_bLastDragWasFirst)
{
theImgBrush.m_bLastDragWasFirst = FALSE;
rectUndo |= theImgBrush.m_rcDraggedFrom;
}
else
{
SetUndo(theImgBrush.m_pImg);
}
CImgWnd::c_pImgWndCur->FinishUndo(rectUndo);
}
if (CImgTool::GetCurrentID() != IDMX_TEXTTOOL)
{
if (theImgBrush.m_bOpaque)
{
theImgBrush.BltReplace( theImgBrush.m_pImg,
theImgBrush.m_rcSelection.TopLeft() );
}
else
{
theImgBrush.BltMatte( theImgBrush.m_pImg,
theImgBrush.m_rcSelection.TopLeft() );
}
}
InvalImgRect ( theImgBrush.m_pImg, &theImgBrush.m_rcSelection );
CommitImgRect( theImgBrush.m_pImg, &theImgBrush.m_rcSelection );
DirtyImg( theImgBrush.m_pImg );
}
/***************************************************************************/
void AddImgWnd(IMG* pimg, CImgWnd* pImgWnd)
{
ASSERT(pImgWnd->m_pNextImgWnd == NULL);
pImgWnd->m_pNextImgWnd = pimg->m_pFirstImgWnd;
pimg->m_pFirstImgWnd = pImgWnd;
}
/***************************************************************************/
void GetImgSize(IMG* pImg, CSize& size)
{
size.cx = pImg->cxWidth;
size.cy = pImg->cyHeight;
}
/***************************************************************************/
BOOL SetImgSize(IMG* pImg, CSize newSize, BOOL bStretch)
{
if (newSize.cx != pImg->cxWidth
|| newSize.cy != pImg->cyHeight)
{
HBITMAP hNewBitmap = CreateCompatibleBitmap( pImg->hDC,
newSize.cx, newSize.cy );
if (hNewBitmap == NULL)
{
return FALSE;
}
HDC hDC = CreateCompatibleDC( pImg->hDC );
if (hDC == NULL)
{
DeleteObject( hNewBitmap );
return FALSE;
}
HBITMAP hOldBitmap = (HBITMAP)SelectObject( hDC, hNewBitmap );
ASSERT( hOldBitmap );
HPALETTE hpalOld = NULL;
if (theApp.m_pPalette
&& theApp.m_pPalette->m_hObject)
{
hpalOld = SelectPalette( hDC, (HPALETTE)theApp.m_pPalette->m_hObject, FALSE ); // Background ??
RealizePalette( hDC );
}
if (bStretch)
{
UINT uStretch = HALFTONE;
if (pImg->cPlanes * pImg->cBitCount == 1)
{
uStretch = BLACKONWHITE;
if (GetRValue( crLeft )
|| GetGValue( crLeft )
|| GetBValue( crLeft ))
uStretch = WHITEONBLACK;
}
SetStretchBltMode( hDC, uStretch );
StretchCopy( hDC, 0, 0, newSize.cx, newSize.cy,
pImg->hDC, 0, 0, pImg->cxWidth, pImg->cyHeight );
}
else
{
// Fill it with the background color first!
HBRUSH hBrush = ::CreateSolidBrush(crRight);
ASSERT(hBrush);
if (hBrush)
{
HBRUSH hOldBrush = (HBRUSH)SelectObject(hDC, hBrush);
ASSERT(hOldBrush);
PatBlt(hDC, 0, 0, newSize.cx, newSize.cy, PATCOPY);
VERIFY(SelectObject(hDC, hOldBrush) == hBrush);
DeleteObject(hBrush);
}
BitBlt(hDC, 0, 0, newSize.cx, newSize.cy, pImg->hDC, 0, 0, SRCCOPY);
}
if (hpalOld)
SelectPalette( hDC, hpalOld, FALSE ); // Background ??
VERIFY( SelectObject( hDC, hOldBitmap) == hNewBitmap );
VERIFY( SelectObject( pImg->hDC, hNewBitmap) == pImg->hBitmap );
DeleteObject( pImg->hBitmap );
DeleteDC( hDC );
pImg->hBitmap = hNewBitmap;
pImg->cxWidth = newSize.cx;
pImg->cyHeight = newSize.cy;
pRubberImg = NULL;
SetupRubber( pImg );
InvalImgRect(pImg, NULL);
CImgWnd* pImgWnd = pImg->m_pFirstImgWnd;
while (pImgWnd)
{
pImgWnd->Invalidate( FALSE );
pImgWnd->CheckScrollBars();
pImgWnd = pImgWnd->m_pNextImgWnd;
}
}
return TRUE;
}
/***************************************************************************/
// This may be set to TRUE via the "DriverCanStretch" entry in the INI file.
// Doing so will speed up the graphics editor, but will cause some device
// drivers to crash (hence the FALSE default).
//
BOOL g_bDriverCanStretch = TRUE;
void StretchCopy( HDC hdcDest, int xDest, int yDest, int cxDest, int cyDest,
HDC hdcSrc , int xSrc , int ySrc , int cxSrc , int cySrc )
{
if (cxDest == cxSrc && cyDest == cySrc)
{
// No point in using the trick if we're not really stretching...
BitBlt(hdcDest, xDest, yDest, cxDest, cyDest,
hdcSrc, xSrc, ySrc, SRCCOPY);
}
else
if (g_bDriverCanStretch ||
cxDest < 0 || cyDest < 0 || cxSrc < 0 || cySrc < 0)
{
// We can't use the following trick when flipping, but the
// driver will usually pass things on to GDI here anyway...
StretchBlt(hdcDest, xDest, yDest, cxDest, cyDest,
hdcSrc, xSrc, ySrc, cxSrc, cySrc, SRCCOPY);
}
else
{
// Some drivers (e.g. Paradise) crash on memory to memory stretches,
// so we trick them into just using GDI here by not using SRCCOPY...
PatBlt(hdcDest, xDest, yDest, cxDest, cyDest, BLACKNESS);
StretchBlt(hdcDest, xDest, yDest, cxDest, cyDest,
hdcSrc, xSrc, ySrc, cxSrc, cySrc, DSo);
}
}
/***************************************************************************/
void StandardiseCoords(CPoint* s, CPoint* e)
{
if (s->x > e->x)
{
int tx;
tx = s->x;
s->x = e->x;
e->x = tx;
}
if (s->y > e->y)
{
int ty;
ty = s->y;
s->y = e->y;
e->y = ty;
}
}
/***************************************************************************/
CPalette* MergePalettes( CPalette *pPal1, CPalette *pPal2, int& iAdds )
{
int iPal1NumEntries;
int iPal2NumEntries;
LOGPALETTE256 LogPal1;
LOGPALETTE256 LogPal2;
CPalette* pPalMerged = NULL;
iAdds = 0;
if (pPal1 == NULL || pPal2 == NULL)
return NULL;
iPal1NumEntries = pPal1->GetPaletteEntries( 0, 256, &LogPal1.palPalEntry[0] );
pPal1->GetPaletteEntries( 0, iPal1NumEntries, &LogPal1.palPalEntry[0] );
iPal2NumEntries = pPal2->GetPaletteEntries( 0, 256, &LogPal2.palPalEntry[0] );
pPal2->GetPaletteEntries( 0, iPal2NumEntries, &LogPal2.palPalEntry[0] );
// check if room left in 1st palette to merge. If no room, then use 1st palette
for (int i = 0; i < iPal2NumEntries
&& iPal1NumEntries < MAX_PALETTE_COLORS; i++)
{
for (int j = 0; j < iPal1NumEntries; j++)
{
if (LogPal1.palPalEntry[j].peRed == LogPal2.palPalEntry[i].peRed
&& LogPal1.palPalEntry[j].peGreen == LogPal2.palPalEntry[i].peGreen
&& LogPal1.palPalEntry[j].peBlue == LogPal2.palPalEntry[i].peBlue)
break;
}
if (j < iPal1NumEntries)
continue; // found one
// color was not found in 1st palette add it if room
LogPal1.palPalEntry[iPal1NumEntries++] = LogPal2.palPalEntry[i];
iAdds++;
}
LogPal1.palVersion = 0x300;
LogPal1.palNumEntries = (WORD)iPal1NumEntries;
pPalMerged = new CPalette();
if (pPalMerged)
if (! CreateSafePalette(pPalMerged, (LPLOGPALETTE)&LogPal1 ))
{
delete pPalMerged;
pPalMerged = NULL;
}
return pPalMerged;
}
/******************************************************************************/
void AdjustPointForGrid(CPoint *ptPointLocation)
{
if (theApp.m_iSnapToGrid != 0)
{
int iNextGridOffset;
iNextGridOffset = ptPointLocation->x % theApp.m_iGridExtent;
// if distance to next grid is less than 1/2 distance between grids
// closer to previous grid
if (iNextGridOffset <= theApp.m_iGridExtent/2)
{
iNextGridOffset *= -1; // closer to previous grid location
}
else
{
iNextGridOffset = theApp.m_iGridExtent -iNextGridOffset; // closer to next grid location
}
ptPointLocation->x = ptPointLocation->x + iNextGridOffset;
// if distance to next grid is less than 1/2 distance between grids
// closer to previous grid
iNextGridOffset = ptPointLocation->y % theApp.m_iGridExtent;
if (iNextGridOffset <= theApp.m_iGridExtent/2)
{
iNextGridOffset *= -1; // closer to previous grid location
}
else
{
iNextGridOffset = theApp.m_iGridExtent -iNextGridOffset; // closer to next grid location
}
ptPointLocation->y = ptPointLocation->y + iNextGridOffset;
}
}
static unsigned short bmapHorzBorder [] =
{ 0xF0, 0xF0, 0xF0, 0xF0, 0xF0, 0xF0, 0xF0, 0xF0 };
static unsigned short bmapVertBorder [] =
{ 0xFF, 0xFF, 0xFF, 0xFF, 0x00, 0x00, 0x00, 0x00 };
CBrush g_brSelectHorz;
CBrush g_brSelectVert;
static CBitmap m_bmSelectHorz;
static CBitmap m_bmSelectVert;
void InitCustomData() // called once in main
{
//
// no windows critical error message box, return errors to open call
//
if (m_bmSelectHorz.CreateBitmap( 8, 8, 1, 1, (LPSTR)bmapHorzBorder ))
g_brSelectHorz.CreatePatternBrush( &m_bmSelectHorz );
if (m_bmSelectVert.CreateBitmap( 8, 8, 1, 1, (LPSTR)bmapVertBorder ))
g_brSelectVert.CreatePatternBrush( &m_bmSelectVert );
SetErrorMode( SEM_FAILCRITICALERRORS );
}
//
// make sure global resoures are freed
//
void CustomExit()
{
if (g_brSelectHorz.m_hObject)
g_brSelectHorz.DeleteObject();
if (m_bmSelectHorz.m_hObject)
m_bmSelectHorz.DeleteObject();
if (g_brSelectVert.m_hObject)
g_brSelectVert.DeleteObject();
if (m_bmSelectVert.m_hObject)
m_bmSelectVert.DeleteObject();
}
/*
int FileTypeFromExtension( const TCHAR far* lpcExt )
{
if (*lpcExt == TEXT('.')) // skip the . in .*
lpcExt++;
// must be redone
return NULL;
}
*/
CPalette *PBSelectPalette(CDC *pDC, CPalette *pPalette, BOOL bForceBk)
{
if (!pPalette)
{
return(NULL);
}
if (IsInPlace())
{
bForceBk = TRUE;
}
CPalette *ppalOld = pDC->SelectPalette( theApp.m_pPalette, bForceBk );
pDC->RealizePalette();
return(ppalOld);
}