//+--------------------------------------------------------------------------- // // Microsoft Windows // Copyright (C) Microsoft Corporation, 1992 - 1992. // // File: vect.cxx // // Contents: Vector common code. // // Classes: // // Functions: // //---------------------------------------------------------------------------- #include "msfhead.cxx" #include "h/vect.hxx" //+------------------------------------------------------------------------- // // Method: CPagedVector::Init, public // // Synopsis: CPagedVector initialization function // // Arguments: [ulSize] -- size of vector // // Algorithm: Allocate an array of pointer of size ulSize // For each cell in the array, allocate a CFatSect // // Notes: // //-------------------------------------------------------------------------- SCODE CPagedVector::Init(CMStream *pmsParent, ULONG ulSize) { msfDebugOut((DEB_ITRACE,"In CPagedVector::CPagedVector(%lu)\n",ulSize)); SCODE sc = S_OK; _pmsParent = pmsParent; _pmpt = _pmsParent->GetPageTable(); msfAssert(_pmpt != NULL); USHORT i; // We don't bother allocating more than necessary here _ulAllocSize = _ulSize = ulSize; if (_ulSize > 0) { msfMem(_amp = GetNewPageArray(ulSize)); for (i = 0; i < _ulSize; i++) { _amp[i] = NULL; } msfMem(_avb = GetNewVectBits(ulSize)); } msfDebugOut((DEB_ITRACE,"Out CPagedVector::CPagedVector()\n")); return S_OK; Err: //In the error case, discard whatever vectors we were able to allocate // and return S_OK. delete [] _amp; _amp = NULL; delete [] _avb; _avb = NULL; return S_OK; } //+------------------------------------------------------------------------- // // Method: CPagedVector::~CPagedVector, public // // Synopsis: CPagedVector constructor // // Algorithm: Delete the pointer array. // // Notes: // //-------------------------------------------------------------------------- CPagedVector::~CPagedVector() { delete [] _amp; delete [] _avb; } //+--------------------------------------------------------------------------- // // Member: CPagedVector::Empty, public // // Synopsis: Discard the storage associated with this vector. // // Arguments: None. // // Returns: void. // //---------------------------------------------------------------------------- void CPagedVector::Empty(void) { if (_pmpt != NULL) { _pmpt->FreePages(this); } delete [] _amp; delete [] _avb; _amp = NULL; _avb = NULL; _pmpt = NULL; _ulAllocSize = _ulSize = 0; _pmsParent = NULL; } //+--------------------------------------------------------------------------- // // Member: CPagedVector::Flush, public // // Synopsis: Flush the dirty pages for this vector // // Arguments: None. // // Returns: Appropriate status code // //---------------------------------------------------------------------------- SCODE CPagedVector::Flush(void) { SCODE sc; SCODE scRet = S_OK; if (_ulSize > 0) { if (_amp != NULL) { for (USHORT i = 0; i < _ulSize; i++) { if ((_amp[i] != NULL) && (_amp[i]->IsDirty())) { sc = _pmpt->FlushPage(_amp[i]); if ((FAILED(sc)) && (SUCCEEDED(scRet))) { scRet = sc; } } } } else { scRet = _pmpt->Flush(); } } return scRet; } //+------------------------------------------------------------------------- // // Method: CPagedVector::GetTable, public // // Synopsis: Return a pointer to a page for the given index // into the vector. // // Arguments: [iTable] -- index into vector // [ppmp] -- Pointer to return location // // Returns: S_OK if call completed OK. // // Notes: // //-------------------------------------------------------------------------- SCODE CPagedVector::GetTable( const FSINDEX iTable, DWORD dwFlags, void **ppmp) { SCODE sc = S_OK; CMSFPage *pmp; msfAssert((_pmsParent->GetILB() != NULL) && aMsg("Null ILB found on GetTable - need SetAccess call?")); // docfile is corrupted with an invalid iTable size if (iTable >= _ulSize) { msfErr(Err, STG_E_DOCFILECORRUPT); } if ((_amp == NULL) || (_amp[iTable] == NULL)) { if (dwFlags & FB_NEW) { //We know that the page isn't in the page table, // so we can just get a free page an allocate it // ourselves. msfChk(_pmpt->GetFreePage(&pmp)); pmp->SetVector(this); pmp->SetSid(_sid); pmp->SetOffset(iTable); pmp->SetSect(ENDOFCHAIN); sc = STG_S_NEWPAGE; dwFlags = (dwFlags & ~FB_NEW) | FB_DIRTY; } else { msfChk(_pmpt->GetPage(this, _sid, iTable, &pmp)); msfAssert((pmp->GetVector() == this) && aMsg("GetPage returned wrong page.")); } if (_amp != NULL) { _amp[iTable] = pmp; } } else { pmp = _amp[iTable]; msfAssert((pmp->GetVector() == this) && aMsg("Cached page has wrong vector pointer")); } pmp->AddRef(); if (((dwFlags & FB_DIRTY) && !(pmp->IsDirty())) && (sc != STG_S_NEWPAGE)) { //If we are not a newly created page, and we are being // dirtied for the first time, make sure that our // _sect field is correct. // //Newly created pages have to have their sect set manually // _before_ being released. This is very important. pmp->SetSect(ENDOFCHAIN); SECT sect; msfChkTo(Err_Rel, _pmsParent->GetESect( pmp->GetSid(), pmp->GetOffset(), §)); pmp->SetSect(sect); } pmp->SetFlags(pmp->GetFlags() | dwFlags | FB_TOUCHED); msfAssert((pmp->GetVector() == this) && aMsg("GetTable returned wrong page.")); *ppmp = pmp->GetData(); Err: return sc; Err_Rel: pmp->Release(); return sc; } //+--------------------------------------------------------------------------- // // Member: CPagedVector::SetDirty, public // // Synopsis: Set the dirty bit on the specified page // // Arguments: [iTable] -- Table to set bit on // // Notes: This function is always called on a page with an // open reference. Therefore, the page is // guaranteed to be in the page table, and that // FindPage call should never return an error. // //---------------------------------------------------------------------------- SCODE CPagedVector::SetDirty(ULONG iTable) { SCODE sc = S_OK; CMSFPage *pmp; if (_amp == NULL) { msfChk(_pmpt->FindPage(this, _sid, iTable, &pmp)); msfAssert(sc == STG_S_FOUND); msfAssert(pmp->IsInUse() && aMsg("Called SetDirty on page not in use.")); } else { msfAssert(_amp != NULL); msfAssert(_amp[iTable] != NULL); pmp = _amp[iTable]; } if (!pmp->IsDirty()) { //We are not a newly created page, and we are being // dirtied for the first time, make sure that our // _sect field is correct. // pmp->AddRef(); pmp->SetSect(ENDOFCHAIN); SECT sect; msfChkTo(Err_Rel, _pmsParent->GetESect( pmp->GetSid(), pmp->GetOffset(), §)); pmp->SetSect(sect); pmp->Release(); } pmp->SetDirty(); Err: return sc; Err_Rel: pmp->Release(); return sc; } //+------------------------------------------------------------------------- // // Method: CPagedVector::Resize, public // // Synopsis: Resize a CPagedVector // // Arguments: [ulSize] -- Size of new vector // // Algorithm: Create new pointer array of size ulSize. // For each entry in old array, copy the pointer over. // // Notes: // //-------------------------------------------------------------------------- #define LARGETHRESHOLD 1024 #define VECTORBLOCK 1024 // Must be power of 2 SCODE CPagedVector::Resize(FSINDEX ulSize) { msfDebugOut((DEB_ITRACE,"In CPagedVector::CPagedVector(%lu)\n",ulSize)); msfAssert(ulSize >= _ulSize); msfAssert(_ulSize <= _ulAllocSize); msfAssert(((VECTORBLOCK & (VECTORBLOCK - 1)) == 0) && aMsg("VECTORBLOCK must be power of 2")); msfAssert(!((_amp == NULL) && (_avb != NULL)) && aMsg("Resize precondition failed.")); if (ulSize > _ulAllocSize) { // We don't have room in the existing vector; grow it ULONG ulNewAllocSize = ulSize; if (ulNewAllocSize > LARGETHRESHOLD) { // We're dealing with a large vector; grow it a VECTORBLOCK // at a time ulNewAllocSize = (ulNewAllocSize + VECTORBLOCK - 1) & ~(VECTORBLOCK - 1); } CMSFPage **amp = GetNewPageArray(ulNewAllocSize); CVectBits *avb = GetNewVectBits(ulNewAllocSize); // Can't fail after this point _ulAllocSize = ulNewAllocSize; // Copy over the old entries if ((amp != NULL) && (avb != NULL)) { if ((_amp != NULL) && (_avb != NULL)) { // Both allocations succeeded for (ULONG iamp = 0; iamp < _ulSize; iamp++) { amp[iamp] = _amp[iamp]; avb[iamp] = _avb[iamp]; } } else if (_amp != NULL) { for (ULONG iamp = 0; iamp < _ulSize; iamp++) { amp[iamp] = _amp[iamp]; } } else { for (ULONG iamp = 0; iamp < _ulSize; iamp++) { amp[iamp] = NULL; } } } else { // At least one of the allocations failed delete [] avb; avb = NULL; delete [] amp; amp = NULL; } // Delete the old vector and put in the new one (if any). // In the error case, throw away the vectors we are currently // holding (since they are of insufficient size) and return S_OK. delete [] _amp; _amp = amp; delete [] _avb; _avb = avb; } if (_amp != NULL) { // Initialize the new elements in the vector for (ULONG iamp = _ulSize; iamp < ulSize; iamp++) _amp[iamp] = NULL; } _ulSize = ulSize; msfDebugOut((DEB_ITRACE,"Out CPagedVector resize constructor\n")); return S_OK; }