Source code of Windows XP (NT5)
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// DataSrc.cpp - Implementation of DataSource and Folder shared base methods.
//
// Copyright (c) 1998-1999 Microsoft Corporation
#include <afx.h>
#include "StdAfx.h"
#include "DataSrc.h"
#include "Resource.h"
#include "resrc1.h"
#include "FileIO.h"
#include "msicab.h"
LPCTSTR cszRootName = _T("");
/*
* CDataSource - Default data source constructor.
*
* History: a-jsari 10/15/97 Initial version
*/
CDataSource::CDataSource(LPCTSTR szMachineName)
:m_RootFolder(NULL),
m_pPrintContent(NULL),
m_pDC(NULL),
m_pPrintInfo(NULL),
m_pprinterFont(NULL),
m_strPath(_T("")),
m_iLine(0),
m_fCanceled(FALSE),
m_strHeaderLeft(szMachineName),
m_pfLast(NULL)
{
}
/*
* ~CDataSource - Default data source destructor.
*
* History: a-jsari 10/15/97 Initial version.
*/
CDataSource::~CDataSource()
{
delete m_RootFolder;
delete m_pPrintContent;
delete m_pDC;
delete m_pprinterFont;
#pragma warning(disable:4150)
// C++ warns us that no destructor is called for m_pPrintInfo.
// This is intended behavior
delete m_pPrintInfo;
#pragma warning(default:4150)
}
/*
* GetNodeName - Return the default node name (if not overridden in subclasses.
*
* History: a-jsari 1/16/98 Initial version.
*/
BOOL CDataSource::GetNodeName(CString &strNode)
{
AFX_MANAGE_STATE(::AfxGetStaticModuleState());
VERIFY(strNode.LoadString(IDS_EXTENSIONNODENAME));
return TRUE;
}
/*
* SetDataComplexity - Set the global complexity of this source.
*
* History: a-jsari 12/22/97 Initial version.
*/
BOOL CDataSource::SetDataComplexity(enum DataComplexity Complexity)
{
m_Complexity = Complexity;
return TRUE;
}
/*
* ResultFromFileException - Return the HRESULT which corresponds to the
*
* History: a-jsari 3/26/98 Initial version.
*/
static inline HRESULT ResultFromFileException(CFileException *e)
{
HRESULT hrReturn;
switch (e->m_cause) {
case CFileException::badPath:
hrReturn = STG_E_PATHNOTFOUND;
break;
case CFileException::accessDenied:
hrReturn = STG_E_ACCESSDENIED;
break;
case CFileException::tooManyOpenFiles:
hrReturn = STG_E_TOOMANYOPENFILES;
break;
case CFileException::sharingViolation:
hrReturn = STG_E_SHAREVIOLATION;
break;
case CFileException::hardIO:
hrReturn = STG_E_WRITEFAULT;
break;
case CFileException::directoryFull:
case CFileException::diskFull:
hrReturn = STG_E_MEDIUMFULL;
break;
default:
// Return the default error code.
hrReturn = E_UNEXPECTED;
break;
}
return hrReturn;
}
/*
* SaveFile - Save, starting from the root passed in, as a binary file.
*
* History: a-jsari 10/21/97 Initial version
*/
HRESULT CDataSource::SaveFile(LPCTSTR cszFilename, CFolder *pSaveRoot)
{
HRESULT hrReturn;
if (cszFilename == NULL) return E_INVALIDARG;
try {
CMSInfoFile msfSave(cszFilename);
hrReturn = WriteOutput(&msfSave, pSaveRoot);
}
catch (CFileException *e) {
// Remove the incomplete file.
if (::_taccess(cszFilename, A_EXIST) == 0) {
(void)_tunlink(cszFilename);
}
hrReturn = ::ResultFromFileException(e);
}
return hrReturn;
}
/*
* ReportWrite - Create a text file and write output to it. (Automatically
* writes data in the text file [report] format.)
*
* History: a-jsari 10/21/97 Initial version
*/
HRESULT CDataSource::ReportWrite(LPCTSTR cszFilename, CFolder *pSaveRoot)
{
HRESULT hrReturn;
if (cszFilename == NULL)
return E_INVALIDARG;
try
{
CMSInfoTextFile msfSave( cszFilename);
hrReturn = WriteOutput(&msfSave, pSaveRoot);
}
catch (CFileException *e)
{
// Remove the incomplete file.
if (::_taccess(cszFilename, A_EXIST) == 0)
(void)_tunlink(cszFilename);
hrReturn = ::ResultFromFileException(e);
}
return hrReturn;
}
/*
* WriteOutput - Traverse a sub-tree of our internal storage, saving
* each node, ending when we return to the original CFolder. If
* our parameter is NULL, start from the root (write the entire
* tree).
*
* Note: This function calls FileSave, which writes text data automatically
* when the CMSInfoFile passed in is a text file and binary data when
* it is a binary file.
*
* History: a-jsari 11/5/97 Initial version
*/
HRESULT CDataSource::WriteOutput(CMSInfoFile * pFile, CFolder * pRootNode)
{
CFolder *pFolder;
CFolder *pNext;
enum DataComplexity Complexity;
HRESULT hrReturn = S_OK;
ASSERT(pFile != NULL);
try {
// When we save, always save the advanced information. Note, even if the
// complexity is currently ADVANCED, we should make the call to SetDataComplexity.
// If WriteOutput is being called because of a COM call to MSInfo (e.g. when
// WinRep creates an NFO using MSInfo without launching MSInfo), the data
// gatherer object might not have had a complexity set yet.
Complexity = m_Complexity;
m_Complexity = ADVANCED;
SetDataComplexity(m_Complexity);
if (pRootNode)
VERIFY(pRootNode->Refresh(TRUE));
else
VERIFY(Refresh()); // Ensure that we have the most current data.
pFile->WriteHeader(this);
if (pRootNode == NULL)
pFolder = GetRootNode();
else
pFolder = pRootNode;
ASSERT(pFolder != NULL);
// Traverse the tree structure, writing the nodes in order.
do {
// Write the data for each folder as it is encountered.
pFolder->FileSave(pFile);
// Depth-first: If we have a child, traverse it next.
pNext = pFolder->GetChildNode();
if (pNext != NULL) {
pFile->WriteChildMark();
pFolder = pNext;
continue;
}
// If we are at our root folder, don't traverse to the next node..
if (pFolder == pRootNode) break;
// If we have reached the bottom of our list, traverse
// our siblings.
pNext = pFolder->GetNextNode();
if (pNext != NULL) {
pFile->WriteNextMark();
pFolder = pNext;
continue;
}
// If we have no more siblings, find our nearest parent's
// sibling, traversing upwards until we find the node we
// started with.
pNext = pFolder->GetParentNode();
ASSERT(pNext != NULL);
unsigned uParentCount = 0;
while (pNext != pRootNode) {
++uParentCount;
pFolder = pNext->GetNextNode();
// Our Parent has a sibling, continue with it.
if (pFolder != NULL) {
pFile->WriteParentMark(uParentCount);
break;
}
// No siblings; check the next parent..
pNext = pNext->GetParentNode();
}
// If we've returned to our root node, we're done.
if (pNext == pRootNode) break;
} while (pFolder);
pFile->WriteEndMark();
}
catch (CFileException *e) {
if (Complexity == BASIC)
SetDataComplexity(Complexity);
throw e;
}
catch (...) {
ASSERT(FALSE);
hrReturn = E_UNEXPECTED;
}
// Restore the original complexity.
if (Complexity != m_Complexity)
{
m_Complexity = Complexity;
SetDataComplexity(m_Complexity);
}
return hrReturn;
}
/*
* CreateFromIStream - Return the appropriate CDataSource pointer the exists
* on the IStream.
*
* History: a-jsari 11/13/97 Initial version
*/
CDataSource *CDataSource::CreateFromIStream(IStream *pStm)
{
unsigned wType;
unsigned wLength;
ULONG dwSize;
HRESULT hResult;
CDataSource *pSource = NULL;
WCHAR szBuffer[MAX_PATH];
LPWSTR pszBuffer;
ASSERT(pStm != NULL);
ASSERT(!IsBadReadPtr(pStm, sizeof(IStream)));
if (pStm == NULL || IsBadReadPtr(pStm, sizeof(IStream)))
return NULL;
do {
hResult = pStm->Read(&wType, sizeof(wType), &dwSize);
ASSERT(SUCCEEDED(hResult));
ASSERT(dwSize == sizeof(wType));
if (FAILED(hResult) || dwSize != sizeof(wType))
break;
hResult = pStm->Read(&wLength, sizeof(wLength), &dwSize);
ASSERT(SUCCEEDED(hResult));
ASSERT(dwSize == sizeof(wLength));
ASSERT(wLength <= MAX_PATH);
if (FAILED(hResult) || (dwSize != sizeof(wLength)) || wLength > MAX_PATH)
break;
szBuffer[wLength] = (WCHAR)0;
wLength *= sizeof(WCHAR);
if (wLength != 0) {
hResult = pStm->Read(szBuffer, wLength, &dwSize);
ASSERT(SUCCEEDED(hResult));
ASSERT(dwSize == wLength);
if (FAILED(hResult) || dwSize != wLength)
break;
pszBuffer = szBuffer;
} else {
pszBuffer = NULL;
}
switch (wType) {
case V500FILE:
try {
ASSERT(pszBuffer != NULL);
CMSInfoFile msiFile(pszBuffer, CFile::modeRead
| CFile::shareDenyWrite | CFile::typeBinary);
VERIFY(CBufferV500DataSource::VerifyFileVersion(&msiFile));
pSource = new CBufferV500DataSource(&msiFile);
}
catch (...) {
if (pSource != NULL)
delete pSource;
return NULL;
}
break;
case GATHERER:
try {
pSource = new CWBEMDataSource(pszBuffer);
}
catch (...) {
if (pSource != NULL)
delete pSource;
return NULL;
}
break;
default:
ASSERT(FALSE);
break;
}
} while (FALSE);
return pSource;
}
/*
* CFolder - Default folder constructor. Initializes the pointers
* to NULL.
*
* History: a-jsari 10/15/97 Initial version
*/
CFolder::CFolder(CDataSource *pDataSource, CFolder *pParentNode)
:m_ChildFolder(NULL), m_NextFolder(NULL), m_ParentFolder(pParentNode),
m_pDataSource(pDataSource), fChildTested(FALSE), fNextTested(FALSE),
m_nLine(-1)
{
}
/*
* ~CFolder - Default folder destructor. Deletes the saved pointers.
*
* History: a-jsari 10/15/97 Initial version
*/
CFolder::~CFolder()
{
if (m_ChildFolder)
{
delete m_ChildFolder;
m_ChildFolder = NULL;
}
if (m_NextFolder)
{
delete m_NextFolder;
m_NextFolder = NULL;
}
// Don't delete m_ParentFolder, since it won't necessarily go
// away when its child Folder goes away (and if it does, it's
// already in the process of going away).
}
/*
* InternalName - Return our internal name, just the amalgam of all parent
* internal names and our name.
*
* History: a-jsari 12/12/97 Initial version
*/
void CFolder::InternalName(CString &strName) const
{
if (m_ParentFolder == NULL) {
strName = cszRootName;
return;
}
m_ParentFolder->InternalName(strName);
strName += _T("\\");
CString strLocalName;
GetName(strLocalName);
strName += strLocalName;
}
/*
* SaveTitle - Save the folder's title as a string to binary save file pFile
*
* History: a-jsari 10/29/97 Initial version
*/
void CListViewFolder::SaveTitle(CMSInfoFile *pFile)
{
CString szName;
GetName(szName);
pFile->WriteString(szName);
}
/*
* SaveElements - Write the list of elements to a binary save file
*
* History: a-jsari 10/29/97 Initial version
*/
void CListViewFolder::SaveElements(CMSInfoFile *pFile)
{
CString szWriteString;
MSIColumnSortType stColumn;
unsigned iCol = GetColumns();
DataComplexity dcAdvanced;
CArray <unsigned, unsigned &> aColumnValues;
pFile->WriteUnsignedInt(iCol);
if (iCol == 0) return;
while (iCol--) {
unsigned uWidth;
GetColumnTextAndWidth(iCol, szWriteString, uWidth);
GetSortType(iCol, stColumn);
dcAdvanced = GetColumnComplexity(iCol);
if (stColumn == BYVALUE) {
aColumnValues.Add(iCol);
}
pFile->WriteUnsignedInt(uWidth);
pFile->WriteString(szWriteString);
pFile->WriteUnsignedInt((unsigned) stColumn);
pFile->WriteByte((BYTE)dcAdvanced);
}
unsigned cRow = GetRows();
int wNextColumn = -1;
unsigned iArray = 0;
unsigned iRow;
// Set wNextColumn to the next column which is sorted BYVALUE.
// BYVALUE columns require that each row
if (aColumnValues.GetSize() != 0)
wNextColumn = aColumnValues[iArray++];
pFile->WriteUnsignedInt(cRow);
iCol = GetColumns();
iRow = cRow;
while (iRow--) {
dcAdvanced = GetRowComplexity(iRow);
pFile->WriteByte((BYTE)dcAdvanced);
}
// Iterate over columns, writing sort indices for BYVALUE columns.
while (iCol--) {
iRow = cRow;
while (iRow--) {
GetSubElement(iRow, iCol, szWriteString);
pFile->WriteString(szWriteString);
}
if (wNextColumn == (int)iCol) {
iRow = cRow;
while (iRow--) {
pFile->WriteUnsignedLong(GetSortIndex(iRow, iCol));
}
if (aColumnValues.GetSize() > (int)iArray)
wNextColumn = aColumnValues[iArray++];
}
}
}
/*
* FileSave - Save all elements associated with a CListViewFolder.
* Automatically writes the correct version of the file, based
* on the type of CMSInfoFile passed in.
*
* History: a-jsari 10/21/97 Initial version
*/
BOOL CListViewFolder::FileSave(CMSInfoFile *pFile)
{
#if 0
try {
#endif
// If our file is a text file, we must be writing a report file.
// Call our report write functions.
if (pFile->GetType() != CMSInfoFile::BINARY) {
ReportWriteTitle(pFile);
ReportWriteElements(pFile);
} else {
// Binary file, write binary data.
SaveTitle(pFile);
SaveElements(pFile);
}
#if 0
}
catch (...) {
return FALSE;
}
#endif
return TRUE;
}
/*
* ReportWriteTitle - Write the title of the folder
*
* History: a-jsari 11/5/97 Initial version
*/
void CListViewFolder::ReportWriteTitle(CMSInfoFile *pFile)
{
CString szWriteValue = _T("[");
CString szName;
GetName(szName);
szWriteValue += szName + _T("]\r\n\r\n");
pFile->WriteString(szWriteValue);
}
/*
* ReportWriteElements - Write the Column headers and row and column data.
*
* History: a-jsari 10/29/97 Initial version
*/
void CListViewFolder::ReportWriteElements(CMSInfoFile *pFile)
{
CString strWriteString;
CString strTab = _T("\t");
CString strNewLine = _T("\r\n");
unsigned cColumns = GetColumns();
CString strTest;
CString strReplacement;
AFX_MANAGE_STATE(::AfxGetStaticModuleState());
VERIFY(strTest.LoadString(IDS_REPORT_CATEGORY));
VERIFY(strReplacement.LoadString(IDS_REPORT_REPLACEMENT));
for (unsigned iCol = 0 ; iCol < cColumns ; ++iCol) {
unsigned uWidth;
GetColumnTextAndWidth(iCol, strWriteString, uWidth);
// Replace the category string with a more informative equivalent..
if (!strTest.Compare(strWriteString))
strWriteString = strReplacement;
pFile->WriteString(strWriteString);
if (iCol < cColumns - 1) {
pFile->WriteString(strTab);
}
}
pFile->WriteString(strNewLine);
unsigned cRows = GetRows();
for (unsigned iRow = 0 ; iRow < cRows ; ++iRow) {
for (iCol = 0 ; iCol < cColumns ; ++iCol) {
GetSubElement(iRow, iCol, strWriteString);
pFile->WriteString(strWriteString);
if (iCol < cColumns - 1) {
pFile->WriteString(strTab);
}
}
pFile->WriteString(strNewLine);
}
pFile->WriteString(strNewLine);
}
/*
* CBufferDataSource - pFileSink is assumed to be a new'd CMSInfoFile
* pointer. (See CMSInfoFile::CreateCBufferDataSource function,
* the only constructor of CBufferDataSource.)
*
* History: a-jsari 10/17/97 Initial version
*/
CBufferDataSource::CBufferDataSource(CMSInfoFile *pFileSink)
:m_strUserName(_T("")), m_strMachine(_T("")), m_strCabDirectory(_T("")), CDataSource(_T("LocalMachine"))
{
if (pFileSink)
m_strFileName = pFileSink->GetFileName();
}
/*
* ~CBufferDataSource - Do nothing.
*
* History: a-jsari 10/17/97 Initial version
*/
CBufferDataSource::~CBufferDataSource()
{
}
/*
* CreateDataSourceFromFile - Based on the magic number and version number,
* return a new'd pointer to the appropriate CBufferDataSource.
*
* Note: The caller is responsible for deleting the pointer returned by
* this function.
*
* History: a-jsari 10/20/97 Initial version
*/
BOOL fCABOpened = FALSE;
CBufferDataSource *CBufferDataSource::CreateDataSourceFromFile(LPCTSTR szFileName)
{
CBufferDataSource * pSource = NULL;
// Enclose this in a scope so that the file will close when we've checked it.
unsigned uMagicNumber;
{
try
{
CMSInfoFile FileWrapper(szFileName, CFile::modeRead | CFile::shareDenyWrite | CFile::typeBinary);
// Check the first int in the file to see if it's the magic number
// for a version 5 NFO file.
FileWrapper.ReadUnsignedInt(uMagicNumber);
if (uMagicNumber == CMSInfoFile::VERSION_500_MAGIC_NUMBER)
{
unsigned uVersion;
FileWrapper.ReadUnsignedInt(uVersion);
ASSERT(uVersion == 0x500);
pSource = new CBufferV500DataSource(&FileWrapper);
return pSource;
}
}
catch (CFileException * e)
{
e->ReportError();
e->Delete();
return NULL;
}
catch (CFileFormatException * e)
{
CString strTitle, strError;
strError.LoadString( IDS_CORRUPTEDFILE);
strTitle.LoadString(IDS_DESCRIPTION);
::MessageBox( ::AfxGetMainWnd()->GetSafeHwnd(), strError, strTitle, MB_OK | MB_APPLMODAL);
return NULL;
}
catch (...)
{
return NULL;
}
}
// Next, check to see if this is a version 4.10 file. If it is, it
// will be an OLE compound file with specific streams.
IStorage * pStorage;
DWORD grfMode = STGM_DIRECT | STGM_READWRITE | STGM_SHARE_EXCLUSIVE;
HRESULT hr = StgOpenStorage(szFileName, NULL, grfMode, NULL, 0, &pStorage);
if (SUCCEEDED(hr))
{
OLECHAR FAR * szMSIStream = _T("MSInfo");
IStream * pStream;
if (SUCCEEDED(pStorage->OpenStream(szMSIStream, NULL, grfMode, 0, &pStream)))
{
// Things are looking good. This is a compound doc, and it has a
// stream named MSInfo. Now we have to read the contents of the
// MSInfo stream.
pSource = new CBufferV410DataSource(pStorage, pStream);
pStream->Release();
pStorage->Release();
return pSource;
}
pStorage->Release();
}
// It wasn't a 4.10 or a 5.0 NFO file. Check to see if it's a CAB file.
//
// Use of FileWrapper.FileHandle() is not recommended in case we have
// a subclass of CFile which does not use file handles. This function
// always uses standard file-based CFile pointers.
//
// There's a problem with using an MFC derived file class. The handle
// in the class isn't recognized by the CAB code as belonging to a CAB
// file. We need to open the file using the CRT file routines, and pass
// that file handle.
FILE *pfile = _wfopen(szFileName, _T("r"));
if (pfile != NULL && ::isCabFile(pfile->_file, NULL))
{
fclose(pfile);
// If our file is a cab file, explode it.
CString strFile = szFileName;
CString strCabDirectory;
CString strDontDelete = _T("");
USES_CONVERSION;
::GetCABExplodeDir(strCabDirectory, TRUE, strDontDelete);
fCABOpened = ::OpenCABFile(strFile, strCabDirectory);
// Get our NFO file's name.
if (::FindFileToOpen(strCabDirectory, strFile) != FALSE)
{
pSource = CreateDataSourceFromFile(strFile);
pSource->m_strCabDirectory = strCabDirectory;
return pSource;
}
return NULL;
}
else
{
// Unidentified format.
AFX_MANAGE_STATE(::AfxGetStaticModuleState());
CString strError, strTitle;
strTitle.LoadString(IDS_DESCRIPTION);
strError.Format(IDS_UNRECOGNIZED_FILE, szFileName);
::MessageBox( ::AfxGetMainWnd()->GetSafeHwnd(), strError, strTitle, MB_OK);
pSource = NULL;
}
return pSource;
}
/*
* FileName -
*
* History: a-jsari 11/17/97 Initial version
*/
LPCTSTR CBufferDataSource::FileName()
{
return m_strFileName;
}
/*
* CBufferSortData - Construct our sort object
*
* History: a-jsari 12/1/97 Initial version
*/
CBufferSortData::CBufferSortData()
:m_cRows(0), m_cColumns(0)
{
}
/*
* ~CBufferSortData - Do-nothing destructor
*
* History: a-jsari 12/1/97 Initial version.
*/
CBufferSortData::~CBufferSortData()
{
}
/*
* SetSortType - Set the sort type for an iColumn
*
* History: a-jsari 12/1/97 Initial version.
*/
BOOL CBufferSortData::SetSortType(unsigned iColumn, unsigned stColumn)
{
if (stColumn > BYVALUE) return FALSE;
m_SortTypes[iColumn] = (MSIColumnSortType) stColumn;
if (stColumn == BYVALUE) {
m_ValueColumns.Add(iColumn);
}
return TRUE;
}
/*
* GetSortType - Return the sort type for iColumn
*
* History: a-jsari 12/1/97 Initial version
*/
BOOL CBufferSortData::GetSortType(unsigned iColumn, MSIColumnSortType &stColumn) const
{
stColumn = m_SortTypes[iColumn];
return TRUE;
}
/*
* ValueIndexFromColumn - Return the sparse array index corresponding
* to the column index passed in.
*
* History: a-jsari 12/1/97 Initial version
*/
int CBufferSortData::ValueIndexFromColumn(unsigned iColumn) const
{
int iType = (int)m_ValueColumns.GetSize();
while (iType--) {
if (m_ValueColumns[iType] == iColumn) break;
}
ASSERT(iType >= 0);
return iType;
}
/*
* ReadSortValues - Read SortValue values from the pFile for iColumn
*
* History: a-jsari 12/1/97 Initial version
*/
BOOL CBufferSortData::ReadSortValues(CMSInfoFile *pFile, unsigned iColumn)
{
// There is only data to be read if the column is sorted by value.
if (m_SortTypes[iColumn] == BYVALUE) {
int iType = ValueIndexFromColumn(iColumn);
unsigned iRow = m_cRows;
while (iRow--) {
pFile->ReadUnsignedLong(m_dwSortIndices[iType][iRow]);
}
}
return TRUE;
}
/*
* GetSortValue - Return the sort value corresponding with iRow and iColumn
*
* History: a-jsari 12/1/97 Initial version
*/
DWORD CBufferSortData::GetSortValue(unsigned iRow, unsigned iColumn) const
{
// No value is necessary if we are not sorting based on Sort Values.
if (m_SortTypes[iColumn] != BYVALUE) return 0;
// Every BYVALUE type should have data.
int iType = ValueIndexFromColumn(iColumn);
return m_dwSortIndices[iType][iRow];
}
/*
* SetColumns - Set the number of columns of data we are sorting over.
*
* History: a-jsari 12/1/97 Initial version.
*/
BOOL CBufferSortData::SetColumns(unsigned cColumns)
{
m_SortTypes.SetSize(cColumns);
m_cColumns = cColumns;
return TRUE;
}
/*
* SetRows - Set the number of rows we are sorting over.
*
* History: a-jsari 12/1/97 Initial version.
*/
BOOL CBufferSortData::SetRows(unsigned cRows)
{
m_cRows = cRows;
unsigned iColumn = (unsigned)m_ValueColumns.GetSize();
m_dwSortIndices.SetSize(iColumn);
while (iColumn--) {
m_dwSortIndices[iColumn].SetSize(cRows);
}
return TRUE;
}
/*
* CBufferFolder - Trivial constructor
*
* History: a-jsari 10/17/97 Initial version
*/
CBufferFolder::CBufferFolder(CDataSource *pDataSource, CFolder *pParent)
:CListViewFolder(pDataSource, pParent), m_cRows(0), m_cColumns(0)
{
}
/*
* ~CBufferFolder - Do-nothing destructor.
*
* History: a-jsari 10/17/97 Initial version
*/
CBufferFolder::~CBufferFolder()
{
}
/*
* GetColumnTextAndWidth - Return formatting information for the wCol'th column.
*
* History: a-jsari 10/17/97 Initial version
*/
BOOL CBufferFolder::GetColumnTextAndWidth(unsigned wCol, CString &szName, unsigned &wWidth) const
{
// Adjust to the Basic-indexed column.
if (GetComplexity() == BASIC)
wCol = BasicColumn(wCol);
szName = m_szColumns[(int)wCol];
wWidth = m_uWidths[wCol];
return TRUE;
}
/*
* BasicColumn - Return the index into the advanced columns of the basic column
* index iBasicColumn
*
* History: a-jsari 12/23/97 Initial version
*/
unsigned CBufferFolder::BasicColumn(unsigned iBasicColumn) const
{
ASSERT(GetComplexity() == BASIC);
for (unsigned iColumn = 0 ; iColumn < iBasicColumn ; ++iColumn) {
// If any of our columns are advanced, skip them.
if (m_dcColumns[iColumn] == ADVANCED)
++iBasicColumn;
}
ASSERT(iBasicColumn < m_cColumns);
return iBasicColumn;
}
/*
* BasicRow - Return the index into the advanced rows of the basic row index
* iBasicRow
*
* History: a-jsari 12/23/97 Initial version
*/
unsigned CBufferFolder::BasicRow(unsigned iBasicRow) const
{
ASSERT(GetComplexity() == BASIC);
for (unsigned iRow = 0 ; iRow < iBasicRow ; ++iRow) {
// If any of our rows are advanced, skip them.
if (m_dcRows[iRow] == ADVANCED)
++iBasicRow;
}
ASSERT(iBasicRow < m_cRows);
return iBasicRow;
}
/*
* GetColumns - Read the columns value from the current file.
*
* History: a-jsari 10/17/97 Initial version
*/
unsigned CBufferFolder::GetColumns() const
{
// If Complexity is advanced, the number of columns is equal to our stored value.
if (GetComplexity() == ADVANCED)
return m_cColumns;
// We are in basic mode; remove all advanced columns.
unsigned cColumns = m_cColumns;
unsigned iColumn = m_cColumns;
while (iColumn--) {
if (m_dcColumns[iColumn] == ADVANCED) --cColumns;
}
return cColumns;
}
/*
* GetRows - Read the rows value from the current file
*
* History: a-jsari 10/17/97 Initial version
*/
unsigned CBufferFolder::GetRows() const
{
// If Complexity is advanced, the number of rows is equal to our stored value.
if (GetComplexity() == ADVANCED)
return m_cRows;
// Otherwise, we are basic; remove all Advanced rows.
unsigned cRows = m_cRows;
unsigned iRow = m_cRows;
while (iRow--) {
if (m_dcRows[iRow] == ADVANCED) --cRows;
}
return cRows;
}
/*
* GetName - Return the category's name.
*
* History: a-jsari 10/27/97 Initial version
*/
BOOL CBufferFolder::GetName(CString &szName) const
{
szName = m_szName;
return TRUE;
}
/*
* GetSubElement - Return the Element stored at iRow and iCol.
*
* History: a-jsari 10/27/97 Initial version
*/
BOOL CBufferFolder::GetSubElement(unsigned iRow, unsigned iCol, CString &szName) const
{
if (GetComplexity() == BASIC) {
iRow = BasicRow(iRow);
iCol = BasicColumn(iCol);
}
szName = m_szElements[iRow][iCol];
return TRUE;
}
/*
* GetSortType - Return the sort method for the column numbered iColumn
* in this folder.
*
* History: a-jsari 12/1/97 Initial version
*/
BOOL CBufferFolder::GetSortType(unsigned iColumn, MSIColumnSortType &stColumn) const
{
if (GetComplexity() == BASIC) {
iColumn = BasicColumn(iColumn);
}
m_SortData.GetSortType(iColumn, stColumn);
return TRUE;
}
/*
* GetSortIndex - Return the iColumn numbered column's internal sort index
* for the element at row iRow compared to other rows in this column.
*
* History: a-jsari 12/1/97 Initial version
*/
DWORD CBufferFolder::GetSortIndex(unsigned iRow, unsigned iColumn) const
{
if (GetComplexity() == BASIC) {
iColumn = BasicColumn(iColumn);
iRow = BasicRow(iRow);
}
return m_SortData.GetSortValue( iRow, iColumn);
}
/*
* GetColumnComplexity - Return the complexity of the iColumn'th column
*
* History: a-jsari 12/23/97 Initial version
*/
DataComplexity CBufferFolder::GetColumnComplexity(unsigned iColumn)
{
// We are only concerned with Complexity when we are saving the data
// and we must be in Advanced mode to save.
ASSERT(GetComplexity() == ADVANCED);
return m_dcColumns[iColumn];
}
/*
* GetRowComplexity - Return complexity of this folder's iRow'th row.
*
* History: a-jsari 12/23/97 Initial version
*/
DataComplexity CBufferFolder::GetRowComplexity(unsigned iRow)
{
// We are only concerned with Complexity when we are saving the data
// and we must be in Advanced mode to do a save.
ASSERT(GetComplexity() == ADVANCED);
return m_dcRows[iRow];
}