windows-nt/Source/XPSP1/NT/enduser/troubleshoot/msinfo/intcat.cpp

314 lines
9.4 KiB
C++
Raw Normal View History

2020-09-26 03:20:57 -05:00
//=============================================================================
// File: intcat.cpp
// Author: a-jammar
// Covers: GATH_VALUE, GATH_FIELD, GATH_LINESPEC, GATH_LINE,
// INTERNAL_CATEGORY
//
// Copyright (c) 1998-1999 Microsoft Corporation
//
// This file contains the support methods for the INTERNAL_CATERORY struct
// and its related structs, including some constructors and destructors, and
// dump routines to output the contents of the structs. The gathint.h include
// file describes how these structures interrelate.
//
// Also contains some utility functions.
//=============================================================================
#include "stdafx.h"
#include "gather.h"
#include "gathint.h"
//-----------------------------------------------------------------------------
// Here are the constructor and destructor for the internal category struct,
// and some of the structures used within it.
//-----------------------------------------------------------------------------
// INTERNAL_CATEGORY constructor and destructor.
//-----------------------------------------------------------------------------
INTERNAL_CATEGORY::INTERNAL_CATEGORY()
{
m_categoryName.m_strText = CString(" ");
m_fieldName.m_strFormat = CString(" ");
m_strEnumerateClass = CString("");
m_strIdentifier = CString("");
m_strNoInstances = CString("");
m_fListView = FALSE;
m_fDynamic = FALSE;
m_dwID = 0;
m_dwParentID = 0;
m_dwChildID = 0;
m_dwPrevID = 0;
m_dwNextID = 0;
m_dwDynamicChildID = 0;
m_dwColCount = 0;
m_pColSpec = NULL;
m_aCols = NULL;
m_pLineSpec = NULL;
m_dwLineCount = 0;
m_apLines = NULL;
m_fIncluded = TRUE;
m_fRefreshed = FALSE;
m_dwLastError = GATH_ERR_NOERROR;
}
INTERNAL_CATEGORY::~INTERNAL_CATEGORY()
{
if (m_pColSpec)
delete m_pColSpec;
if (m_aCols)
delete [] m_aCols;
if (m_pLineSpec)
delete m_pLineSpec;
if (m_apLines)
{
for (DWORD dwIndex = 0; dwIndex < m_dwLineCount; dwIndex++)
delete m_apLines[dwIndex];
delete [] m_apLines;
}
}
//-----------------------------------------------------------------------------
// GATH_FIELD constructor and destructor.
//-----------------------------------------------------------------------------
GATH_FIELD::GATH_FIELD()
{
m_pArgs = NULL;
m_pNext = NULL;
m_usWidth = 0;
m_sort = NOSORT;
m_datacomplexity = BASIC;
}
GATH_FIELD::~GATH_FIELD()
{
if (m_pArgs) delete m_pArgs;
if (m_pNext) delete m_pNext;
}
//-----------------------------------------------------------------------------
// GATH_VALUE constructor and destructor.
//-----------------------------------------------------------------------------
GATH_VALUE::GATH_VALUE()
{
m_pNext = NULL;
m_dwValue = 0L;
}
GATH_VALUE::~GATH_VALUE()
{
if (m_pNext) delete m_pNext;
}
//-----------------------------------------------------------------------------
// GATH_LINESPEC constructor and destructor.
//-----------------------------------------------------------------------------
GATH_LINESPEC::GATH_LINESPEC()
{
m_pFields = NULL;
m_pEnumeratedGroup = NULL;
m_pConstraintFields = NULL;
m_pNext = NULL;
m_datacomplexity = BASIC;
}
GATH_LINESPEC::~GATH_LINESPEC()
{
if (m_pFields)
delete m_pFields;
if (m_pEnumeratedGroup)
delete m_pEnumeratedGroup;
if (m_pConstraintFields)
delete m_pConstraintFields;
if (m_pNext)
delete m_pNext;
}
//-----------------------------------------------------------------------------
// GATH_LINE constructor and destructor.
//-----------------------------------------------------------------------------
GATH_LINE::GATH_LINE()
{
m_datacomplexity = BASIC;
m_aValue = NULL;
}
GATH_LINE::~GATH_LINE()
{
if (m_aValue)
delete [] m_aValue;
}
//-----------------------------------------------------------------------------
// Dump a category and all its children. Indent by the current iIndent level.
//-----------------------------------------------------------------------------
#if _DEBUG
void INTERNAL_CATEGORY::DumpCategoryRecursive(int iIndent, CDataGatherer * pGatherer)
{
TCHAR szIndent[100];
INTERNAL_CATEGORY * pNextCat;
int i;
for (i = 0; i < iIndent; i++)
szIndent[i] = _T(' ');
szIndent[iIndent] = 0;
// Dump the contents of this category.
TRACE1("%sCATEGORY(", szIndent);
TRACE1("m_categoryName = %s", this->m_categoryName.m_strText);
TRACE0(")-----------------------------\n");
TRACE2("%sm_fieldName = %s\n", szIndent, DumpField(&this->m_fieldName));
TRACE2("%sm_strIdentifier = %s\n", szIndent, this->m_strIdentifier);
TRACE2("%sm_strEnumerateClass = %s\n", szIndent, this->m_strEnumerateClass);
TRACE2("%sm_strNoInstances = %s\n", szIndent, this->m_strNoInstances);
TRACE2("%sm_fListView = %s\n", szIndent, (this->m_fListView ? "TRUE" : "FALSE"));
TRACE2("%sm_fDynamic = %s\n", szIndent, (this->m_fDynamic ? "TRUE" : "FALSE"));
TRACE2("%sm_dwID = %ld\n", szIndent, this->m_dwID);
TRACE2("%sm_dwParentID = %ld\n", szIndent, this->m_dwParentID);
TRACE2("%sm_dwChildID = %ld\n", szIndent, this->m_dwChildID);
TRACE2("%sm_dwDynamicChildID = %ld\n", szIndent, this->m_dwDynamicChildID);
TRACE2("%sm_dwNextID = %ld\n", szIndent, this->m_dwNextID);
TRACE2("%sm_dwPrevID = %ld\n", szIndent, this->m_dwPrevID);
TRACE1("%sm_pColSpec = ", szIndent);
for (GATH_FIELD * pField = this->m_pColSpec; pField; pField = pField->m_pNext)
TRACE1("%s ", DumpField(pField));
TRACE0("\n");
TRACE2("%sm_dwColCount = %ld\n", szIndent, this->m_dwColCount);
TRACE1("%sm_aCols = ", szIndent);
for (i = 0; i < (int)this->m_dwColCount; i++)
TRACE1("(%s) ", this->m_aCols[i].m_strText);
TRACE0("\n");
TRACE1("%sm_pLineSpec =\n", szIndent);
for (GATH_LINESPEC * pLine = this->m_pLineSpec; pLine; pLine = pLine->m_pNext)
TRACE2("%s %s\n", szIndent, DumpLineSpec(pLine, szIndent));
TRACE2("%sm_dwLineCount = %ld\n", szIndent, this->m_dwLineCount);
TRACE1("%sm_apLines = \n", szIndent);
for (i = 0; i < (int)this->m_dwLineCount; i++)
TRACE2("%s %s\n", szIndent, DumpLine(this->m_apLines[i], this->m_dwColCount));
// Dump the children of this category.
if (this->m_dwChildID)
{
pNextCat = pGatherer->GetInternalRep(this->m_dwChildID);
if (pNextCat)
pNextCat->DumpCategoryRecursive(iIndent + 2, pGatherer);
}
// Dump the siblings of this category.
if (this->m_dwNextID)
{
pNextCat = pGatherer->GetInternalRep(this->m_dwNextID);
if (pNextCat)
pNextCat->DumpCategoryRecursive(iIndent, pGatherer);
}
}
//-----------------------------------------------------------------------------
// Return a string containing the text dump of a field variable.
//-----------------------------------------------------------------------------
CString INTERNAL_CATEGORY::DumpField(GATH_FIELD * pField)
{
CString strDump;
strDump.Format(_T("(%s, %s, %d"), pField->m_strSource, pField->m_strFormat, pField->m_usWidth);
for (GATH_VALUE * pArg = pField->m_pArgs; pArg; pArg = pArg->m_pNext)
strDump += CString(", ") + pArg->m_strText;
strDump += CString(")");
return strDump;
}
//-----------------------------------------------------------------------------
// Return a string containing the text dump of a line specifier variable.
//-----------------------------------------------------------------------------
CString INTERNAL_CATEGORY::DumpLineSpec(GATH_LINESPEC * pLineSpec, CString strIndent)
{
CString strDump;
if (pLineSpec->m_strEnumerateClass.IsEmpty() || pLineSpec->m_strEnumerateClass.CompareNoCase(CString(STATIC_SOURCE)) == 0)
{
strDump = CString("LineSpec = ");
for (GATH_FIELD * pField = pLineSpec->m_pFields; pField; pField = pField->m_pNext)
strDump += DumpField(pField) + CString(" ");
}
else
{
strDump.Format(_T("EnumLines(%s) = "), pLineSpec->m_strEnumerateClass);
GATH_LINESPEC * pEnumLine = pLineSpec->m_pEnumeratedGroup;
if /* while TBD */ (pEnumLine)
{
strDump += CString("\n ") + strIndent + DumpLineSpec(pEnumLine, strIndent);
pEnumLine = pEnumLine->m_pNext;
}
}
return strDump;
}
//-----------------------------------------------------------------------------
// Return a string containing the text dump of a line variable.
//-----------------------------------------------------------------------------
CString INTERNAL_CATEGORY::DumpLine(GATH_LINE * pLine, DWORD nColumns)
{
CString strDump("Line = ");
for (DWORD dwIndex = 0; dwIndex < nColumns; dwIndex++)
strDump += pLine->m_aValue[dwIndex].m_strText + CString(" ");
return strDump;
}
#endif
//-----------------------------------------------------------------------------
// This utility function is used to get a token from the front of a string.
// It searches through strString for cDelimiter, returning the token found
// in strToken. strString is modified to remove the token returned, and
// the delimiter character. TBD: inefficient.
//-----------------------------------------------------------------------------
void GetToken(CString & strToken, CString & strString, TCHAR cDelimiter)
{
int iDelimiter = strString.Find(cDelimiter);
if (iDelimiter == -1)
strToken = strString;
else
strToken = strString.Left(iDelimiter);
// Remove the token we found from strString.
if (!strToken.IsEmpty())
{
if (strString.GetLength() >= strToken.GetLength())
strString = strString.Right(strString.GetLength() - strToken.GetLength());
else
strString.Empty();
}
// Remove any leading delimiter characters from strString.
while (!strString.IsEmpty() && strString[0] == cDelimiter)
strString = strString.Right(strString.GetLength() - 1);
}