NT4/private/ole32/ole232/stdimpl/emf.cpp
2020-09-30 17:12:29 +02:00

1730 lines
42 KiB
C++

//+-------------------------------------------------------------------------
//
// Microsoft Windows
// Copyright (C) Microsoft Corporation, 1992 - 1994.
//
// File: emf.cpp
//
// Contents: Implentation of the enhanced metafile picture object
//
// Classes: CEMfObject
//
// History: dd-mmm-yy Author Comment
// 01-Feb-95 t-ScottH added Dump method to EMfObject
// added DumpEMfObject API
// initialize m_pfnContinue in constructor
// 12-May-94 DavePl Created
//
//--------------------------------------------------------------------------
#include <le2int.h>
#include <limits.h>
#include "emf.h"
#ifdef _DEBUG
#include <dbgdump.h>
#endif // _DEBUG
ASSERTDATA
//+-------------------------------------------------------------------------
//
// Function: CEMfObject::M_HPRES
//
// Synopsis: Returns handle to EMF, possibly after demand-loading it
//
// History: dd-mmm-yy Author Comment
// 12-May-94 DavePl Created
//
// Notes:
// The following macro allows for demand loading of the
// presentation bits for enhanced metafiles. If the handle to
// the EMF (m_hPres) is already set, it is returned. If it is
// not, LoadHPRES() is called which loads the presentation and
// returns the handle to it.
//
//--------------------------------------------------------------------------
inline HENHMETAFILE CEMfObject::M_HPRES(void)
{
return (m_hPres ? m_hPres : LoadHPRES());
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::CEMfObject
//
// Synopsis: constructor for the enhanced metafile object
//
// Effects:
//
// Arguments: [pCacheNode] -- pointer to the cache node for this object
// [dwAspect] -- drawing aspect for the object
//
// History: dd-mmm-yy Author Comment
// 13-Feb-95 t-ScottH initialize m_pfnContinue
// 12-May-94 DavePl Created
//
// Notes:
//
//--------------------------------------------------------------------------
CEMfObject::CEMfObject(LPCACHENODE pCacheNode, DWORD dwAspect)
{
VDATEHEAP();
m_ulRefs = 1;
m_hPres = NULL;
m_dwSize = 0;
m_dwAspect = dwAspect;
m_pCacheNode = pCacheNode;
m_dwContinue = 0;
m_pfnContinue = NULL;
m_lWidth = 0;
m_lHeight = 0;
m_fMetaDC = FALSE;
m_nRecord = 0;
m_error = NOERROR;
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::~CEMfObject
//
// Synopsis: Destroys an enahnced metafile presentation object
//
// History: dd-mmm-yy Author Comment
// 12-May-94 DavePl Created
//
//--------------------------------------------------------------------------
CEMfObject::~CEMfObject (void)
{
VDATEHEAP();
CEMfObject::DiscardHPRES();
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::QueryInterface
//
// Synopsis: returns supported interfaces
//
// Arguments: [iid] -- the requested interface ID
// [ppvObj] -- where to put the interface pointer
//
// Requires:
//
// Returns: NOERROR, E_NOINTERFACE
//
// Derivation: IOlePresObj
//
// Algorithm:
//
// History: dd-mmm-yy Author Comment
// 12-May-94 DavePl Created
//
//--------------------------------------------------------------------------
STDMETHODIMP CEMfObject::QueryInterface (REFIID iid, void ** ppvObj)
{
VDATEHEAP();
if (IsEqualIID(iid, IID_IUnknown) || IsEqualIID(iid, IID_IOlePresObj))
{
*ppvObj = this;
AddRef();
return NOERROR;
}
else
{
*ppvObj = NULL;
return E_NOINTERFACE;
}
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::AddRef
//
// Synopsis: Increments the reference count
//
// Returns: ULONG -- the new reference count
//
// Derivation: IOlePresObj
//
// History: dd-mmm-yy Author Comment
// 12-May-94 DavePl Created
//
//--------------------------------------------------------------------------
STDMETHODIMP_(ULONG) CEMfObject::AddRef(void)
{
VDATEHEAP();
return (ULONG) InterlockedIncrement((LONG *) &m_ulRefs);
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::Release
//
// Synopsis: decrements the reference count
//
// Effects: deletes the object once the ref count goes to zero
//
// Returns: ULONG -- the new reference count
//
// Derivation: IOlePresObj
//
// History: dd-mmm-yy Author Comment
// 12-May-94 DavePl Created
//
// Notes: Not multi-threaded safe
//
//--------------------------------------------------------------------------
STDMETHODIMP_(ULONG) CEMfObject::Release(void)
{
VDATEHEAP();
ULONG cTmp = (ULONG) InterlockedDecrement((LONG *) &m_ulRefs);
if (0 == cTmp)
{
delete this;
}
return cTmp;
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::GetData
//
// Synopsis: Retrieves data in the specified format from the object
//
// Arguments: [pformatetcIn] -- the requested data format
// [pmedium] -- where to put the data
//
// Returns: HRESULT
//
// Derivation: IOlePresObject
//
// History: dd-mmm-yy Author Comment
// 12-May-94 DavePl Created
//
//--------------------------------------------------------------------------
STDMETHODIMP CEMfObject::GetData(LPFORMATETC pformatetcIn, LPSTGMEDIUM pmedium)
{
VDATEHEAP();
HRESULT hr = NOERROR;
pmedium->tymed = (DWORD) TYMED_NULL;
pmedium->pUnkForRelease = NULL;
// We can only support enhanced metafile TYMED
if (!(pformatetcIn->tymed & (DWORD) TYMED_ENHMF))
{
hr = DV_E_TYMED;
}
// We can only support enhanced metafile clipformat
else if (pformatetcIn->cfFormat != CF_ENHMETAFILE)
{
hr = DV_E_CLIPFORMAT;
}
// Check to ensure we are not blank
else if (IsBlank())
{
hr = OLE_E_BLANK;
}
// Go ahead and try to get the data
else
{
HENHMETAFILE hEMF = M_HPRES();
if (NULL == hEMF)
{
hr = OLE_E_BLANK;
}
else if (NULL == (pmedium->hEnhMetaFile = CopyEnhMetaFile(hEMF, NULL)))
{
hr = HRESULT_FROM_WIN32(GetLastError());
}
else
{
pmedium->tymed = (DWORD) TYMED_ENHMF;
}
}
return hr;
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::GetDataHere
//
// Synopsis: Retrieves data of the specified format into the specified
// medium
//
// Arguments: [pformatetcIn] -- the requested data format
// [pmedium] -- where to put the data
//
// Derivation: IOlePresObj
//
// Algorithm: Does error checking and then copies the EMF into a
// stream.
//
// History: dd-mmm-yy Author Comment
// 14-May-94 DavePl Created
//
// Notes: Although I'm only handling TYMED_ISTREAM here, since that's
// all standard metafiles provide, there's no compelling reason
// we couldn't support other formats. In fact, supporting
// raw bits on TYMED_HGLOBAL might be a nice addition, and
// TYMED_MFPICT would make for an easy way to do enhanced to
// standard conversions. NTIssue #2802.
//
//
// _______
// | DWORD | One DWORD indicating the size of the header
// |-------|
// | |
// | HDR | The ENHMETAHEADER structure
// | |
// |-------|
// | |
// | DATA | Raw EMF bits
// |_______|
//
//--------------------------------------------------------------------------
STDMETHODIMP CEMfObject::GetDataHere
(LPFORMATETC pformatetcIn, LPSTGMEDIUM pmedium)
{
VDATEHEAP();
HRESULT hr = NOERROR;
// We can only handle EMF format
if (pformatetcIn->cfFormat != CF_ENHMETAFILE)
{
hr = DV_E_CLIPFORMAT;
}
// We can only support returns to ISTREAM
else if (pmedium->tymed != (DWORD) TYMED_ISTREAM)
{
hr = DV_E_TYMED;
}
// The stream ptr must be valid
else if (pmedium->pstm == NULL)
{
hr = E_INVALIDARG;
}
// The presentation must not be blank
else if (IsBlank())
{
hr = OLE_E_BLANK;
}
else
{
// Get the metaheader size
HENHMETAFILE hEMF = M_HPRES();
DWORD dwMetaHdrSize = GetEnhMetaFileHeader(hEMF, 0, NULL);
if (dwMetaHdrSize == 0)
{
return HRESULT_FROM_WIN32(GetLastError());
}
// Allocate the meta header
void * pvHeader = PrivMemAlloc(dwMetaHdrSize);
if (NULL == pvHeader)
{
return E_OUTOFMEMORY;
}
// Retrieve the ENHMETAHEADER
if (0 == GetEnhMetaFileHeader(hEMF, dwMetaHdrSize, (ENHMETAHEADER *) pvHeader))
{
PrivMemFree(pvHeader);
return HRESULT_FROM_WIN32(GetLastError());
}
// Write the byte count to disk.
hr = StWrite(pmedium->pstm, &dwMetaHdrSize, sizeof(DWORD));
if (FAILED(hr))
{
return hr;
}
// Write the enhmetaheader to disk
hr = StWrite(pmedium->pstm, pvHeader, dwMetaHdrSize);
PrivMemFree(pvHeader);
if (FAILED(hr))
{
return hr;
}
DWORD dwSize = GetEnhMetaFileBits(hEMF, 0, NULL);
if (0 == dwSize)
{
return HRESULT_FROM_WIN32(GetLastError());
}
// Write the EMF bits to the stream
hr = UtHEMFToEMFStm(hEMF,
m_dwSize,
pmedium->pstm,
WRITE_AS_EMF);
}
return hr;
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::SetDataWDO
//
// Synopsis: Stores an ehanced metafile in this object
//
// Effects:
//
// Arguments: [pformatetc] -- format of the data coming in
// [pmedium] -- the new metafile (data)
// [fRelease] -- if true, then we'll release the [pmedium]
// [IDataObject] -- unused for EMF objects
//
// Derivation: IOlePresObj
//
// History: dd-mmm-yy Author Comment
// 14-May-94 Davepl Created
//
// Notes:
//
//--------------------------------------------------------------------------
STDMETHODIMP CEMfObject::SetDataWDO
(LPFORMATETC pformatetc, STGMEDIUM * pmedium, BOOL fRelease, IDataObject * )
{
VDATEHEAP();
HRESULT hr;
BOOL fTakeData = FALSE;
// If someone is trying to SetData on our EMF object with a standard
// metafile, we must convert it to EMF format
if (pformatetc->cfFormat == CF_METAFILEPICT)
{
// If its a standard metafile, it must be TYMED_MFPICT
if (pmedium->tymed != (DWORD) TYMED_MFPICT)
{
return DV_E_TYMED;
}
// We need to know the size of the metafile in bytes,
// so we have to lock the structure and grab the handle
// for a call to GetMetaFileBitsEx
METAFILEPICT * pMF = (METAFILEPICT *) GlobalLock(pmedium->hMetaFilePict);
if (NULL == pMF)
{
return E_OUTOFMEMORY;
}
// Determine the no. of bytes needed to hold the
// metafile
DWORD dwSize = GetMetaFileBitsEx(pMF->hMF, NULL, 0);
if (0 == dwSize)
{
GlobalUnlock(pmedium->hMetaFilePict);
return E_FAIL;
}
// Allocate space for the metafile bits
void *pvBuffer = PrivMemAlloc(dwSize);
if (NULL == pvBuffer)
{
GlobalUnlock(pmedium->hMetaFilePict);
return E_OUTOFMEMORY;
}
// Retrieve the bits to our buffer
if (0 == GetMetaFileBitsEx(pMF->hMF, dwSize, pvBuffer))
{
GlobalUnlock(pmedium->hMetaFilePict);
PrivMemFree(pvBuffer);
return E_FAIL;
}
HENHMETAFILE hEMF = SetWinMetaFileBits(dwSize,
(const BYTE *) pvBuffer, NULL, pMF);
if (NULL == hEMF)
{
hr = HRESULT_FROM_WIN32(GetLastError());
GlobalUnlock(pmedium->hMetaFilePict);
PrivMemFree(pvBuffer);
return hr;
}
GlobalUnlock(pmedium->hMetaFilePict);
PrivMemFree(pvBuffer);
// Update the cache node. To avoid a copy operation, let the cache
// node keep our EMF. It will take the data even in the event of
// an error
hr = ChangeData (hEMF, TRUE /* fTakeData */ );
if (fRelease)
{
ReleaseStgMedium(pmedium);
}
return hr;
}
// Other than standard metafile ,we can only accept enhanced metafile format
if (pformatetc->cfFormat != CF_ENHMETAFILE)
{
return DV_E_CLIPFORMAT;
}
// The medium must be enhanced metafile
if (pmedium->tymed != (DWORD) TYMED_ENHMF)
{
return DV_E_TYMED;
}
// If no controlling unkown, and the release flag is set,
// it is up to us to take control of the data
if ((pmedium->pUnkForRelease == NULL) && fRelease)
{
fTakeData = TRUE;
}
// ChangeData will keep the data if fRelease is TRUE, else it copies
hr = ChangeData (pmedium->hEnhMetaFile, fTakeData);
// If we've taken the data, clear the TYMED
if (fTakeData)
{
pmedium->tymed = (DWORD) TYMED_NULL;
pmedium->hEnhMetaFile = NULL;
}
// If we are supposed to release the data, do it now
else if (fRelease)
{
ReleaseStgMedium(pmedium);
}
return hr;
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::ChangeData (internal)
//
// Synopsis: Swaps the stored enhanced metafile presentation into the
// cache node
//
// Arguments: [hEMF] -- the new enhanced metafile
// [fTakeData] -- if TRUE, then delete [hEMF]
//
// History: dd-mmm-yy Author Comment
// 14-May-94 DavePl Created
//
// Notes: If the routine fails then the object will be left with it's
// old data. We are supposed to delete the incoming EMF when
// fTakeData is set, even in the event of an error.
//
//--------------------------------------------------------------------------
INTERNAL CEMfObject::ChangeData (HENHMETAFILE hEMF, BOOL fTakeData)
{
VDATEHEAP();
HENHMETAFILE hNewEMF;
DWORD dwSize;
HRESULT hr = NOERROR;
// If we're not supposed to delete the metafile when we're
// done, we need to make a copy. Otherwise, we can just
// use the handle that came in.
if (!fTakeData)
{
hNewEMF = CopyEnhMetaFile(hEMF, NULL);
if (NULL == hNewEMF)
{
return HRESULT_FROM_WIN32(GetLastError());
}
}
else
{
hNewEMF = hEMF;
}
// We get the size of the EMF by calling GetEnhMetaFileBits with
// a NULL buffer
dwSize = GetEnhMetaFileBits(hNewEMF, 0, NULL);
if (0 == dwSize)
{
hr = OLE_E_BLANK;
}
else
{
// We need the dimensions of the metafile, so
// we have to get the header.
ENHMETAHEADER emfHeader;
UINT result = GetEnhMetaFileHeader(hNewEMF,
sizeof(emfHeader),
&emfHeader);
if (0 == result)
{
hr = HRESULT_FROM_WIN32(GetLastError());
}
else
{
// If there already is an EMF presentation, kill it
// so we can replace it
DiscardHPRES();
// Set up our new EMF as the presentation
m_hPres = hNewEMF;
m_dwSize = dwSize;
m_lWidth = emfHeader.rclFrame.right -
emfHeader.rclFrame.left;
m_lHeight = emfHeader.rclFrame.bottom -
emfHeader.rclFrame.top;
// EMF extents are returned in physical himets,
// but all of the other formats are in logical
// himets, so we need to convert.
LONG HorzSize,
HorzRes,
VertSize,
VertRes,
LogXPels,
LogYPels;
HDC hdcTmp = GetDC(NULL);
if (hdcTmp)
{
const LONG HIMET_PER_MM = 100;
const LONG HIMET_PER_LINCH = 2540;
HorzSize = GetDeviceCaps(hdcTmp, HORZSIZE);
HorzRes = GetDeviceCaps(hdcTmp, HORZRES);
VertSize = GetDeviceCaps(hdcTmp, VERTSIZE);
VertRes = GetDeviceCaps(hdcTmp, VERTRES);
LogXPels = GetDeviceCaps(hdcTmp, LOGPIXELSX);
LogYPels = GetDeviceCaps(hdcTmp, LOGPIXELSY);
LEVERIFY( ReleaseDC(NULL, hdcTmp) );
// The GDI cannot fail the above calls, but
// it's a possibility that some broken driver
// returns a zero. Unlikely, but a division
// by zero is severe, so check for it...
if ( !HorzSize || !HorzRes || !VertSize ||
!VertRes || !LogXPels || !LogYPels)
{
Assert(0 && " A Devicecap is zero! ");
hr = E_FAIL;
}
if (SUCCEEDED(hr))
{
// Convert physical himetrics to pixels
m_lWidth = MulDiv(m_lWidth, HorzRes, HorzSize);
m_lHeight = MulDiv(m_lHeight, VertRes, VertSize);
m_lWidth = m_lWidth / HIMET_PER_MM;
m_lHeight = m_lHeight / HIMET_PER_MM;
// Convert pixels to logical himetrics
m_lWidth =
MulDiv(m_lWidth, HIMET_PER_LINCH, LogXPels);
m_lHeight =
MulDiv(m_lHeight, HIMET_PER_LINCH, LogYPels);
}
}
else
{
hr = HRESULT_FROM_WIN32(GetLastError());
}
}
}
if (FAILED(hr))
{
LEVERIFY( DeleteEnhMetaFile(hNewEMF) );
}
return hr;
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::Draw
//
// Synopsis: Draws the stored presentation
//
// Arguments: [pvAspect] -- (UNUSED) the drawing aspect
// [hicTargetDev] -- (UNUSED) the target device
// [hdcDraw] -- hdc to draw into
// [lprcBounds] -- bounding rectangle to draw into
// [lprcWBounds] -- (UNUSED) bounding rectangle for the metafile
// [pfnContinue] -- function to call while drawing
// [dwContinue] -- parameter to [pfnContinue]
//
// Returns: HRESULT
//
// Derivation: IOlePresObj
//
// Algorithm: Sets the viewport and metafile boundaries, then plays
// the metafile
//
// History: dd-mmm-yy Author Comment
// 14-May-94 DavePl Created
//
//--------------------------------------------------------------------------
STDMETHODIMP CEMfObject::Draw(THIS_ void * /* UNUSED pvAspect */,
HDC /* UNUSED hicTargetDev */,
HDC hdcDraw,
LPCRECTL lprcBounds,
LPCRECTL /* UNUSED lprcWBounds */,
int (CALLBACK * pfnContinue)(DWORD),
DWORD dwContinue)
{
VDATEHEAP();
m_error = NOERROR;
int iOldDc;
RECT rlBounds;
// We receive a RECTL, and must pass in a RECT. 16-bit used to
// manually copy the fields over, but we know that in Win32 they
// really are the same structure. Assert to be sure.
Assert(sizeof(RECT) == sizeof(RECTL));
Assert(lprcBounds);
// We must have an EMF handle before we can even begin
if (!M_HPRES())
{
return OLE_E_BLANK;
}
// Make a copy of the incoming bounding rectangle
memcpy(&rlBounds, lprcBounds, sizeof(RECT));
m_nRecord = EMF_RECORD_COUNT;
// Determine whether or not we are drawing into another
// metafile
m_fMetaDC = OleIsDcMeta (hdcDraw);
// Save the current state of the DC
if (0 == (iOldDc = SaveDC (hdcDraw)))
{
return E_OUTOFMEMORY;
}
m_pfnContinue = pfnContinue;
m_dwContinue = dwContinue;
LEVERIFY( EnumEnhMetaFile(hdcDraw, m_hPres, EMfCallbackFuncForDraw, this, (RECT *) lprcBounds) );
LEVERIFY( RestoreDC (hdcDraw, iOldDc) );
return m_error;
}
//+-------------------------------------------------------------------------
//
// Function: EMfCallBackFuncForDraw
//
// Synopsis: callback function for drawing metafiles -- call's the caller's
// draw method (via a passed in this pointer)
//
// Effects:
//
// Arguments: [hdc] -- the device context
// [lpHTable] -- pointer to the MF handle table
// [lpEMFR] -- pointer to metafile record
// [nObj] -- number of objects
//
// Requires:
//
// Returns: non-zero to continue, zero stops the drawing
//
// History: dd-mmm-yy Author Comment
// 12-May-94 DavePl Created
//
//--------------------------------------------------------------------------
int CALLBACK EMfCallbackFuncForDraw(HDC hdc,
HANDLETABLE FAR* lpHTable,
const ENHMETARECORD FAR* lpEMFR,
int nObj,
LPARAM lpobj)
{
VDATEHEAP();
// Warning: this casts an LPARAM (a long) to a pointer, but
// it's the "approved" way of doing this...
return ((CEMfObject *) lpobj)->CallbackFuncForDraw(hdc,
lpHTable,
lpEMFR,
nObj,
lpobj);
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::CallbackFuncForDraw
//
// Synopsis: Draws the metafile
//
// Effects:
//
// Arguments: [hdc] -- the device context
// [lpHTable] -- pointer to the MF handle table
// [lpEMFR] -- pointer to metafile record
// [nObj] -- number of objects
//
// Requires:
//
// Returns: non-zero to continue, zero stops the drawing
//
// History: dd-mmm-yy Author Comment
// 12-May-94 DavePl Created
//
//--------------------------------------------------------------------------
int CALLBACK CEMfObject::CallbackFuncForDraw(HDC hdc,
LPHANDLETABLE lpHTable,
const ENHMETARECORD * lpEMFR,
int nObj,
LPARAM /* UNUSED lpobj*/)
{
// Count down the record count. When the count reaches zero,
// it is time to call the "continue" function
if (0 == --m_nRecord)
{
m_nRecord = EMF_RECORD_COUNT;
if (m_pfnContinue && !((*(m_pfnContinue))(m_dwContinue)))
{
m_error = E_ABORT;
return FALSE;
}
}
LEVERIFY( PlayEnhMetaFileRecord (hdc, lpHTable, lpEMFR, (unsigned) nObj) );
return TRUE;
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::Load
//
// Synopsis: Loads an enhanced metafile object from the given stream
//
// Arguments: [lpstream] -- the stream from which to load
// [fReadHeaderOnly] -- if TRUE, then only the header is
// read
// Returns: HRESULT
//
// Derivation: IOlePresObj
//
// History: dd-mmm-yy Author Comment
// 12-May-94 DavePl Created
//
//--------------------------------------------------------------------------
STDMETHODIMP CEMfObject::Load(LPSTREAM lpstream, BOOL fReadHeaderOnly)
{
VDATEHEAP();
DWORD dwBuf[4];
HRESULT hr;
/* read dwCompression, width, height, size of data */
hr = StRead(lpstream, dwBuf, 4*sizeof(DWORD));
if (FAILED(hr))
{
return hr;
}
m_lWidth = (LONG) dwBuf[1];
m_lHeight = (LONG) dwBuf[2];
m_dwSize = dwBuf[3];
if (!m_dwSize || fReadHeaderOnly)
{
return NOERROR;
}
// Read the EMF from the stream and create a handle to it. Note
// that the size will be adjusted to reflect the size of the
// in-memory EMF, which may well differ from the the persistent
// form (which is a MF with an EMF embedded as a comment).
return UtGetHEMFFromEMFStm(lpstream, &m_dwSize, &m_hPres);
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObjectn
//
// Synopsis: Saves the metafile to the given stream
//
// Arguments: [lpstream] -- the stream to save to
//
// Returns: HRESULT
//
// Derivation: IOlePresObj
//
// History: dd-mmm-yy Author Comment
// 12-May-94 DavePl Created
//
//--------------------------------------------------------------------------
STDMETHODIMP CEMfObject::Save(LPSTREAM lpstream)
{
VDATEHEAP();
HRESULT hr;
DWORD dwBuf[4];
DWORD dwPersistSize;
// The EMF could have been provided during this session, which would imply
// that the resultant size of the converted EMF has no bearing on the size
// of the original EMF we have been using. Thus, we must update the size
// for the persistent form.
// If we are a blank presentation, there's no need to calculate
// anything: our size is just 0
if (IsBlank() || m_hPres == NULL)
{
dwPersistSize = 0;
}
else
{
HDC hdcTemp = CreateCompatibleDC(NULL);
if (NULL == hdcTemp)
{
return HRESULT_FROM_WIN32(GetLastError());
}
dwPersistSize = GetWinMetaFileBits(m_hPres, 0, NULL, MM_ANISOTROPIC, hdcTemp);
if (0 == dwPersistSize)
{
LEVERIFY( DeleteDC(hdcTemp) );
return HRESULT_FROM_WIN32(GetLastError());
}
Verify(DeleteDC(hdcTemp));
}
/* write dwCompression, width, height, size of data */
dwBuf[0] = 0L;
dwBuf[1] = (DWORD) m_lWidth;
dwBuf[2] = (DWORD) m_lHeight;
dwBuf[3] = dwPersistSize;
hr = StWrite(lpstream, dwBuf, sizeof(dwBuf));
if (FAILED(hr))
{
return hr;
}
// if blank object, don't write any more; no error.
if (IsBlank() || m_hPres == NULL)
{
StSetSize(lpstream, 0, TRUE);
return NOERROR;
}
return UtHEMFToEMFStm(m_hPres,
dwPersistSize,
lpstream,
WRITE_AS_WMF);
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::IsBlank
//
// Synopsis: Returns whether or not the enhanced metafile is blank
//
// Arguments: void
//
// Returns: TRUE/FALSE
//
// Derivation: IOlePresObj
//
// History: dd-mmm-yy Author Comment
// 12-May-94 DavePl Created
//
//--------------------------------------------------------------------------
BOOL CEMfObject::IsBlank(void)
{
VDATEHEAP();
return (m_dwSize ? FALSE : TRUE);
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::LoadHPRES (private)
//
// Synopsis: Loads the presentation from the cache's stream and returns
// a handle to it
//
// Returns: HANDLE to the metafile
//
// History: dd-mmm-yy Author Comment
// 12-May-94 DavePl Created
//
//--------------------------------------------------------------------------
INTERNAL_(HENHMETAFILE) CEMfObject::LoadHPRES(void)
{
VDATEHEAP();
LPSTREAM pstm = m_pCacheNode->GetStm(TRUE /*fSeekToPresBits*/,
STGM_READ);
if (pstm)
{
// In case ::Load() fails, NULL the handle first
m_hPres = NULL;
LEVERIFY( SUCCEEDED(Load(pstm, FALSE /* fHeaderOnly*/)) );
pstm->Release();
}
return m_hPres;
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::DiscardHPRES
//
// Synopsis: deletes the stored metafile
//
// Derivation: IOlePresObj
//
// History: dd-mmm-yy Author Comment
// 12-May-94 DavePl Created
//
//--------------------------------------------------------------------------
void CEMfObject::DiscardHPRES(void)
{
VDATEHEAP();
if (m_hPres)
{
LEVERIFY( DeleteEnhMetaFile(m_hPres) );
m_hPres = NULL;
}
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::GetCopyOfHPRES (private)
//
// Synopsis: makes a copy of the enhanced metafile (if one is present),
// otherwise just loads it from the stream (but doesn't store
// it in [this] object)
//
// Arguments: void
//
// Returns: HENHMETAFILE to the enhanced metafile
//
// History: dd-mmm-yy Author Comment
// 12-May-94 DavePl Created
//
//--------------------------------------------------------------------------
INTERNAL_(HENHMETAFILE) CEMfObject::GetCopyOfHPRES(void)
{
VDATEHEAP();
HENHMETAFILE hPres;
// Make a copy if the presentation data is already loaded
if (m_hPres)
{
return CopyEnhMetaFile(m_hPres, NULL);
}
// Load the presentation data now and return the same handle.
// No need to copy the data. If the caller wants the m_hPres to be
// set s/he would call LoadHPRES() directly.
LEVERIFY( LoadHPRES() );
hPres = m_hPres; // Grab the handle from the member var
m_hPres = NULL; // (re-) Clear out the member var
return hPres;
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::GetColorSet
//
// Synopsis: Retrieves the logical palette associated with the EMF
//
// Effects:
//
// Arguments: [pvAspect] -- the drawing aspect
// [hicTargetDev] -- target device
// [ppColorSet] -- where to put the logical palette pointer
//
// Returns: HRESULT
//
// Derivation: IOlePresObj
//
// History: dd-mmm-yy Author Comment
// 18-May-94 DavePl Created
//
//--------------------------------------------------------------------------
STDMETHODIMP CEMfObject::GetColorSet(LPVOID /* UNUSED pvAspect */,
HDC /* UNUSED hicTargetDev */,
LPLOGPALETTE * ppColorSet)
{
VDATEHEAP();
VDATEPTROUT(ppColorSet, LPLOGPALETTE);
m_pColorSet = *ppColorSet = NULL;
if (IsBlank() || !M_HPRES())
{
return OLE_E_BLANK;
}
HENHMETAFILE hEMF = M_HPRES();
// Get the count of palette entries
UINT cColors = GetEnhMetaFilePaletteEntries(hEMF, 0, NULL);
// If no palette entries, return a NULL LOGPALETTE
if (0 == cColors)
{
return S_FALSE;
}
// REVIEW (davepl) A quick fix until we figure out what happens, or if
// it is possible, for a EMF to have more than 32767 colors
LEWARN( cColors > USHRT_MAX, "EMF has more colors than LOGPALETTE allows" );
if (cColors > USHRT_MAX)
{
cColors = USHRT_MAX;
}
// Calculate the size of the variably-sized LOGPALLETE structure
UINT uPalSize = cColors * sizeof(PALETTEENTRY) + 2 * sizeof(WORD);
// Allocate the LOGPALETTE structure
m_pColorSet = (LPLOGPALETTE) PubMemAlloc(uPalSize);
if( NULL == m_pColorSet)
{
m_error = E_OUTOFMEMORY;
return FALSE;
}
// Get the actual color entries
m_pColorSet->palVersion = 0x300;
m_pColorSet->palNumEntries = (WORD) cColors;
UINT result = GetEnhMetaFilePaletteEntries(
hEMF,
cColors,
&(m_pColorSet->palPalEntry[0]));
// If it failed, clean up and bail
if (cColors != result)
{
PubMemFree(m_pColorSet);
m_pColorSet = NULL;
return HRESULT_FROM_WIN32(GDI_ERROR);
}
// We succeeded, so set the OUT ptr and return
*ppColorSet = m_pColorSet;
return NOERROR;
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::GetExtent
//
// Synopsis: Retrieves the extents of the enhanced metafile
//
// Arguments: [dwDrawAspect] -- the drawing aspect we're interested in
// [lpsizel] -- where to put the extent info
//
// Returns: NOERROR, DV_E_DVASPECT, OLE_E_BLANK
//
// Derivation: IOlePresObj
//
// History: dd-mmm-yy Author Comment
// 18-May-94 DavePl Created
//
//--------------------------------------------------------------------------
STDMETHODIMP CEMfObject::GetExtent(DWORD dwDrawAspect, LPSIZEL lpsizel)
{
VDATEHEAP();
if (!(dwDrawAspect & m_dwAspect))
{
return DV_E_DVASPECT;
}
if (IsBlank())
{
return OLE_E_BLANK;
}
lpsizel->cx = m_lWidth;
lpsizel->cy = m_lHeight;
return NOERROR;
}
//+-------------------------------------------------------------------------
//
// Member: CEMfObject::Dump, public (_DEBUG only)
//
// Synopsis: return a string containing the contents of the data members
//
// Effects:
//
// Arguments: [ppszDump] - an out pointer to a null terminated character array
// [ulFlag] - flag determining prefix of all newlines of the
// out character array (default is 0 - no prefix)
// [nIndentLevel] - will add a indent prefix after the other prefix
// for ALL newlines (including those with no prefix)
//
// Requires:
//
// Returns: HRESULT
//
// Signals:
//
// Modifies: [ppszDump] - argument
//
// Derivation:
//
// Algorithm: use dbgstream to create a string containing information on the
// content of data structures
//
// History: dd-mmm-yy Author Comment
// 01-Feb-95 t-ScottH author
//
// Notes:
//
//--------------------------------------------------------------------------
#ifdef _DEBUG
HRESULT CEMfObject::Dump(char **ppszDump, ULONG ulFlag, int nIndentLevel)
{
int i;
char *pszPrefix;
char *pszHRESULT;
char *pszDVASPECT;
dbgstream dstrPrefix;
dbgstream dstrDump(500);
// determine prefix of newlines
if ( ulFlag & DEB_VERBOSE )
{
dstrPrefix << this << " _VB ";
}
// determine indentation prefix for all newlines
for (i = 0; i < nIndentLevel; i++)
{
dstrPrefix << DUMPTAB;
}
pszPrefix = dstrPrefix.str();
// put data members in stream
dstrDump << pszPrefix << "No. of References = " << m_ulRefs << endl;
dstrDump << pszPrefix << "Handle Enhanced Metafile = " << m_hPres << endl;
dstrDump << pszPrefix << "IsMetaDeviceContext? = ";
if (m_fMetaDC == TRUE)
{
dstrDump << "TRUE" << endl;
}
else
{
dstrDump << "FALSE" << endl;
}
dstrDump << pszPrefix << "No. of Records in Metafile = " << m_nRecord << endl;
pszHRESULT = DumpHRESULT(m_error);
dstrDump << pszPrefix << "Error code = " << pszHRESULT << endl;
CoTaskMemFree(pszHRESULT);
dstrDump << pszPrefix << "pLOGPALETTE (Color set palette) = " << m_pColorSet << endl;
dstrDump << pszPrefix << "Continue = " << m_dwContinue << endl;
dstrDump << pszPrefix << "fp Continue = " << m_pfnContinue<< endl;
pszDVASPECT = DumpDVASPECTFlags(m_dwAspect);
dstrDump << pszPrefix << "Aspect flags = " << pszDVASPECT << endl;
CoTaskMemFree(pszDVASPECT);
dstrDump << pszPrefix << "Size = " << m_dwSize << endl;
dstrDump << pszPrefix << "Width = " << m_lWidth << endl;
dstrDump << pszPrefix << "Height = " << m_lHeight << endl;
dstrDump << pszPrefix << "pCacheNode = " << m_pCacheNode << endl;
// cleanup and provide pointer to character array
*ppszDump = dstrDump.str();
if (*ppszDump == NULL)
{
*ppszDump = UtDupStringA(szDumpErrorMessage);
}
CoTaskMemFree(pszPrefix);
return NOERROR;
}
#endif // _DEBUG
//+-------------------------------------------------------------------------
//
// Function: DumpCEMfObject, public (_DEBUG only)
//
// Synopsis: calls the CEMfObject::Dump method, takes care of errors and
// returns the zero terminated string
//
// Effects:
//
// Arguments: [pEMFO] - pointer to CEMfObject
// [ulFlag] - flag determining prefix of all newlines of the
// out character array (default is 0 - no prefix)
// [nIndentLevel] - will add a indent prefix after the other prefix
// for ALL newlines (including those with no prefix)
//
// Requires:
//
// Returns: character array of structure dump or error (null terminated)
//
// Signals:
//
// Modifies:
//
// Algorithm:
//
// History: dd-mmm-yy Author Comment
// 01-Feb-95 t-ScottH author
//
// Notes:
//
//--------------------------------------------------------------------------
#ifdef _DEBUG
char *DumpCEMfObject(CEMfObject *pEMFO, ULONG ulFlag, int nIndentLevel)
{
HRESULT hresult;
char *pszDump;
if (pEMFO == NULL)
{
return UtDupStringA(szDumpBadPtr);
}
hresult = pEMFO->Dump(&pszDump, ulFlag, nIndentLevel);
if (hresult != NOERROR)
{
CoTaskMemFree(pszDump);
return DumpHRESULT(hresult);
}
return pszDump;
}
#endif // _DEBUG
//+-------------------------------------------------------------------------
//
// Function: UtGetHEMFFromEMFStm
//
// Synopsis: Reads an enhanced metafile from a stream into memory,
// creates the enhanced metafile from the raw data, and
// returns a handle to it.
//
// Arguments: [lpstream] -- stream containing the EMF
// [dwSize] -- data size within stream
// [fConvert] -- FALSE for metafile, TRUE for PICT
//
// Requires: lpstream positioned at start of data
//
// Returns: HRESULT
//
// History: 15-May-94 DavePl Created
//
//--------------------------------------------------------------------------
FARINTERNAL UtGetHEMFFromEMFStm(LPSTREAM lpstream,
DWORD * pdwSize,
HENHMETAFILE * lphPres)
{
VDATEHEAP();
BYTE *pbEMFData = NULL;
HRESULT hr = NOERROR;
// initialize this in case of error return
*lphPres = NULL;
// allocate a global handle for the data
pbEMFData = (BYTE *) GlobalAlloc(GMEM_FIXED, *pdwSize);
if (NULL == pbEMFData)
{
return E_OUTOFMEMORY;
}
// read the stream into the bit storage
hr = StRead(lpstream, pbEMFData, *pdwSize);
if (FAILED(hr))
{
LEVERIFY( NULL == GlobalFree((HGLOBAL) pbEMFData) );
return hr;
}
// Create an in-memory EMF based on the raw bits
HDC hdcTemp = CreateCompatibleDC(NULL);
if (NULL == hdcTemp)
{
LEVERIFY( NULL == GlobalFree((HGLOBAL) pbEMFData) );
return E_FAIL;
}
*lphPres = SetWinMetaFileBits(*pdwSize, pbEMFData, hdcTemp, NULL);
LEVERIFY( DeleteDC(hdcTemp) );
// In any case, we can free the bit buffer
LEVERIFY( NULL == GlobalFree((HGLOBAL) pbEMFData) );
// If the SetEnhM... failed, set the error code
if (*lphPres == NULL)
{
hr = HRESULT_FROM_WIN32(GetLastError());
}
// We need to update the size of the in-memory EMF, as it
// could differ from out persistent MF form.
*pdwSize = GetEnhMetaFileBits(*lphPres, NULL, NULL);
if (0 == *pdwSize)
{
hr = HRESULT_FROM_WIN32(GetLastError());
}
return hr;
}
//+-------------------------------------------------------------------------
//
// Function: UtHEMFToEMFStm
//
// Synopsis: Takes a handle to an enhanced metafile and serializes it
// to the supplied stream. It can be serialized as either
// a standard or enhanced metafile.
//
// Arguments: [lphEMF] -- ptr to the EMF handle
// [dwSize] -- size of the EMF bits
// [lpstream] -- the stream to write to
// [fWriteAsWMF] -- write as WMF, not EMF
//
// Returns: HRESULT
//
// History: 15-May-94 DavePl Created
//
// Notes: This fn is used to serialize EMFs as MFs in the cache node
// save case, which will allow 16-bit DLLs to read them back.
// A EMF converted to MF contains the original EMF as an
// embedded comment record, so no loss is taken in the
// EMF -> MF -> EMF conversion case.
//
// The incoming dwSize must be large enough to accomodate the
// WMF (w/embedded EMF) in the standard metafile save case.
//
//--------------------------------------------------------------------------
FARINTERNAL UtHEMFToEMFStm(HENHMETAFILE hEMF,
DWORD dwSize,
LPSTREAM lpstream,
EMFWRITETYPE emfwType
)
{
VDATEHEAP();
HRESULT hr;
Assert(emfwType == WRITE_AS_EMF || emfwType == WRITE_AS_WMF);
// If we don't have a handle, there's nothing to do.
if (hEMF == NULL)
{
return OLE_E_BLANK;
}
void *lpBits;
lpBits = PrivMemAlloc(dwSize);
if (NULL == lpBits)
{
return E_OUTOFMEMORY;
}
if (emfwType == WRITE_AS_WMF)
{
// WMF WRITE CASE
// Get the raw bits of the metafile that we are going to
// write out
HDC hdcTemp = CreateCompatibleDC(NULL);
if (NULL == hdcTemp)
{
hr = E_FAIL;
goto errRtn;
}
if (0 == GetWinMetaFileBits(hEMF, dwSize, (BYTE *) lpBits, MM_ANISOTROPIC, hdcTemp))
{
hr = HRESULT_FROM_WIN32(GetLastError());
LEVERIFY( DeleteDC(hdcTemp) );
goto errRtn;
}
LEVERIFY( DeleteDC(hdcTemp) );
// write the metafile bits out to the stream
}
else
{
// EMF WRITE CASE
if (0 == GetEnhMetaFileBits(hEMF, dwSize, (BYTE *) lpBits))
{
hr = HRESULT_FROM_WIN32(GetLastError());
goto errRtn;
}
}
hr = StWrite(lpstream, lpBits, dwSize);
errRtn:
// free the metafile bits
PrivMemFree(lpBits);
// set the stream size
if (SUCCEEDED(hr))
{
hr = StSetSize(lpstream, 0, TRUE);
}
return hr;
}
//+-------------------------------------------------------------------------
//
// Function: UtGetHEMFFromContentsStm
//
// Synopsis: Pulls EMF data from a stream and creates a handle to
// the resultant in-memory EMF
//
// Arguments: [pstm] -- the stream to read from
// [phdata] -- the handle to create on
//
// Returns: (void)
//
// History: 10-Jul-94 DavePl Created
//
//
//--------------------------------------------------------------------------
void UtGetHEMFFromContentsStm(LPSTREAM pstm, HANDLE * phdata)
{
*phdata = NULL;
DWORD dwSize;
ENHMETAHEADER * pHdr;
// Pull the size of the metafile header from the stream
if (FAILED(StRead(pstm, &dwSize, sizeof(DWORD))))
{
return;
}
// The header must be at least as large as the byte
// offset to the nBytes member of the ENHMETAHEADER struct.
if (dwSize < offsetof(ENHMETAHEADER, nBytes))
{
return;
}
// Allocate enough memory for the header struct
pHdr = (ENHMETAHEADER *) PrivMemAlloc(dwSize);
if (NULL == pHdr)
{
return;
}
// Read the header structure into our buffer
if (FAILED(StRead(pstm, pHdr, dwSize)))
{
PrivMemFree(pHdr);
return;
}
// All we care about in the header is the size of the
// metafile bits, so cache that and free the header buffer
dwSize = pHdr->nBytes;
PrivMemFree(pHdr);
// Allocate memory to read the raw EMF bits into
BYTE * lpBytes = (BYTE *) PrivMemAlloc(dwSize);
if (NULL == lpBytes)
{
return;
}
// Read the raw bits into the buffer...
if (FAILED(StRead(pstm, lpBytes, dwSize)))
{
PrivMemFree(lpBytes);
return;
}
// Create an in-memory EMF based on those bits
HENHMETAFILE hEmf = SetEnhMetaFileBits(dwSize, lpBytes);
PrivMemFree(lpBytes);
if (NULL == hEmf)
{
return;
}
*phdata = hEmf;
return;
}