/*
* PAGES.CPP
* Patron Chapter 13
*
* Implementation of the CPages class. See PAGEWIN.CPP for
* additional member functions.
*
* Copyright (c)1993-1996 Microsoft Corporation, All Rights Reserved
*
* Kraig Brockschmidt, Software Design Engineer
* Microsoft Systems Developer Relations
*
* Internet : kraigb@microsoft.com
* Compuserve: >INTERNET:kraigb@microsoft.com
*/
#include "patron.h"
/*
* CPages:CPages
* CPages::~CPages
*
* Constructor Parameters:
* hInst HINSTANCE of the application we're in.
* cf UINT application clipboard format.
*/
CPages::CPages(HINSTANCE hInst, UINT cf)
: CWindow(hInst)
{
m_pPageCur=NULL;
m_iPageCur=NOVALUE; //Pages are 0 indexed, this is one before
m_cPages=0;
m_hWndPageList=NULL;
m_fSystemFont=FALSE;
//Initialize to 8.5*11 inch with .25 inch margins as a default.
m_cx=(LOMETRIC_PER_INCH*17)/2;
m_cy=LOMETRIC_PER_INCH*11;
m_xMarginLeft=LOMETRIC_PER_INCH/4;
m_xMarginRight=LOMETRIC_PER_INCH/4;
m_yMarginTop=LOMETRIC_PER_INCH/4;
m_yMarginBottom=LOMETRIC_PER_INCH/4;
m_xPos=0L;
m_yPos=0L;
m_dwIDNext=0;
m_pIStorage=NULL;
m_fDirty=FALSE;
m_cf=cf;
m_fDragSource=FALSE;
m_fMoveInPage=FALSE;
m_fLinkAllowed=FALSE;
m_fDragRectShown=FALSE;
m_uScrollInset=GetProfileInt(TEXT("windows")
, TEXT("DragScrollInset"), DD_DEFSCROLLINSET);
m_uScrollDelay=GetProfileInt(TEXT("windows")
, TEXT("DragScrollDelay"), DD_DEFSCROLLDELAY);
m_uHScrollCode=0;
m_uVScrollCode=0;
m_fShowTypes=FALSE;
//CHAPTER13MOD
m_pmkFile=NULL;
//End CHAPTER13MOD
return;
}
CPages::~CPages(void)
{
//Ensure memory cleaned up in list; do final IStorage::Release
FIStorageSet(NULL, FALSE, FALSE);
//CHAPTER13MOD
if (NULL!=m_pmkFile)
m_pmkFile->Release();
//End CHAPTER13MOD
if (NULL!=m_hFont && !m_fSystemFont)
DeleteObject(m_hFont);
if (NULL!=m_hWndPageList)
DestroyWindow(m_hWndPageList);
//m_hWnd destroyed with the document.
return;
}
/*
* CPages::FIsDirty
*
* Purpose:
* Tells the caller (document) if anything's happened to dirty us.
*
* Parameters:
* None
*
* Return Value:
* None
*/
BOOL CPages::FIsDirty(void)
{
return m_fDirty;
}
/*
* CPages::FInit
*
* Purpose:
* Instantiates a pages window within a given parent. The
* parent may be a main application window, could be an MDI child
* window. We really do not care.
*
* Parameters:
* hWndParent HWND of the parent of this window
* pRect LPRECT that this window should occupy
* dwStyle DWORD containing the window's style flags.
* Should contain WS_CHILD | WS_VISIBLE in
* typical circumstances.
* uID UINT ID to associate with this window
* pv LPVOID unused for now.
*
* Return Value:
* BOOL TRUE if the function succeeded, FALSE otherwise.
*/
BOOL CPages::FInit(HWND hWndParent, LPRECT pRect, DWORD dwStyle
, UINT uID, LPVOID pv)
{
int cy;
m_hWnd=CreateWindowEx(WS_EX_NOPARENTNOTIFY, SZCLASSPAGES
, SZCLASSPAGES, dwStyle, pRect->left, pRect->top
, pRect->right-pRect->left, pRect->bottom-pRect->top
, hWndParent, (HMENU)uID, m_hInst, this);
if (NULL==m_hWnd)
return FALSE;
/*
* Create the hidden listbox we'll use to track pages. We give
* it the owner-draw style so we can just store pointers in it.
* We have to set the parent to NULL such that the window hangs
* around after the pages window is destroyed so that we can
* clean up the memory stored in it from the CPages destructor.
*/
m_hWndPageList=CreateWindow(TEXT("listbox"), TEXT("Page List")
, WS_POPUP | LBS_OWNERDRAWFIXED, 0, 0, 100, 100
, HWND_DESKTOP, NULL, m_hInst, NULL);
if (NULL==m_hWndPageList)
return FALSE;
//Create a 14 point Arial font, or use the system variable font.
cy=MulDiv(-14, LOMETRIC_PER_INCH, 72);
m_hFont=CreateFont(cy, 0, 0, 0, FW_NORMAL, FALSE, FALSE, FALSE
, ANSI_CHARSET, OUT_TT_PRECIS, CLIP_TT_ALWAYS, PROOF_QUALITY
, VARIABLE_PITCH | FF_SWISS, TEXT("Arial"));
if (NULL==m_hFont)
{
m_hFont=(HFONT)GetStockObject(ANSI_VAR_FONT);
m_fSystemFont=TRUE;
}
return TRUE;
}
/*
* CPages::FIStorageSet
*
* Purpose:
* Provides the document's IStorage to the pages for its own use.
* If this is a new storage, we initalize it with streams that we
* want to always exists. If this is an open, then we create
* our page list from the PageList string we wrote before.
*
* Parameters:
* pIStorage LPSTORAGE to the new or opened storage. If
* NULL, we just clean up and exit.
* fChange BOOL indicating is this was a Save As operation,
* meaning that we have the structure already and
* just need to change the value of m_pIStorage.
* fInitNew BOOL indicating if this is a new storage or one
* opened from a previous save.
*
* Return Value:
* None
*/
BOOL CPages::FIStorageSet(LPSTORAGE pIStorage, BOOL fChange
, BOOL fInitNew)
{
DWORD dwMode=STGM_DIRECT | STGM_READWRITE
| STGM_SHARE_EXCLUSIVE;
HRESULT hr;
PCPage pPage;
BOOL fRet=FALSE;
ULONG cbRead;
PAGELIST pgList;
LPSTREAM pIStream;
LPMALLOC pIMalloc;
LPDWORD pdwID;
UINT i;
//If we're changing saved roots, simply open current page again
if (fChange)
{
if (NULL==pIStorage)
return FALSE;
m_pIStorage->Release();
m_pIStorage=pIStorage;
m_pIStorage->AddRef();
FPageGet(m_iPageCur, &m_pPageCur, TRUE);
return TRUE;
}
if (NULL!=m_hWndPageList)
{
//On new or open, clean out whatever it is we have.
for (i=0; i < m_cPages; i++)
{
//CHAPTER13MOD
if (FPageGet(i, &pPage, FALSE))
pPage->Release();
//End CHAPTER13MOD
}
SendMessage(m_hWndPageList, LB_RESETCONTENT, 0, 0L);
}
if (NULL!=m_pIStorage)
m_pIStorage->Release();
m_pIStorage=NULL;
//If we're just cleaning up, then we're done.
if (NULL==pIStorage)
return TRUE;
m_pIStorage=pIStorage;
m_pIStorage->AddRef();
//If this is a new storage, create the streams we require
if (fInitNew)
{
//Page list header.
hr=m_pIStorage->CreateStream(SZSTREAMPAGELIST, dwMode
| STGM_CREATE, 0, 0, &pIStream);
if (FAILED(hr))
return FALSE;
pIStream->Release();
//Device Configuration
hr=m_pIStorage->CreateStream(SZSTREAMDEVICECONFIG, dwMode
| STGM_CREATE, 0, 0, &pIStream);
if (FAILED(hr))
return FALSE;
pIStream->Release();
return TRUE;
}
/*
* We're opening an existing file:
* 1) Configure for the device we're on
* 2) Read the Page List and create page entries for each.
*/
ConfigureForDevice();
//Read the page list.
hr=m_pIStorage->OpenStream(SZSTREAMPAGELIST, NULL, dwMode, 0
, &pIStream);
if (FAILED(hr))
return FALSE;
if (SUCCEEDED(CoGetMalloc(MEMCTX_TASK, &pIMalloc)))
{
pIStream->Read(&pgList, sizeof(PAGELIST), &cbRead);
m_cPages =(UINT)pgList.cPages;
m_iPageCur=(UINT)pgList.iPageCur;
m_dwIDNext=pgList.dwIDNext;
fRet=TRUE;
cbRead=pgList.cPages*sizeof(DWORD);
if (0!=cbRead)
{
pdwID=(LPDWORD)pIMalloc->Alloc(cbRead);
if (NULL!=pdwID)
{
pIStream->Read(pdwID, cbRead, &cbRead);
for (i=0; i < m_cPages; i++)
fRet &=FPageAdd(NOVALUE, *(pdwID+i), FALSE);
pIMalloc->Free(pdwID);
}
}
pIMalloc->Release();
}
pIStream->Release();
if (!fRet)
return FALSE;
FPageGet(m_iPageCur, &m_pPageCur, TRUE);
InvalidateRect(m_hWnd, NULL, FALSE);
UpdateWindow(m_hWnd);
return TRUE;
}
/*
* CPages::FIStorageUpdate
*
* Purpose:
* Insures that all pages are committed before a root save.
*
* Parameters:
* fCloseAll BOOL directing us to close all open storages
* and streams.
*
* Return Value:
* BOOL TRUE if successful, FALSE otherwise.
*/
BOOL CPages::FIStorageUpdate(BOOL fCloseAll)
{
PCPage pPage;
LPSTREAM pIStream;
LPMALLOC pIMalloc;
LPDWORD pdwID;
ULONG cb;
HRESULT hr;
PAGELIST pgList;
BOOL fRet=FALSE;
UINT i;
//We only need to close the current page--nothing else is open.
if (NULL!=m_pPageCur)
{
m_pPageCur->Update();
if (fCloseAll)
m_pPageCur->Close(FALSE);
}
//We don't hold anything else open, so write the page list.
hr=m_pIStorage->OpenStream(SZSTREAMPAGELIST, NULL, STGM_DIRECT
| STGM_READWRITE | STGM_SHARE_EXCLUSIVE, 0, &pIStream);
if (FAILED(hr))
return FALSE;
if (SUCCEEDED(CoGetMalloc(MEMCTX_TASK, &pIMalloc)))
{
pgList.cPages=m_cPages;
pgList.iPageCur=m_iPageCur;
pgList.dwIDNext=m_dwIDNext;
pIStream->Write(&pgList, sizeof(PAGELIST), &cb);
cb=m_cPages*sizeof(DWORD);
pdwID=(LPDWORD)pIMalloc->Alloc(cb);
if (NULL!=pdwID)
{
for (i=0; i < m_cPages; i++)
{
FPageGet(i, &pPage, FALSE);
*(pdwID+i)=pPage->GetID();
}
pIStream->Write(pdwID, cb, &cb);
pIMalloc->Free(pdwID);
fRet=TRUE;
}
pIMalloc->Release();
}
pIStream->Release();
//Don't forget to clean up the dirty flag when we do an update.
m_fDirty=!fRet;
return fRet;
}
/*
* CPages::RectGet
*
* Purpose:
* Returns the rectangle of the Pages window in parent coordinates.
*
* Parameters:
* pRect LPRECT in which to return the rectangle.
*
* Return Value:
* None
*/
void CPages::RectGet(LPRECT pRect)
{
RECT rc;
POINT pt;
//Retrieve the size of our rectangle in parent coordinates.
GetWindowRect(m_hWnd, &rc);
SETPOINT(pt, rc.left, rc.top);
ScreenToClient(GetParent(m_hWnd), &pt);
SetRect(pRect, pt.x, pt.y, pt.x+(rc.right-rc.left)
, pt.y+(rc.bottom-rc.top));
return;
}
/*
* CPages::RectSet
*
* Purpose:
* Sets a new rectangle for the Pages window which sizes to fit.
* Coordinates are given in parent terms.
*
* Parameters:
* pRect LPRECT containing the new rectangle.
* fNotify BOOL indicating if we're to notify anyone of
* the change.
*
* Return Value:
* None
*/
void CPages::RectSet(LPRECT pRect, BOOL fNotify)
{
UINT cx, cy;
if (NULL==pRect)
return;
cx=pRect->right-pRect->left;
cy=pRect->bottom-pRect->top;
SetWindowPos(m_hWnd, NULL, pRect->left, pRect->top
, (UINT)cx, (UINT)cy, SWP_NOZORDER);
UpdateScrollRanges();
return;
}
/*
* CPages::SizeGet
*
* Purpose:
* Retrieves the size of the pages window in parent coordinates.
*
* Parameters:
* pRect LPRECT in which to return the size. The right
* and bottom fields will contain the dimensions.
*
* Return Value:
* None
*/
void CPages::SizeGet(LPRECT pRect)
{
RectGet(pRect);
return;
}
/*
* CPages::SizeSet
*
* Purpose:
* Sets a new size in parent coordinates for the Pages window.
*
* Parameters:
* pRect LPRECT containing the new rectangle.
* fNotify BOOL indicating if we're to notify anyone of
* the change.
*
* Return Value:
* None
*/
void CPages::SizeSet(LPRECT pRect, BOOL fNotify)
{
UINT cx, cy;
if (NULL==pRect)
return;
cx=pRect->right-pRect->left;
cy=pRect->bottom-pRect->top;
SetWindowPos(m_hWnd, NULL, 0, 0, (UINT)cx, (UINT)cy
, SWP_NOMOVE | SWP_NOZORDER);
UpdateScrollRanges();
return;
}
/*
* CPages::PageInsert
*
* Purpose:
* Creates a new page immediately after the current page. If
* there are no pages then this creates page 1.
*
* Parameters:
* uReserved UINT unused
*
* Return Value:
* UINT Index of the new page, 0 on failure.
*/
UINT CPages::PageInsert(UINT uReserved)
{
if (0!=m_cPages && NULL!=m_pPageCur)
{
//Close the current page, committing changes.
m_pPageCur->Close(TRUE);
}
//Create and open the new page.
if (!FPageAdd(m_iPageCur, m_dwIDNext, TRUE))
return 0;
m_dwIDNext++;
m_iPageCur++;
m_cPages++;
InvalidateRect(m_hWnd, NULL, FALSE);
UpdateWindow(m_hWnd);
FPageGet(m_iPageCur, &m_pPageCur, FALSE);
return m_iPageCur;
}
/*
* CPages::PageDelete
*
* Removes the current page from the page list.
*
* Parameters:
* uReserved UINT unused
*
* Return Value:
* UINT Index to the now current page from the page
* list, NOVALUE on error.
*/
UINT CPages::PageDelete(UINT uReserved)
{
PCPage pPage;
if (!FPageGet(m_iPageCur, &pPage, FALSE))
return NOVALUE;
//Delete the page in both the storage and in memory.
SendMessage(m_hWndPageList, LB_DELETESTRING, m_iPageCur, 0L);
m_pPageCur->Destroy(m_pIStorage);
//CHAPTER13MOD
m_pPageCur->Release(); //Does final pPage->Close
//End CHAPTER13MOD
m_pPageCur=NULL;
/*
* If this is the last page then the current is one less. If
* it's the only page the current is zero. Otherwise the
* current is the next page.
*/
if (m_iPageCur==m_cPages-1) //Covers last or only page.
m_iPageCur--;
m_cPages--;
//Insure the new visible page is open.
if (0!=m_cPages)
{
FPageGet(m_iPageCur, &m_pPageCur, TRUE);
InvalidateRect(m_hWnd, NULL, FALSE);
}
else
InvalidateRect(m_hWnd, NULL, TRUE);
UpdateWindow(m_hWnd);
return m_iPageCur;
}
/*
* CPages::CurPageGet
*
* Purpose:
* Retrieves the index of the current page we're viewing.
*
* Parameters:
* None
*
* Return Value:
* UINT Index of the current page.
*/
UINT CPages::CurPageGet(void)
{
return m_iPageCur;
}
/*
* CPages::CurPageSet
*
* Purpose:
* Sets the index of the current page to view.
*
* Parameters:
* iPage UINT index of the page to view. 0 means first
* page, NOVALUE means last page.
*
* Return Value:
* UINT Index of the previous current page, NOVALUE on
* error.
*/
UINT CPages::CurPageSet(UINT iPage)
{
UINT iPageNew;
UINT iPagePrev=m_iPageCur;
PCPage pPage;
switch (iPage)
{
case 0:
iPageNew=0;
break;
case NOVALUE:
iPageNew=m_cPages-1;
break;
default:
if (iPage >= m_cPages)
iPage=0;
iPageNew=iPage;
break;
}
//No reason to switch to the same page.
if (iPagePrev==iPageNew)
return iPage;
//Close the old page committing changes.
if (!FPageGet(iPagePrev, &pPage, FALSE))
return NOVALUE;
pPage->Close(TRUE);
m_iPageCur=iPageNew;
//Open the new page.
FPageGet(m_iPageCur, &m_pPageCur, TRUE);
InvalidateRect(m_hWnd, NULL, FALSE);
UpdateWindow(m_hWnd);
return iPagePrev;
}
/*
* CPages::NumPagesGet
*
* Purpose:
* Returns the number of pages this object current contains.
*
* Parameters:
* None
*
* Return Value:
* UINT Number of pages we contain.
*/
UINT CPages::NumPagesGet(void)
{
return m_cPages;
}
/*
* CPages::DevModeSet
*
* Purpose:
* Provides the Pages with the current printer information.
*
* Parameters:
* hDevMode HGLOBAL to the memory containing the DEVMODE.
* This function assumes responsibility for this
* handle.
* hDevNames HGLOBAL providing the driver name and device
* name from which we can create a DC for
* information.
*
* Return Value:
* BOOL TRUE if we could accept this configuration,
* FALSE otherwise. If we return TRUE we also
* delete the old memory we hold.
*/
BOOL CPages::DevModeSet(HGLOBAL hDevMode, HGLOBAL hDevNames)
{
LPDEVNAMES pdn;
LPTSTR psz;
HGLOBAL hMem;
PDEVICECONFIG pdc;
LPDEVMODE pdm;
LPSTREAM pIStream;
HRESULT hr;
ULONG cbDevMode, cbWrite;
BOOL fRet=FALSE;
if (NULL==hDevMode || NULL==hDevNames)
return FALSE;
hr=m_pIStorage->OpenStream(SZSTREAMDEVICECONFIG, 0, STGM_DIRECT
| STGM_WRITE | STGM_SHARE_EXCLUSIVE, 0, &pIStream);
if (FAILED(hr))
return FALSE;
/*
* DEVMODE is variable length--total length in hDevMode, so the
* amount to write is that plus string space. We subtract
* sizeof(DEVMODE) as that is already included from GlobalSize.
*/
cbDevMode=GlobalSize(hDevMode);
cbWrite=cbDevMode+sizeof(DEVICECONFIG)-sizeof(DEVMODE);
hMem=GlobalAlloc(GHND, cbWrite);
if (NULL==hMem)
{
pIStream->Release();
return FALSE;
}
pdc=(PDEVICECONFIG)GlobalLock(hMem); //This always works
pdm=(LPDEVMODE)GlobalLock(hDevMode); //This might not
if (NULL!=pdm)
{
pdc->cb=cbWrite;
pdc->cbDevMode=cbDevMode;
memcpy(&pdc->dm, pdm, (int)cbDevMode);
GlobalUnlock(hDevMode);
psz=(LPTSTR)GlobalLock(hDevNames);
if (NULL!=psz)
{
pdn=(LPDEVNAMES)psz;
lstrcpy(pdc->szDriver, psz+pdn->wDriverOffset);
lstrcpy(pdc->szDevice, psz+pdn->wDeviceOffset);
lstrcpy(pdc->szPort, psz+pdn->wOutputOffset);
pIStream->Write(pdc, cbWrite, &cbWrite);
GlobalUnlock(hDevNames);
fRet=TRUE;
}
}
GlobalUnlock(hMem);
GlobalFree(hMem);
pIStream->Release();
if (!fRet)
return FALSE;
GlobalFree(hDevNames);
GlobalFree(hDevMode);
return ConfigureForDevice();
}
/*
* CPages::DevModeGet
*
* Purpose:
* Retrieves a copy of the current DEVMODE structure for this
* Pages window. The caller is responsible for this memory.
*
* Parameters:
* None
*
* Return Value:
* HGLOBAL Handle to the memory containing the DEVMODE
* structure.
*/
HGLOBAL CPages::DevModeGet(void)
{
HGLOBAL hMem;
LPVOID pv;
ULONG cbDevMode, cbRead;
LARGE_INTEGER li;
LPSTREAM pIStream;
HRESULT hr;
hr=m_pIStorage->OpenStream(SZSTREAMDEVICECONFIG, 0, STGM_DIRECT
| STGM_READ | STGM_SHARE_EXCLUSIVE, 0, &pIStream);
if (FAILED(hr))
return FALSE;
//Read how much to allocate for the DEVMODE structure
LISet32(li, CBSEEKOFFSETCBDEVMODE);
pIStream->Seek(li, STREAM_SEEK_SET, NULL);
pIStream->Read(&cbDevMode, sizeof(ULONG), &cbRead);
hMem=GlobalAlloc(GHND, cbDevMode);
if (NULL!=hMem)
{
pv=(LPVOID)GlobalLock(hMem);
pIStream->Read(pv, cbDevMode, &cbRead);
GlobalUnlock(hMem);
}
pIStream->Release();
return hMem;
}
/*
* CPages::DevReadConfig
*
* Purpose:
* Public function to read the current device configuration and
* optionally return an information context for it.
*
*
* Parameters:
* ppcd PCOMBINEDEVICE * in which to return a pointer
* to an allocated structure that has all the
* device information we want. Ignored if NULL.
* This is allocated with the task allocator.
* phDC HDC * in which to return the information
* context. If NULL, no IC is created. Caller
* becomes responsible for the returned IC.
*
* Return Value:
* BOOL TRUE if successful, FALSE otherwise.
*/
BOOL CPages::DevReadConfig(PCOMBINEDEVICE *ppcd, HDC *phDC)
{
HRESULT hr;
LPSTREAM pIStream;
LPMALLOC pIMalloc;
PCOMBINEDEVICE pcd;
ULONG cb, cbRead;
LARGE_INTEGER li;
hr=m_pIStorage->OpenStream(SZSTREAMDEVICECONFIG, 0, STGM_DIRECT
| STGM_READ | STGM_SHARE_EXCLUSIVE, 0, &pIStream);
if (FAILED(hr))
return FALSE;
/*
* Allocate the COMBINEDEVICE structure including the variable
* information past the DEVMODE part.
*/
hr=CoGetMalloc(MEMCTX_TASK, &pIMalloc);
if (FAILED(hr))
{
pIStream->Release();
return FALSE;
}
/*
* Read size of the DEVICECONFIG structure including variable
* portion of DEVMODE. We need to load all this information
* for CreateIC. To this size we'll add the size of
* DVTARGETDEVICE in order to allocate a COMBINEDEVICE.
*/
pIStream->Read(&cb, sizeof(DWORD), &cbRead);
pcd=(PCOMBINEDEVICE)pIMalloc->Alloc(cb+sizeof(DVTARGETDEVICE));
if (NULL==pcd)
{
pIMalloc->Release();
pIStream->Release();
return FALSE;
}
//Now get the real information.
LISet32(li, 0);
pIStream->Seek(li, STREAM_SEEK_SET, NULL);
pIStream->Read(&(pcd->dc), cb, &cbRead);
pIStream->Release();
/*
* If requested, complete the DVTARGETDEVICE structure in
* pcd and store pcd in *ppcd for return.
*/
if (NULL!=ppcd)
{
WORD cb=sizeof(DVTARGETDEVICE);
pcd->td.tdSize=cb;
pcd->td.tdExtDevmodeOffset=cb;
pcd->td.tdDriverNameOffset=cb+sizeof(DEVMODE);
pcd->td.tdDeviceNameOffset=cb+sizeof(DEVMODE)
+(CCHDEVICENAME*sizeof(TCHAR));
pcd->td.tdPortNameOffset =cb+sizeof(DEVMODE)
+(CCHDEVICENAME*2*sizeof(TCHAR));
*ppcd=pcd;
}
//Create an IC if requested.
if (NULL!=phDC)
{
//Get the DC then configure
*phDC=CreateIC(pcd->dc.szDriver, pcd->dc.szDevice
, pcd->dc.szPort, &(pcd->dc.dm));
if (NULL==*phDC)
return FALSE;
}
//pcd is a temporary allocation in this case
if (NULL==ppcd)
pIMalloc->Free(pcd);
pIMalloc->Release();
return (NULL!=*phDC);
}
/*
* CPages::ConfigureForDevice
*
* Purpose:
* Recalculates our drawing configuration based on the contents of
* an hDC. If no HDC is given we use the contents of our DevMode
* stream.
*
* Parameters:
* None
*
* Return Value:
* BOOL TRUE if successful, FALSE otherwise.
*/
BOOL CPages::ConfigureForDevice(void)
{
POINT ptOffset, ptPaper;
RECT rc;
HDC hDC;
if (!DevReadConfig(NULL, &hDC))
return FALSE;
//Get usable page dimensions: already sensitive to orientation
m_cx=GetDeviceCaps(hDC, HORZSIZE)*10-16; //*10: mm to LOMETRIC
m_cy=GetDeviceCaps(hDC, VERTSIZE)*10-16; //-16: for driver bugs.
//Calculate the printer-limited margins on each side in LOMETRIC
Escape(hDC, GETPRINTINGOFFSET, NULL, NULL, &ptOffset);
Escape(hDC, GETPHYSPAGESIZE, NULL, NULL, &ptPaper);
SetRect(&rc, ptOffset.x, ptOffset.y, ptPaper.x, ptPaper.y);
SetMapMode(hDC, MM_LOMETRIC);
RectConvertMappings(&rc, hDC, FALSE);
//Left and top margins are the printing offset.
m_xMarginLeft= rc.left+8; //+8 to match -16 above
m_yMarginTop =-rc.top+8; //LOMETRIC makes this negative.
//Right is (paper width)-(usable width)-(left margin)
m_xMarginRight =rc.right-m_cx-m_xMarginLeft;
//Bottom is (paper height)-(usable height)-(top margin)+1
m_yMarginBottom=-rc.bottom-m_cy-m_yMarginTop+1;
UpdateScrollRanges();
DeleteDC(hDC);
return TRUE;
}
/*
* CPages::TenantCreate
* CPages::TenantDestroy
*
* Purpose:
* Pass-throughs for CPage members on the current page.
*/
BOOL CPages::TenantCreate(TENANTTYPE tType, LPVOID pv
, LPFORMATETC pFE, PPATRONOBJECT ppo, DWORD dwData)
{
BOOL fRet;
if (NULL==m_pPageCur)
return FALSE;
fRet=m_pPageCur->TenantCreate(tType, pv, pFE, ppo, dwData);
m_fDirty |= fRet;
return fRet;
}
BOOL CPages::TenantDestroy(void)
{
BOOL fRet;
if (NULL==m_pPageCur)
return FALSE;
fRet=m_pPageCur->TenantDestroy();
m_fDirty |= fRet;
return fRet;
}
/*
* CPages::TenantClip
*
* Purpose:
* Copies or cuts the currently selected tenant to the clipoard.
*
* Parameters:
* fCut BOOL TRUE to cut the object, FALSE to copy.
*
* Return Value:
* BOOL TRUE if successful, FALSE otherwise.
*/
BOOL CPages::TenantClip(BOOL fCut)
{
BOOL fRet;
if (NULL==m_pPageCur)
return FALSE;
fRet=m_pPageCur->TenantClip(fCut);
m_fDirty |= (fRet && fCut);
return fRet;
}
/*
* CPages::FQueryObjectSelected
*
* Purpose:
* Returns whether or not there is an object selected on this
* page for Cut, Copy, Delete functions.
*
* Parameters:
* hMenu HMENU on which object related items live.
*
* Return Value:
* BOOL TRUE if we have an object, FALSE otherwise.
*/
BOOL CPages::FQueryObjectSelected(HMENU hMenu)
{
if (NULL==m_pPageCur)
return FALSE;
return m_pPageCur->FQueryObjectSelected(hMenu);
}
/*
* CPages::ActivateObject
*
* Purpose:
* Executes a verb on the currently selected object.
*
* Parameters:
* iVerb LONG of the selected verb.
*
* Return Value:
* None
*/
void CPages::ActivateObject(LONG iVerb)
{
if (NULL==m_pPageCur)
return;
m_pPageCur->ActivateObject(iVerb);
return;
}
/*
* CPages::ShowObjectTypes
*
* Purpose:
* Pass-through to CPage::ShowObjectTypes
*
* Parameters:
* fShow BOOL indicating to show the type or not.
*
* Return Value:
* None
*/
void CPages::ShowObjectTypes(BOOL fShow)
{
if (NULL==m_pPageCur)
return;
m_fShowTypes=fShow;
m_pPageCur->ShowObjectTypes(fShow);
return;
}
/*
* CPages::NotifyTenantsOfRename
*
* Purpose:
* Pass-through to CPage to tell tenants that the document
* changes names.
*
* Parameters:
* pszFile LPTSTR of the new filename.
* pmk LPMONKIER to the new file moniker.
*
* Return Value:
* None
*/
void CPages::NotifyTenantsOfRename(LPTSTR pszFile, LPMONIKER pmk)
{
if (NULL==m_pPageCur)
return;
if (NULL!=m_pmkFile)
m_pmkFile->Release();
m_pmkFile=pmk;
m_pmkFile->AddRef();
m_pPageCur->NotifyTenantsOfRename(pszFile, pmk);
return;
}
/*
* CPages::FQueryLinksInPage
*
* Purpose:
* Pass through to current page to see if there are any
* linked objects
*
* Parameters:
* None
*
* Return Value:
* None
*/
BOOL CPages::FQueryLinksInPage()
{
if (NULL==m_pPageCur)
return FALSE;
return m_pPageCur->FQueryLinksInPage();
}
/*
* CPages::FGetUILinkContainer
*
* Purpose:
* Creates an object with the IOleUILinkContainer interface for
* the links dialog. We know the current page which is what
* we need to create this thing, so we can create it here instead
* of bugging the page for it.
*
* Parameters:
* ppObj PCIOleUILinkContainer * in which we return
* the pointer.
*
* Return Value:
* BOOL TRUE if successful, FALSE otherwise.
*/
BOOL CPages::FGetUILinkContainer(PCIOleUILinkContainer *ppObj)
{
PCIOleUILinkContainer pObj;
*ppObj=NULL;
if (NULL==m_pPageCur)
return FALSE;
pObj=new CIOleUILinkContainer(m_pPageCur);
if (NULL==pObj)
return FALSE;
if (!pObj->FInit())
{
delete pObj;
return FALSE;
}
pObj->AddRef();
*ppObj=pObj;
return TRUE;
}
/*
* CPages::CalcBoundingRect
* (Protected)
*
* Purpose:
* Calculates a rectangle that bounds the printed page and the
* current scroll state of the window.
*
* Parameters:
* prc LPRECT to fill with window (device) coordinates.
* fWindow BOOL indicating to include the window in this
* calculation or return only the printed page
* coordinates.
*
* Return Value:
* None
*/
void CPages::CalcBoundingRect(LPRECT prc, BOOL fWindow)
{
RECT rc, rcT;
if (NULL==prc)
return;
//Calculate the boundaries for sizing: intersect page & screen
rc.left=LOMETRIC_BORDER+m_xMarginLeft;
rc.top =-LOMETRIC_BORDER-m_yMarginTop;
rc.right =rc.left+(UINT)m_cx;
rc.bottom=rc.top -(UINT)m_cy;
RectConvertMappings(&rc, NULL, TRUE);
OffsetRect(&rc, -(int)m_xPos, -(int)m_yPos);
if (!fWindow)
{
*prc=rc;
return;
}
//Intersect with window to make the size bounds.
GetClientRect(m_hWnd, &rcT);
IntersectRect(prc, &rc, &rcT);
return;
}
/*
* CPages::FPageGet
* (Protected)
*
* Purpose:
* Returns a page of a given index returning a BOOL so it's simple
* to use this function inside if statements.
*
* Parameters:
* iPage UINT page to retrieve 0 based.
* ppPage PCPage * in which to return the page pointer
* fOpen BOOL indicating if we should open this page as
* well.
*
* Return Value:
* BOOL TRUE if successful, FALSE otherwise.
*/
BOOL CPages::FPageGet(UINT iPage, PCPage *ppPage, BOOL fOpen)
{
if (NULL==ppPage)
return FALSE;
if (LB_ERR!=SendMessage(m_hWndPageList, LB_GETTEXT
, iPage, (LONG)ppPage))
{
if (fOpen)
(*ppPage)->FOpen(m_pIStorage);
return TRUE;
}
return FALSE;
}
/*
* CPages::FPageAdd
* (Protected)
*
* Purpose:
* Creates a new page initialized to the given values. The new
* page's storage is created if it does not already exist. If
* fOpenStorage is set the page's storage is opened and left
* opened.
*
* Parameters:
* iPage UINT Location at which to insert page; new page
* is inserted after this position. NOVALUE for
* the end.
* dwID DWORD ID for this page.
* fOpenStorage BOOL indicating if we're to leave the storage
* open.
*
* Return Value:
* BOOL TRUE if the function succeeded, FALSE otherwise.
*/
BOOL CPages::FPageAdd(UINT iPage, DWORD dwID, BOOL fOpenStorage)
{
PCPage pPage;
LRESULT lr;
pPage=new CPage(dwID, m_hWnd, this);
if (NULL==pPage)
return FALSE;
//CHAPTER13MOD
pPage->AddRef();
//End CHAPTER13MOD
if (fOpenStorage)
pPage->FOpen(m_pIStorage);
if (NOVALUE==iPage)
iPage--;
//Now try to add to the listbox.
lr=SendMessage(m_hWndPageList, LB_INSERTSTRING, iPage+1
, (LONG)pPage);
if (LB_ERRSPACE==lr)
{
if (fOpenStorage)
pPage->Close(FALSE);
//CHAPTER13MOD
pPage->Release();
//End CHAPTER13MOD
return FALSE;
}
return TRUE;
}
//CHAPTER13MOD
/*
* CPages::IPageGetFromID
* (Protected)
*
* Purpose:
* Returns a page of a given identifier
*
* Parameters:
* dwID DWORD identifier of the page to retrieve. If
* NOVALUE, then we return the current page.
* ppPage PCPage * in which to return the page
* pointer
* fOpen BOOL indicating if we should open this page as
* well.
*
* Return Value:
* UINT Index of the page if successful, NOVALUE
* otherwise.
*/
UINT CPages::IPageGetFromID(DWORD dwID, PCPage *ppPage
, BOOL fOpen)
{
UINT i;
PCPage pPage;
if (NULL==ppPage)
return FALSE;
if ((LONG)-1==(LONG)dwID)
{
*ppPage=m_pPageCur;
return m_iPageCur;
}
*ppPage=NULL;
for (i=0; i < m_cPages; i++)
{
if (!FPageGet(i, &pPage, FALSE))
continue;
if (pPage->GetID()==dwID)
{
if (fOpen)
pPage->FOpen(m_pIStorage);
*ppPage=pPage;
return i;
}
}
return NOVALUE;
}
//End CHAPTER13MOD