reactos/sdk/lib/atl/atlimage.h
Katayama Hirofumi MZ 29e147beca
[MSPAINT][ATL] Encapsulation: mainWindow (#5178)
- Add DoCreate methods to CFullscreenWindow, CMiniatureWindow, and CMainWindow classes.
- Do encapsulation around mainWindow and _tWinMain.
- Add GetOpenFileName, GetSaveFileName, and ChooseColor helper methods to CMainWindow class.
- Move some code in WinMain into CMainWindow::OnCreate.
- Delay creation of CFullscreenWindow and CMiniatureWindow.
- Extend ATL CImage class as CImageDx in newly-created atlimagedx.h of mspaint.
CORE-18867
2023-03-28 22:31:26 +09:00

1226 lines
38 KiB
C++

// PROJECT: ReactOS ATL CImage
// LICENSE: Public Domain
// PURPOSE: Provides compatibility to Microsoft ATL
// PROGRAMMERS: Katayama Hirofumi MZ (katayama.hirofumi.mz@gmail.com)
#ifndef __ATLIMAGE_H__
#define __ATLIMAGE_H__
// !!!!
// TODO: The backend (gdi+) that this class relies on is not yet complete!
// Before that is finished, this class will not be a perfect replacement.
// See rostest/apitests/atl/CImage_WIP.txt for test results.
// !!!!
// TODO: CImage::Load, CImage::Save
// TODO: make CImage thread-safe
#pragma once
#include <atlcore.h> // for ATL Core
#include <atlstr.h> // for CAtlStringMgr
#include <atlsimpstr.h> // for CSimpleString
#include <atlsimpcoll.h> // for CSimpleArray
#include <wingdi.h>
#include <cguid.h> // for GUID_NULL
#include <gdiplus.h> // GDI+
namespace ATL
{
class CImage
{
public:
// flags for CImage::Create/CreateEx
enum
{
createAlphaChannel = 1 // enable alpha
};
// orientation of DIB
enum DIBOrientation
{
DIBOR_DEFAULT, // default
DIBOR_BOTTOMUP, // bottom-up DIB
DIBOR_TOPDOWN // top-down DIB
};
CImage() throw()
{
m_hbm = NULL;
m_hbmOld = NULL;
m_hDC = NULL;
m_eOrientation = DIBOR_DEFAULT;
m_bHasAlphaCh = false;
m_bIsDIBSec = false;
m_rgbTransColor = CLR_INVALID;
ZeroMemory(&m_ds, sizeof(m_ds));
if (GetCommon().AddRef() == 1)
{
GetCommon().LoadLib();
}
}
~CImage()
{
Destroy();
ReleaseGDIPlus();
}
operator HBITMAP()
{
return m_hbm;
}
public:
void Attach(HBITMAP hBitmap, DIBOrientation eOrientation = DIBOR_DEFAULT)
{
AttachInternal(hBitmap, eOrientation, -1);
}
HBITMAP Detach() throw()
{
m_eOrientation = DIBOR_DEFAULT;
m_bHasAlphaCh = false;
m_rgbTransColor = CLR_INVALID;
ZeroMemory(&m_ds, sizeof(m_ds));
HBITMAP hBitmap = m_hbm;
m_hbm = NULL;
return hBitmap;
}
HDC GetDC() const throw()
{
if (m_hDC)
return m_hDC;
m_hDC = ::CreateCompatibleDC(NULL);
m_hbmOld = ::SelectObject(m_hDC, m_hbm);
return m_hDC;
}
void ReleaseDC() const throw()
{
ATLASSERT(m_hDC);
if (m_hDC == NULL)
return;
if (m_hbmOld)
{
::SelectObject(m_hDC, m_hbmOld);
m_hbmOld = NULL;
}
::DeleteDC(m_hDC);
m_hDC = NULL;
}
public:
BOOL AlphaBlend(HDC hDestDC,
int xDest, int yDest, int nDestWidth, int nDestHeight,
int xSrc, int ySrc, int nSrcWidth, int nSrcHeight,
BYTE bSrcAlpha = 0xFF, BYTE bBlendOp = AC_SRC_OVER) const
{
ATLASSERT(IsTransparencySupported());
BLENDFUNCTION bf;
bf.BlendOp = bBlendOp;
bf.BlendFlags = 0;
bf.SourceConstantAlpha = bSrcAlpha;
bf.AlphaFormat = AC_SRC_ALPHA;
GetDC();
BOOL ret = ::AlphaBlend(hDestDC, xDest, yDest, nDestWidth, nDestHeight,
m_hDC, xSrc, ySrc, nSrcWidth, nSrcHeight, bf);
ReleaseDC();
return ret;
}
BOOL AlphaBlend(HDC hDestDC, int xDest, int yDest,
BYTE bSrcAlpha = 0xFF, BYTE bBlendOp = AC_SRC_OVER) const
{
int width = GetWidth();
int height = GetHeight();
return AlphaBlend(hDestDC, xDest, yDest, width, height, 0, 0,
width, height, bSrcAlpha, bBlendOp);
}
BOOL AlphaBlend(HDC hDestDC, const POINT& pointDest,
BYTE bSrcAlpha = 0xFF, BYTE bBlendOp = AC_SRC_OVER) const
{
return AlphaBlend(hDestDC, pointDest.x, pointDest.y, bSrcAlpha, bBlendOp);
}
BOOL AlphaBlend(HDC hDestDC, const RECT& rectDest, const RECT& rectSrc,
BYTE bSrcAlpha = 0xFF, BYTE bBlendOp = AC_SRC_OVER) const
{
return AlphaBlend(hDestDC, rectDest.left, rectDest.top,
rectDest.right - rectDest.left,
rectDest.bottom - rectDest.top,
rectSrc.left, rectSrc.top,
rectSrc.right - rectSrc.left,
rectSrc.bottom - rectSrc.top,
bSrcAlpha, bBlendOp);
}
BOOL BitBlt(HDC hDestDC, int xDest, int yDest,
int nDestWidth, int nDestHeight,
int xSrc, int ySrc, DWORD dwROP = SRCCOPY) const throw()
{
GetDC();
BOOL ret = ::BitBlt(hDestDC, xDest, yDest, nDestWidth, nDestHeight,
m_hDC, xSrc, ySrc, dwROP);
ReleaseDC();
return ret;
}
BOOL BitBlt(HDC hDestDC, int xDest, int yDest,
DWORD dwROP = SRCCOPY) const throw()
{
return BitBlt(hDestDC, xDest, yDest,
GetWidth(), GetHeight(), 0, 0, dwROP);
}
BOOL BitBlt(HDC hDestDC, const POINT& pointDest,
DWORD dwROP = SRCCOPY) const throw()
{
return BitBlt(hDestDC, pointDest.x, pointDest.y, dwROP);
}
BOOL BitBlt(HDC hDestDC, const RECT& rectDest, const POINT& pointSrc,
DWORD dwROP = SRCCOPY) const throw()
{
return BitBlt(hDestDC, rectDest.left, rectDest.top,
rectDest.right - rectDest.left,
rectDest.bottom - rectDest.top,
pointSrc.x, pointSrc.y, dwROP);
}
BOOL Create(int nWidth, int nHeight, int nBPP, DWORD dwFlags = 0) throw()
{
return CreateEx(nWidth, nHeight, nBPP, BI_RGB, NULL, dwFlags);
}
BOOL CreateEx(int nWidth, int nHeight, int nBPP, DWORD eCompression,
const DWORD* pdwBitmasks = NULL, DWORD dwFlags = 0) throw()
{
return CreateInternal(nWidth, nHeight, nBPP, eCompression, pdwBitmasks, dwFlags);
}
void Destroy() throw()
{
if (m_hbm)
{
::DeleteObject(Detach());
}
}
BOOL Draw(HDC hDestDC, int xDest, int yDest, int nDestWidth, int nDestHeight,
int xSrc, int ySrc, int nSrcWidth, int nSrcHeight) const throw()
{
ATLASSERT(IsTransparencySupported());
if (m_bHasAlphaCh)
{
return AlphaBlend(hDestDC, xDest, yDest, nDestWidth, nDestHeight,
xSrc, ySrc, nSrcWidth, nSrcHeight);
}
else if (m_rgbTransColor != CLR_INVALID)
{
COLORREF rgb;
if ((m_rgbTransColor & 0xFF000000) == 0x01000000)
rgb = RGBFromPaletteIndex(m_rgbTransColor & 0xFF);
else
rgb = m_rgbTransColor;
return TransparentBlt(hDestDC, xDest, yDest, nDestWidth, nDestHeight,
xSrc, ySrc, nSrcWidth, nSrcHeight, rgb);
}
else
{
return StretchBlt(hDestDC, xDest, yDest, nDestWidth, nDestHeight,
xSrc, ySrc, nSrcWidth, nSrcHeight);
}
}
BOOL Draw(HDC hDestDC, const RECT& rectDest, const RECT& rectSrc) const throw()
{
return Draw(hDestDC, rectDest.left, rectDest.top,
rectDest.right - rectDest.left,
rectDest.bottom - rectDest.top,
rectSrc.left, rectSrc.top,
rectSrc.right - rectSrc.left,
rectSrc.bottom - rectSrc.top);
}
BOOL Draw(HDC hDestDC, int xDest, int yDest) const throw()
{
return Draw(hDestDC, xDest, yDest, GetWidth(), GetHeight());
}
BOOL Draw(HDC hDestDC, const POINT& pointDest) const throw()
{
return Draw(hDestDC, pointDest.x, pointDest.y);
}
BOOL Draw(HDC hDestDC, int xDest, int yDest,
int nDestWidth, int nDestHeight) const throw()
{
return Draw(hDestDC, xDest, yDest, nDestWidth, nDestHeight,
0, 0, GetWidth(), GetHeight());
}
BOOL Draw(HDC hDestDC, const RECT& rectDest) const throw()
{
return Draw(hDestDC, rectDest.left, rectDest.top,
rectDest.right - rectDest.left,
rectDest.bottom - rectDest.top);
}
void *GetBits() throw()
{
ATLASSERT(IsDIBSection());
BYTE *pb = (BYTE *)m_bm.bmBits;
if (m_eOrientation == DIBOR_BOTTOMUP)
{
pb += m_bm.bmWidthBytes * (m_bm.bmHeight - 1);
}
return pb;
}
int GetBPP() const throw()
{
ATLASSERT(m_hbm);
return m_bm.bmBitsPixel;
}
void GetColorTable(UINT iFirstColor, UINT nColors,
RGBQUAD* prgbColors) const throw()
{
ATLASSERT(IsDIBSection());
GetDC();
::GetDIBColorTable(m_hDC, iFirstColor, nColors, prgbColors);
ReleaseDC();
}
int GetHeight() const throw()
{
ATLASSERT(m_hbm);
return m_bm.bmHeight;
}
int GetMaxColorTableEntries() const throw()
{
ATLASSERT(IsDIBSection());
if (m_ds.dsBmih.biClrUsed && m_ds.dsBmih.biBitCount < 16)
return m_ds.dsBmih.biClrUsed;
switch (m_bm.bmBitsPixel)
{
case 1: return 2;
case 4: return 16;
case 8: return 256;
case 16: case 32:
if (m_ds.dsBmih.biCompression == BI_BITFIELDS)
return 3;
return 0;
case 24:
default:
return 0;
}
}
int GetPitch() const throw()
{
ATLASSERT(IsDIBSection());
if (m_eOrientation == DIBOR_BOTTOMUP)
return -m_bm.bmWidthBytes;
else
return m_bm.bmWidthBytes;
}
COLORREF GetPixel(int x, int y) const throw()
{
GetDC();
COLORREF ret = ::GetPixel(m_hDC, x, y);
ReleaseDC();
return ret;
}
void* GetPixelAddress(int x, int y) throw()
{
ATLASSERT(IsDIBSection());
BYTE *pb = (BYTE *)GetBits();
pb += GetPitch() * y;
pb += (GetBPP() * x) / 8;
return pb;
}
COLORREF GetTransparentColor() const throw()
{
return m_rgbTransColor;
}
int GetWidth() const throw()
{
ATLASSERT(m_hbm);
return m_bm.bmWidth;
}
bool IsDIBSection() const throw()
{
ATLASSERT(m_hbm);
return m_bIsDIBSec;
}
bool IsIndexed() const throw()
{
ATLASSERT(IsDIBSection());
return GetBPP() <= 8;
}
bool IsNull() const throw()
{
return m_hbm == NULL;
}
HRESULT Load(LPCTSTR pszFileName) throw()
{
// convert the file name string into Unicode
CStringW pszNameW(pszFileName);
// create a GpBitmap object from file
using namespace Gdiplus;
GpBitmap *pBitmap = NULL;
if (GetCommon().CreateBitmapFromFile(pszNameW, &pBitmap) != Ok)
{
return E_FAIL;
}
// TODO & FIXME: get parameters (m_rgbTransColor etc.)
// get bitmap handle
HBITMAP hbm = NULL;
Color color(0xFF, 0xFF, 0xFF);
Gdiplus::Status status;
status = GetCommon().CreateHBITMAPFromBitmap(
pBitmap, &hbm, color.GetValue());
// delete GpBitmap
GetCommon().DisposeImage(pBitmap);
// attach it
if (status == Ok)
Attach(hbm);
return (status == Ok ? S_OK : E_FAIL);
}
HRESULT Load(IStream* pStream) throw()
{
// create GpBitmap from stream
using namespace Gdiplus;
GpBitmap *pBitmap = NULL;
if (GetCommon().CreateBitmapFromStream(pStream, &pBitmap) != Ok)
{
return E_FAIL;
}
// TODO & FIXME: get parameters (m_rgbTransColor etc.)
// get bitmap handle
HBITMAP hbm = NULL;
Color color(0xFF, 0xFF, 0xFF);
Gdiplus::Status status;
status = GetCommon().CreateHBITMAPFromBitmap(
pBitmap, &hbm, color.GetValue());
// delete Bitmap
GetCommon().DisposeImage(pBitmap);
// attach it
if (status == Ok)
Attach(hbm);
return (status == Ok ? S_OK : E_FAIL);
}
// NOTE: LoadFromResource loads BITMAP resource only
void LoadFromResource(HINSTANCE hInstance, LPCTSTR pszResourceName) throw()
{
HANDLE hHandle = ::LoadImage(hInstance, pszResourceName,
IMAGE_BITMAP, 0, 0, LR_CREATEDIBSECTION);
Attach(reinterpret_cast<HBITMAP>(hHandle));
}
void LoadFromResource(HINSTANCE hInstance, UINT nIDResource) throw()
{
LoadFromResource(hInstance, MAKEINTRESOURCE(nIDResource));
}
BOOL MaskBlt(HDC hDestDC, int xDest, int yDest,
int nDestWidth, int nDestHeight, int xSrc, int ySrc,
HBITMAP hbmMask, int xMask, int yMask,
DWORD dwROP = SRCCOPY) const throw()
{
ATLASSERT(IsTransparencySupported());
GetDC();
BOOL ret = ::MaskBlt(hDestDC, xDest, yDest, nDestWidth, nDestHeight,
m_hDC, xSrc, ySrc,
hbmMask, xMask, yMask, dwROP);
ReleaseDC();
return ret;
}
BOOL MaskBlt(HDC hDestDC, const RECT& rectDest, const POINT& pointSrc,
HBITMAP hbmMask, const POINT& pointMask,
DWORD dwROP = SRCCOPY) const throw()
{
return MaskBlt(hDestDC, rectDest.left, rectDest.top,
rectDest.right - rectDest.left, rectDest.bottom - rectDest.top,
pointSrc.x, pointSrc.y, hbmMask, pointMask.x, pointMask.y, dwROP);
}
BOOL MaskBlt(HDC hDestDC, int xDest, int yDest,
HBITMAP hbmMask, DWORD dwROP = SRCCOPY) const throw()
{
return MaskBlt(hDestDC, xDest, yDest, GetWidth(), GetHeight(),
0, 0, hbmMask, 0, 0, dwROP);
}
BOOL MaskBlt(HDC hDestDC, const POINT& pointDest,
HBITMAP hbmMask, DWORD dwROP = SRCCOPY) const throw()
{
return MaskBlt(hDestDC, pointDest.x, pointDest.y, hbmMask, dwROP);
}
BOOL PlgBlt(HDC hDestDC, const POINT* pPoints,
int xSrc, int ySrc, int nSrcWidth, int nSrcHeight,
HBITMAP hbmMask = NULL,
int xMask = 0, int yMask = 0) const throw()
{
ATLASSERT(IsTransparencySupported());
GetDC();
BOOL ret = ::PlgBlt(hDestDC, pPoints, m_hDC,
xSrc, ySrc, nSrcWidth, nSrcHeight,
hbmMask, xMask, yMask);
ReleaseDC();
return ret;
}
BOOL PlgBlt(HDC hDestDC, const POINT* pPoints,
HBITMAP hbmMask = NULL) const throw()
{
return PlgBlt(hDestDC, pPoints, 0, 0, GetWidth(), GetHeight(),
hbmMask);
}
BOOL PlgBlt(HDC hDestDC, const POINT* pPoints, const RECT& rectSrc,
HBITMAP hbmMask, const POINT& pointMask) const throw()
{
return PlgBlt(hDestDC, pPoints, rectSrc.left, rectSrc.top,
rectSrc.right - rectSrc.left, rectSrc.bottom - rectSrc.top,
hbmMask, pointMask.x, pointMask.y);
}
BOOL PlgBlt(HDC hDestDC, const POINT* pPoints, const RECT& rectSrc,
HBITMAP hbmMask = NULL) const throw()
{
POINT pointMask = {0, 0};
return PlgBlt(hDestDC, pPoints, rectSrc, hbmMask, pointMask);
}
void ReleaseGDIPlus() throw()
{
COMMON*& pCommon = GetCommonPtr();
if (pCommon && pCommon->Release() == 0)
{
delete pCommon;
pCommon = NULL;
}
}
HRESULT Save(IStream* pStream, GUID *guidFileType) const throw()
{
using namespace Gdiplus;
ATLASSERT(m_hbm);
// TODO & FIXME: set parameters (m_rgbTransColor etc.)
CLSID clsid;
if (!GetClsidFromFileType(&clsid, guidFileType))
return E_FAIL;
// create a GpBitmap from HBITMAP
GpBitmap *pBitmap = NULL;
GetCommon().CreateBitmapFromHBITMAP(m_hbm, NULL, &pBitmap);
// save to stream
Status status;
status = GetCommon().SaveImageToStream(pBitmap, pStream, &clsid, NULL);
// destroy GpBitmap
GetCommon().DisposeImage(pBitmap);
return (status == Ok ? S_OK : E_FAIL);
}
HRESULT Save(LPCTSTR pszFileName,
REFGUID guidFileType = GUID_NULL) const throw()
{
using namespace Gdiplus;
ATLASSERT(m_hbm);
// TODO & FIXME: set parameters (m_rgbTransColor etc.)
// convert the file name string into Unicode
CStringW pszNameW(pszFileName);
// if the file type is null, get the file type from extension
const GUID *FileType = &guidFileType;
if (IsGuidEqual(guidFileType, GUID_NULL))
{
LPCWSTR pszExt = GetFileExtension(pszNameW);
FileType = FileTypeFromExtension(pszExt);
}
// get CLSID from file type
CLSID clsid;
if (!GetClsidFromFileType(&clsid, FileType))
return E_FAIL;
// create a GpBitmap from HBITMAP
GpBitmap *pBitmap = NULL;
GetCommon().CreateBitmapFromHBITMAP(m_hbm, NULL, &pBitmap);
// save to file
Status status;
status = GetCommon().SaveImageToFile(pBitmap, pszNameW, &clsid, NULL);
// destroy GpBitmap
GetCommon().DisposeImage(pBitmap);
return (status == Ok ? S_OK : E_FAIL);
}
void SetColorTable(UINT iFirstColor, UINT nColors,
const RGBQUAD* prgbColors) throw()
{
ATLASSERT(IsDIBSection());
GetDC();
::SetDIBColorTable(m_hDC, iFirstColor, nColors, prgbColors);
ReleaseDC();
}
void SetPixel(int x, int y, COLORREF color) throw()
{
GetDC();
::SetPixelV(m_hDC, x, y, color);
ReleaseDC();
}
void SetPixelIndexed(int x, int y, int iIndex) throw()
{
ATLASSERT(IsIndexed());
GetDC();
::SetPixelV(m_hDC, x, y, PALETTEINDEX(iIndex));
ReleaseDC();
}
void SetPixelRGB(int x, int y, BYTE r, BYTE g, BYTE b) throw()
{
SetPixel(x, y, RGB(r, g, b));
}
COLORREF SetTransparentColor(COLORREF rgbTransparent) throw()
{
ATLASSERT(m_hbm);
COLORREF rgbOldColor = m_rgbTransColor;
m_rgbTransColor = rgbTransparent;
return rgbOldColor;
}
BOOL StretchBlt(HDC hDestDC, int xDest, int yDest,
int nDestWidth, int nDestHeight,
int xSrc, int ySrc, int nSrcWidth, int nSrcHeight,
DWORD dwROP = SRCCOPY) const throw()
{
GetDC();
BOOL ret = ::StretchBlt(hDestDC, xDest, yDest, nDestWidth, nDestHeight,
m_hDC, xSrc, ySrc, nSrcWidth, nSrcHeight, dwROP);
ReleaseDC();
return ret;
}
BOOL StretchBlt(HDC hDestDC, int xDest, int yDest,
int nDestWidth, int nDestHeight,
DWORD dwROP = SRCCOPY) const throw()
{
return StretchBlt(hDestDC, xDest, yDest, nDestWidth, nDestHeight,
0, 0, GetWidth(), GetHeight(), dwROP);
}
BOOL StretchBlt(HDC hDestDC, const RECT& rectDest,
DWORD dwROP = SRCCOPY) const throw()
{
return StretchBlt(hDestDC, rectDest.left, rectDest.top,
rectDest.right - rectDest.left,
rectDest.bottom - rectDest.top, dwROP);
}
BOOL StretchBlt(HDC hDestDC, const RECT& rectDest,
const RECT& rectSrc, DWORD dwROP = SRCCOPY) const throw()
{
return StretchBlt(hDestDC, rectDest.left, rectDest.top,
rectDest.right - rectDest.left,
rectDest.bottom - rectDest.top,
rectSrc.left, rectSrc.top,
rectSrc.right - rectSrc.left,
rectSrc.bottom - rectSrc.top, dwROP);
}
BOOL TransparentBlt(HDC hDestDC, int xDest, int yDest,
int nDestWidth, int nDestHeight,
int xSrc, int ySrc, int nSrcWidth, int nSrcHeight,
UINT crTransparent = CLR_INVALID) const throw()
{
ATLASSERT(IsTransparencySupported());
GetDC();
BOOL ret = ::TransparentBlt(hDestDC, xDest, yDest,
nDestWidth, nDestHeight,
m_hDC, xSrc, ySrc,
nSrcWidth, nSrcHeight, crTransparent);
ReleaseDC();
return ret;
}
BOOL TransparentBlt(HDC hDestDC, int xDest, int yDest,
int nDestWidth, int nDestHeight,
UINT crTransparent = CLR_INVALID) const throw()
{
return TransparentBlt(hDestDC, xDest, yDest, nDestWidth, nDestHeight,
0, 0, GetWidth(), GetHeight(), crTransparent);
}
BOOL TransparentBlt(HDC hDestDC, const RECT& rectDest,
UINT crTransparent = CLR_INVALID) const throw()
{
return TransparentBlt(hDestDC, rectDest.left, rectDest.top,
rectDest.right - rectDest.left,
rectDest.bottom - rectDest.top, crTransparent);
}
BOOL TransparentBlt(
HDC hDestDC, const RECT& rectDest,
const RECT& rectSrc, UINT crTransparent = CLR_INVALID) const throw()
{
return TransparentBlt(hDestDC, rectDest.left, rectDest.top,
rectDest.right - rectDest.left, rectDest.bottom - rectDest.left,
rectSrc.left, rectSrc.top, rectSrc.right - rectSrc.left,
rectSrc.bottom - rectSrc.top, crTransparent);
}
public:
static BOOL IsTransparencySupported() throw()
{
return TRUE;
}
enum ExcludeFlags
{
excludeGIF = 0x01,
excludeBMP = 0x02,
excludeEMF = 0x04,
excludeWMF = 0x08,
excludeJPEG = 0x10,
excludePNG = 0x20,
excludeTIFF = 0x40,
excludeIcon = 0x80,
excludeOther = 0x80000000,
excludeDefaultLoad = 0,
excludeDefaultSave = excludeIcon | excludeEMF | excludeWMF
};
struct FILTER_DATA {
DWORD dwExclude;
const TCHAR *title;
const TCHAR *extensions;
const GUID *guid;
};
protected:
static HRESULT GetCommonFilterString(
CSimpleString& strFilter,
CSimpleArray<GUID>& aguidFileTypes,
LPCTSTR pszAllFilesDescription,
DWORD dwExclude,
TCHAR chSeparator)
{
static const FILTER_DATA table[] =
{
{excludeBMP, TEXT("BMP"), TEXT("*.BMP;*.DIB;*.RLE"), &Gdiplus::ImageFormatBMP},
{excludeJPEG, TEXT("JPEG"), TEXT("*.JPG;*.JPEG;*.JPE;*.JFIF"), &Gdiplus::ImageFormatJPEG},
{excludeGIF, TEXT("GIF"), TEXT("*.GIF"), &Gdiplus::ImageFormatGIF},
{excludeEMF, TEXT("EMF"), TEXT("*.EMF"), &Gdiplus::ImageFormatEMF},
{excludeWMF, TEXT("WMF"), TEXT("*.WMF"), &Gdiplus::ImageFormatWMF},
{excludeTIFF, TEXT("TIFF"), TEXT("*.TIF;*.TIFF"), &Gdiplus::ImageFormatTIFF},
{excludePNG, TEXT("PNG"), TEXT("*.PNG"), &Gdiplus::ImageFormatPNG},
{excludeIcon, TEXT("ICO"), TEXT("*.ICO"), &Gdiplus::ImageFormatIcon}
};
if (pszAllFilesDescription)
{
strFilter += pszAllFilesDescription;
strFilter += chSeparator;
BOOL bFirst = TRUE;
for (size_t i = 0; i < _countof(table); ++i)
{
if ((dwExclude & table[i].dwExclude) != 0)
continue;
if (bFirst)
bFirst = FALSE;
else
strFilter += TEXT(';');
strFilter += table[i].extensions;
}
strFilter += chSeparator;
aguidFileTypes.Add(GUID_NULL);
}
for (size_t i = 0; i < _countof(table); ++i)
{
if ((dwExclude & table[i].dwExclude) != 0)
continue;
strFilter += table[i].title;
strFilter += TEXT(" (");
strFilter += table[i].extensions;
strFilter += TEXT(")");
strFilter += chSeparator;
strFilter += table[i].extensions;
strFilter += chSeparator;
aguidFileTypes.Add(*table[i].guid);
}
strFilter += chSeparator;
return S_OK;
}
public:
static HRESULT GetImporterFilterString(
CSimpleString& strImporters,
CSimpleArray<GUID>& aguidFileTypes,
LPCTSTR pszAllFilesDescription = NULL,
DWORD dwExclude = excludeDefaultLoad,
TCHAR chSeparator = TEXT('|'))
{
return GetCommonFilterString(strImporters,
aguidFileTypes,
pszAllFilesDescription,
dwExclude,
chSeparator);
}
static HRESULT GetExporterFilterString(
CSimpleString& strExporters,
CSimpleArray<GUID>& aguidFileTypes,
LPCTSTR pszAllFilesDescription = NULL,
DWORD dwExclude = excludeDefaultSave,
TCHAR chSeparator = TEXT('|'))
{
return GetCommonFilterString(strExporters,
aguidFileTypes,
pszAllFilesDescription,
dwExclude,
chSeparator);
}
protected:
// an extension of BITMAPINFO
struct MYBITMAPINFOEX
{
BITMAPINFOHEADER bmiHeader;
RGBQUAD bmiColors[256];
BITMAPINFO *get()
{
return reinterpret_cast<BITMAPINFO *>(this);
}
const BITMAPINFO *get() const
{
return reinterpret_cast<const BITMAPINFO *>(this);
}
};
// abbreviations of GDI+ basic types
typedef Gdiplus::GpStatus St;
typedef Gdiplus::GpBitmap Bm;
typedef Gdiplus::GpImage Im;
// The common data of atlimage
struct COMMON
{
// abbreviations of GDI+ basic types
typedef Gdiplus::ImageCodecInfo ICI;
typedef Gdiplus::EncoderParameters EncParams;
typedef Gdiplus::ARGB ARGB;
typedef HBITMAP HBM;
typedef Gdiplus::GdiplusStartupInput GSI;
typedef Gdiplus::GdiplusStartupOutput GSO;
// GDI+ function types
#undef API
#undef CST
#define API WINGDIPAPI
#define CST GDIPCONST
typedef St (WINAPI *STARTUP)(ULONG_PTR *, const GSI *, GSO *);
typedef void (WINAPI *SHUTDOWN)(ULONG_PTR);
typedef St (API *GETIMAGEENCODERSSIZE)(UINT *, UINT *);
typedef St (API *GETIMAGEENCODERS)(UINT, UINT, ICI *);
typedef St (API *CREATEBITMAPFROMFILE)(CST WCHAR*, Bm **);
typedef St (API *CREATEHBITMAPFROMBITMAP)(Bm *, HBM *, ARGB);
typedef St (API *CREATEBITMAPFROMSTREAM)(IStream *, Bm **);
typedef St (API *CREATEBITMAPFROMHBITMAP)(HBM, HPALETTE, Bm **);
typedef St (API *SAVEIMAGETOSTREAM)(Im *, IStream *, CST CLSID *,
CST EncParams *);
typedef St (API *SAVEIMAGETOFILE)(Im *, CST WCHAR *, CST CLSID *,
CST EncParams *);
typedef St (API *DISPOSEIMAGE)(Im*);
#undef API
#undef CST
// members
int count;
HINSTANCE hinstGdiPlus;
ULONG_PTR gdiplusToken;
// GDI+ functions
STARTUP Startup;
SHUTDOWN Shutdown;
GETIMAGEENCODERSSIZE GetImageEncodersSize;
GETIMAGEENCODERS GetImageEncoders;
CREATEBITMAPFROMFILE CreateBitmapFromFile;
CREATEHBITMAPFROMBITMAP CreateHBITMAPFromBitmap;
CREATEBITMAPFROMSTREAM CreateBitmapFromStream;
CREATEBITMAPFROMHBITMAP CreateBitmapFromHBITMAP;
SAVEIMAGETOSTREAM SaveImageToStream;
SAVEIMAGETOFILE SaveImageToFile;
DISPOSEIMAGE DisposeImage;
COMMON()
{
count = 0;
hinstGdiPlus = NULL;
Startup = NULL;
Shutdown = NULL;
GetImageEncodersSize = NULL;
GetImageEncoders = NULL;
CreateBitmapFromFile = NULL;
CreateHBITMAPFromBitmap = NULL;
CreateBitmapFromStream = NULL;
CreateBitmapFromHBITMAP = NULL;
SaveImageToStream = NULL;
SaveImageToFile = NULL;
DisposeImage = NULL;
}
~COMMON()
{
FreeLib();
}
ULONG AddRef()
{
return ++count;
}
ULONG Release()
{
return --count;
}
// get procedure address of the DLL
template <typename TYPE>
TYPE AddrOf(const char *name)
{
FARPROC proc = ::GetProcAddress(hinstGdiPlus, name);
return reinterpret_cast<TYPE>(proc);
}
HINSTANCE LoadLib()
{
if (hinstGdiPlus)
return hinstGdiPlus;
hinstGdiPlus = ::LoadLibraryA("gdiplus.dll");
// get procedure addresses from the DLL
Startup = AddrOf<STARTUP>("GdiplusStartup");
Shutdown = AddrOf<SHUTDOWN>("GdiplusShutdown");
GetImageEncodersSize =
AddrOf<GETIMAGEENCODERSSIZE>("GdipGetImageEncodersSize");
GetImageEncoders = AddrOf<GETIMAGEENCODERS>("GdipGetImageEncoders");
CreateBitmapFromFile =
AddrOf<CREATEBITMAPFROMFILE>("GdipCreateBitmapFromFile");
CreateHBITMAPFromBitmap =
AddrOf<CREATEHBITMAPFROMBITMAP>("GdipCreateHBITMAPFromBitmap");
CreateBitmapFromStream =
AddrOf<CREATEBITMAPFROMSTREAM>("GdipCreateBitmapFromStream");
CreateBitmapFromHBITMAP =
AddrOf<CREATEBITMAPFROMHBITMAP>("GdipCreateBitmapFromHBITMAP");
SaveImageToStream =
AddrOf<SAVEIMAGETOSTREAM>("GdipSaveImageToStream");
SaveImageToFile = AddrOf<SAVEIMAGETOFILE>("GdipSaveImageToFile");
DisposeImage = AddrOf<DISPOSEIMAGE>("GdipDisposeImage");
if (hinstGdiPlus && Startup)
{
Gdiplus::GdiplusStartupInput gdiplusStartupInput;
Startup(&gdiplusToken, &gdiplusStartupInput, NULL);
}
return hinstGdiPlus;
}
void FreeLib()
{
if (hinstGdiPlus)
{
Shutdown(gdiplusToken);
Startup = NULL;
Shutdown = NULL;
GetImageEncodersSize = NULL;
GetImageEncoders = NULL;
CreateBitmapFromFile = NULL;
CreateHBITMAPFromBitmap = NULL;
CreateBitmapFromStream = NULL;
CreateBitmapFromHBITMAP = NULL;
SaveImageToStream = NULL;
SaveImageToFile = NULL;
DisposeImage = NULL;
::FreeLibrary(hinstGdiPlus);
hinstGdiPlus = NULL;
}
}
}; // struct COMMON
static COMMON*& GetCommonPtr()
{
static COMMON *s_pCommon = NULL;
return s_pCommon;
}
static COMMON& GetCommon()
{
COMMON*& pCommon = GetCommonPtr();
if (pCommon == NULL)
pCommon = new COMMON;
return *pCommon;
}
protected:
HBITMAP m_hbm;
mutable HGDIOBJ m_hbmOld;
mutable HDC m_hDC;
DIBOrientation m_eOrientation;
bool m_bHasAlphaCh;
bool m_bIsDIBSec;
COLORREF m_rgbTransColor;
union
{
BITMAP m_bm;
DIBSECTION m_ds;
};
LPCWSTR GetFileExtension(LPCWSTR pszFileName) const
{
LPCWSTR pch = wcsrchr(pszFileName, L'\\');
if (pch == NULL)
pch = wcsrchr(pszFileName, L'/');
pch = (pch ? wcsrchr(pch, L'.') : wcsrchr(pszFileName, L'.'));
return (pch ? pch : (pszFileName + ::lstrlenW(pszFileName)));
}
COLORREF RGBFromPaletteIndex(int iIndex) const
{
RGBQUAD table[256];
GetColorTable(0, 256, table);
RGBQUAD& quad = table[iIndex];
return RGB(quad.rgbRed, quad.rgbGreen, quad.rgbBlue);
}
struct EXTENSION_ENTRY
{
LPCWSTR pszExt;
GUID guid;
};
const GUID *FileTypeFromExtension(LPCWSTR pszExt) const
{
static const EXTENSION_ENTRY table[] =
{
{L".jpg", Gdiplus::ImageFormatJPEG},
{L".png", Gdiplus::ImageFormatPNG},
{L".bmp", Gdiplus::ImageFormatBMP},
{L".gif", Gdiplus::ImageFormatGIF},
{L".tif", Gdiplus::ImageFormatTIFF},
{L".jpeg", Gdiplus::ImageFormatJPEG},
{L".jpe", Gdiplus::ImageFormatJPEG},
{L".jfif", Gdiplus::ImageFormatJPEG},
{L".dib", Gdiplus::ImageFormatBMP},
{L".rle", Gdiplus::ImageFormatBMP},
{L".tiff", Gdiplus::ImageFormatTIFF}
};
const size_t count = _countof(table);
for (size_t i = 0; i < count; ++i)
{
if (::lstrcmpiW(table[i].pszExt, pszExt) == 0)
return &table[i].guid;
}
return NULL;
}
struct FORMAT_ENTRY
{
GUID guid;
LPCWSTR mime;
};
bool GetClsidFromFileType(CLSID *clsid, const GUID *guid) const
{
static const FORMAT_ENTRY table[] =
{
{Gdiplus::ImageFormatJPEG, L"image/jpeg"},
{Gdiplus::ImageFormatPNG, L"image/png"},
{Gdiplus::ImageFormatBMP, L"image/bmp"},
{Gdiplus::ImageFormatGIF, L"image/gif"},
{Gdiplus::ImageFormatTIFF, L"image/tiff"}
};
const size_t count = _countof(table);
for (size_t i = 0; i < count; ++i)
{
if (IsGuidEqual(table[i].guid, *guid))
{
int num = GetEncoderClsid(table[i].mime, clsid);
if (num >= 0)
{
return true;
}
}
}
return false;
}
int GetEncoderClsid(LPCWSTR mime, CLSID *clsid) const
{
UINT count = 0, total_size = 0;
GetCommon().GetImageEncodersSize(&count, &total_size);
if (total_size == 0)
return -1; // failure
Gdiplus::ImageCodecInfo *pInfo;
BYTE *pb = new BYTE[total_size];
ATLASSERT(pb);
pInfo = reinterpret_cast<Gdiplus::ImageCodecInfo *>(pb);
if (pInfo == NULL)
return -1; // failure
GetCommon().GetImageEncoders(count, total_size, pInfo);
for (UINT iInfo = 0; iInfo < count; ++iInfo)
{
if (::lstrcmpiW(pInfo[iInfo].MimeType, mime) == 0)
{
*clsid = pInfo[iInfo].Clsid;
delete[] pb;
return iInfo; // success
}
}
delete[] pb;
return -1; // failure
}
bool IsGuidEqual(const GUID& guid1, const GUID& guid2) const
{
RPC_STATUS status;
if (::UuidEqual(const_cast<GUID *>(&guid1),
const_cast<GUID *>(&guid2), &status))
{
if (status == RPC_S_OK)
return true;
}
return false;
}
void AttachInternal(HBITMAP hBitmap, DIBOrientation eOrientation,
LONG iTransColor)
{
Destroy();
const int size = sizeof(DIBSECTION);
m_bIsDIBSec = (::GetObject(hBitmap, size, &m_ds) == size);
bool bOK = (::GetObject(hBitmap, sizeof(BITMAP), &m_bm) != 0);
if (bOK)
{
m_hbm = hBitmap;
m_eOrientation = eOrientation;
m_bHasAlphaCh = (m_bm.bmBitsPixel == 32);
m_rgbTransColor = CLR_INVALID;
}
}
BOOL CreateInternal(int nWidth, int nHeight, int nBPP,
DWORD eCompression, const DWORD* pdwBitmasks = NULL,
DWORD dwFlags = 0) throw()
{
ATLASSERT(nWidth != 0);
ATLASSERT(nHeight != 0);
// initialize BITMAPINFO extension
MYBITMAPINFOEX bi;
ZeroMemory(&bi, sizeof(bi));
bi.bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
bi.bmiHeader.biWidth = nWidth;
bi.bmiHeader.biHeight = nHeight;
bi.bmiHeader.biPlanes = 1;
bi.bmiHeader.biBitCount = nBPP;
bi.bmiHeader.biCompression = eCompression;
// is there alpha channel?
bool bHasAlphaCh;
bHasAlphaCh = (nBPP == 32 && (dwFlags & createAlphaChannel));
// get orientation
DIBOrientation eOrientation;
eOrientation = ((nHeight > 0) ? DIBOR_BOTTOMUP : DIBOR_TOPDOWN);
// does it have bit fields?
if (eCompression == BI_BITFIELDS)
{
if (nBPP == 16 || nBPP == 32)
{
// store the mask data
LPDWORD pdwMask = reinterpret_cast<LPDWORD>(bi.bmiColors);
pdwMask[0] = pdwBitmasks[0];
pdwMask[1] = pdwBitmasks[1];
pdwMask[2] = pdwBitmasks[2];
}
else
{
return FALSE;
}
}
else
{
ATLASSERT(pdwBitmasks == NULL);
if (pdwBitmasks)
return FALSE;
}
// create a DIB section
HDC hDC = ::CreateCompatibleDC(NULL);
ATLASSERT(hDC);
LPVOID pvBits;
HBITMAP hbm = ::CreateDIBSection(hDC, bi.get(), DIB_RGB_COLORS,
&pvBits, NULL, 0);
ATLASSERT(hbm);
::DeleteDC(hDC);
// attach it
AttachInternal(hbm, eOrientation, -1);
m_bHasAlphaCh = bHasAlphaCh;
return hbm != NULL;
}
private:
// NOTE: CImage is not copyable
CImage(const CImage&);
CImage& operator=(const CImage&);
};
}
#endif
#ifndef _ATL_NO_AUTOMATIC_NAMESPACE
using namespace ATL;
#endif //!_ATL_NO_AUTOMATIC_NAMESPACE