Leaked source code of windows server 2003
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/*
* @doc INTERNAL
*
* @module RTFLOG.CPP - RichEdit RTF log
*
* Contains the code for the RTFLog class which can be used
* to log the number of times RTF tags are read by the RTF reader
* for use in coverage testing. TODO: Implement RTF tag logging for the Mac
*
* Authors:<nl>
* Created for RichEdit 2.0: Brad Olenick
*
* Copyright (c) 1995-2000, Microsoft Corporation. All rights reserved.
*/
#include "_common.h"
#include "_rtflog.h"
#include "tokens.h"
extern INT cKeywords;
extern const KEYWORD rgKeyword[];
#if defined(DEBUG) && !defined(NOFULLDEBUG)
/*
* CRTFRead::TestParserCoverage()
*
* @mfunc
* A debug routine used to test the coverage of HandleToken. The routine
* puts the routine into a debug mode and then determines:
*
* 1. Dead tokens - (T & !S & !P)
* Here, token:
* a) is defined in token.h (T)
* b) does not have a corresponding keyword (not scanned) (!S)
* c) is not processed by HandleToken (!P)
* 2. Tokens that are parsed but not scanned - (T & !S & P)
* Here, token:
* a) is defined in token.h (T)
* b) does not have a corresponding keyword (not scanned) (!S}
* c) is processed by HandleToken (P)
* 3. Tokens that are scanned but not parsed - (T & S & !P)
* Here, token:
* a) is defined in token.h (T)
* b) does have a corresponding keyword (is scanned) (S)
* c) is not processed by HandleToken (!P)
*/
void CRTFRead::TestParserCoverage()
{
int i;
char *rgpszKeyword[tokenMax - tokenMin];
BOOL rgfParsed[tokenMax - tokenMin];
char szBuf[256];
// Put HandleToken in debug mode
_fTestingParserCoverage = TRUE;
// Gather info about tokens/keywords
for(i = 0; i < tokenMax - tokenMin; i++)
{
_token = (TOKEN)(i + tokenMin);
rgpszKeyword[i] = PszKeywordFromToken(_token);
rgfParsed[i] = HandleToken() == ecNoError;
}
// Reset HandleToken to non-debug mode
_fTestingParserCoverage = FALSE;
// Should coverage check include those we know will fail test, but
// which we've examined and know why they fail?
BOOL fExcuseCheckedToks = TRUE;
if(GetProfileIntA("RICHEDIT DEBUG", "RTFCOVERAGESTRICT", 0))
fExcuseCheckedToks = FALSE;
// (T & !S & !P) (1. above)
for(i = 0; i < tokenMax - tokenMin; i++)
{
if(rgpszKeyword[i] || rgfParsed[i])
continue;
TOKEN tok = (TOKEN)(i + tokenMin);
// Token does not correspond to a keyword, but still may be scanned
// check list of individual symbols which are scanned
if(FTokIsSymbol(tok))
continue;
// Check list of tokens which have been checked and fail
// the sanity check for some known reason (see FTokFailsCoverageTest def'n)
if(fExcuseCheckedToks && FTokFailsCoverageTest(tok))
continue;
sprintf(szBuf, "CRTFRead::TestParserCoverage(): Token neither scanned nor parsed - token = %d", tok);
AssertSz(0, szBuf);
}
// (T & !S & P) (2. above)
for(i = 0; i < tokenMax - tokenMin; i++)
{
if(rgpszKeyword[i] || !rgfParsed[i])
continue;
TOKEN tok = (TOKEN)(i + tokenMin);
// Token does not correspond to a keyword, but still may be scanned
// check list of individual symbols which are scanned
if(FTokIsSymbol(tok))
continue;
// Check list of tokens which have been checked and fail
// the sanity check for some known reason (see FTokFailsCoverageTest def'n)
if(fExcuseCheckedToks && FTokFailsCoverageTest(tok))
continue;
sprintf(szBuf, "CRTFRead::TestParserCoverage(): Token parsed but not scanned - token = %d", tok);
AssertSz(0, szBuf);
}
// (T & S & !P) (3. above)
for(i = 0; i < tokenMax - tokenMin; i++)
{
if(!rgpszKeyword[i] || rgfParsed[i])
continue;
TOKEN tok = (TOKEN)(i + tokenMin);
// Check list of tokens which have been checked and fail
// the sanity check for some known reason (see FTokFailsCoverageTest def'n)
if(fExcuseCheckedToks && FTokFailsCoverageTest(tok))
continue;
sprintf(szBuf, "CRTFRead::TestParserCoverage(): Token scanned but not parsed - token = %d, tag = \\%s", tok, rgpszKeyword[i]);
AssertSz(0, szBuf);
}
}
/*
* CRTFRead::PszKeywordFromToken()
*
* @mfunc
* Searches the array of keywords and returns the keyword
* string corresponding to the token supplied
*
* @rdesc
* returns a pointer to the keyword string if one exists
* and NULL otherwise
*/
CHAR *CRTFRead::PszKeywordFromToken(TOKEN token)
{
for(int i = 0; i < cKeywords; i++)
{
if(rgKeyword[i].token == token)
return rgKeyword[i].szKeyword;
}
return NULL;
}
/*
* CRTFRead::FTokIsSymbol(TOKEN tok)
*
* @mfunc
* Returns a BOOL indicating whether the token, tok, corresponds to an RTF symbol
* (that is, one of a list of single characters that are scanned in the
* RTF reader)
*
* @rdesc
* BOOL - indicates whether the token corresponds to an RTF symbol
*/
BOOL CRTFRead::FTokIsSymbol(TOKEN tok)
{
const BYTE *pbSymbol = NULL;
extern const BYTE szSymbolKeywords[];
extern const TOKEN tokenSymbol[];
// check list of individual symbols which are scanned
for(pbSymbol = szSymbolKeywords; *pbSymbol; pbSymbol++)
{
if(tokenSymbol[pbSymbol - szSymbolKeywords] == tok)
return TRUE;
}
return FALSE;
}
/*
* CRTFRead::FTokFailsCoverageTest(TOKEN tok)
*
* @mfunc
* Returns a BOOL indicating whether the token, tok, is known to fail the
* RTF parser coverage test. These tokens are those that have been checked
* and either:
* 1) have been implemented correctly, but just elude the coverage test
* 2) have yet to be implemented, and have been recognized as such
*
* @rdesc
* BOOL - indicates whether the token has been checked and fails the
* the parser coverage test for some known reason
*/
BOOL CRTFRead::FTokFailsCoverageTest(TOKEN tok)
{
switch(tok)
{
// (T & !S & !P) (1. in TestParserCoverage)
// these really aren't tokens per se, but signal ending conditions for the parse
case tokenError:
case tokenEOF:
// (T & !S & P) (2. in TestParserCoverage)
// emitted by scanner, but don't correspond to recognized RTF keyword
case tokenUnknownKeyword:
case tokenText:
case tokenASCIIText:
// recognized directly (before the scanner is called)
case tokenStartGroup:
case tokenEndGroup:
// recognized using context information (before the scanner is called)
case tokenObjectDataValue:
case tokenPictureDataValue:
// (T & S & !P) (3. in TestParserCoverage)
// None
return TRUE;
}
return FALSE;
}
#endif // DEBUG
/*
* CRTFLog::CRTFLog()
*
* @mfunc
* Constructor -
* 1. Opens a file mapping to log hit counts, creating
* the backing file if neccessary
* 2. Map a view of the file mapping into memory
* 3. Register a windows message for change notifications
*
*/
CRTFLog::CRTFLog() : _rgdwHits(NULL), _hfm(NULL), _hfile(NULL)
{
#ifndef NOFULLDEBUG
const char cstrMappingName[] = "RTFLOG";
const char cstrWM[] = "RTFLOGWM";
const int cbMappingSize = sizeof(ELEMENT) * ISize();
BOOL fNewFile = FALSE;
// Check for existing file mapping
if(!(_hfm = OpenFileMappingA(FILE_MAP_ALL_ACCESS,
TRUE,
cstrMappingName)))
{
// No existing file mapping
// Get the file with which to create the file mapping
// first, attempt to open an existing file
if(!(_hfile = CreateFileA(LpcstrLogFilename(),
GENERIC_READ | GENERIC_WRITE,
0,
NULL,
OPEN_EXISTING,
FILE_ATTRIBUTE_NORMAL,
NULL)))
{
// No existing file, attempt to create new
if(!(_hfile = CreateFileA(LpcstrLogFilename(),
GENERIC_READ | GENERIC_WRITE,
0,
NULL,
OPEN_ALWAYS,
FILE_ATTRIBUTE_NORMAL,
NULL)))
{
return;
}
fNewFile = TRUE;
}
_hfm = CreateFileMappingA(_hfile, NULL, PAGE_READWRITE, 0,
cbMappingSize, cstrMappingName);
if(!_hfm)
return;
}
LPVOID lpv = MapViewOfFile(_hfm, FILE_MAP_ALL_ACCESS, 0, 0, cbMappingSize);
if(!lpv)
return;
// Register windows message for change notifications
SideAssert(_uMsg = RegisterWindowMessageA(cstrWM));
// Memory-mapped file is now mapped to _rgdwHits
_rgdwHits = (PELEMENT)lpv;
// Zero the memory-mapped file if we created it new
// (Win95 gives us a new file w/ garbage in it for some reason)
if(fNewFile)
Reset();
#endif
}
/*
* CRTFLog::Reset()
*
* @mfunc
* Resets the hitcount of each element in the log to 0
*
*/
void CRTFLog::Reset()
{
if(!FInit())
return;
for(INDEX i = 0; i < ISize(); i++)
(*this)[i] = 0;
// notify clients of change
ChangeNotifyAll();
}
/*
* CRTFLog::UGetWindowMsg
*
* @mdesc
* Returns the window message id used for change notifications
*
* @rdesc
* UINT window message id
*
* @devnote
* This should be inline, but the AssertSz macro doesn't compile
* properly on the Mac if its placed in a header file
*
*/
UINT CRTFLog::UGetWindowMsg() const
{
AssertSz(FInit(), "CRTFLog::UGetWindowMsg(): CRTFLog not initialized properly");
return _uMsg;
}
/*
* CRTFLog::operator[]
*
* @mdesc
* Returns reference to element i of RTF log (l-value)
*
* @rdesc
* ELEMENT & reference to element i of log
*
* @devnote
* This should be inline, but the AssertSz macro doesn't compile
* properly on the Mac if its placed in a header file
*
*/
CRTFLog::ELEMENT &CRTFLog::operator[](INDEX i)
{
AssertSz(i < ISize(), "CRTFLog::operator[]: index out of range");
AssertSz(FInit(), "CRTFLog::operator[]: CRTFLog not initialized properly");
return _rgdwHits[i];
}
/*
* CRTFLog::operator[]
*
* @mdesc
* Returns reference to element i of RTF log (r-value)
*
* @rdesc
* const ELEMENT & reference to element i of log
*
* @devnote
* This should be inline, but the AssertSz macro doesn't compile
* properly on the Mac if its placed in a header file
*
*/
const CRTFLog::ELEMENT &CRTFLog::operator[](INDEX i) const
{
AssertSz(i < ISize(), "CRTFLog::operator[]: index out of range");
AssertSz(FInit(), "CRTFLog::operator[]: CRTFLog not initialized properly");
return _rgdwHits[i];
}
/*
* CRTFLog::LpcstrLogFilename()
*
* @mfunc
* Returns name of file to be used for log
*
* @rdesc
* LPCSTR pointer to static buffer containing file name
*/
LPCSTR CRTFLog::LpcstrLogFilename() const
{
static char szBuf[MAX_PATH] = "";
#ifndef NOFULLDEBUG
const char cstrLogFilename[] = "RTFLOG";
if(!szBuf[0])
{
DWORD cchLength;
char szBuf2[MAX_PATH];
SideAssert(cchLength = GetTempPathA(MAX_PATH, szBuf2));
// append trailing backslash if neccessary
if(szBuf2[cchLength - 1] != '\\')
{
szBuf2[cchLength] = '\\';
szBuf2[cchLength + 1] = 0;
}
wsprintfA(szBuf, "%s%s", szBuf2, cstrLogFilename);
}
#endif
return szBuf;
}
/*
* CRTFLog::IIndexOfKeyword(LPCSTR lpcstrKeyword, PINDEX piIndex)
*
* @mfunc
* Returns the index of the log element which corresponds to
* the RTF keyword, lpcstrKeyword
*
* @rdesc
* BOOL flag indicating whether index was found
*/
BOOL CRTFLog::IIndexOfKeyword(LPCSTR lpcstrKeyword, PINDEX piIndex) const
{
INDEX i;
for(i = 0; i < ISize(); i++)
{
if(strcmp(lpcstrKeyword, rgKeyword[i].szKeyword) == 0)
break;
}
if(i == ISize())
return FALSE;
if(piIndex)
*piIndex = i;
return TRUE;
}
/*
* CRTFLog::IIndexOfToken(TOKEN token, PINDEX piIndex)
*
* @mfunc
* Returns the index of the log element which corresponds to
* the RTF token, token
*
* @rdesc
* BOOL flag indicating whether index was found
*/
BOOL CRTFLog::IIndexOfToken(TOKEN token, PINDEX piIndex) const
{
INDEX i;
for(i = 0; i < ISize(); i++)
{
if(token == rgKeyword[i].token)
break;
}
if(i == ISize())
return FALSE;
if(piIndex)
*piIndex = i;
return TRUE;
}