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CFile Class

The base class for Microsoft Foundation Class file classes.

Syntax

class CFile : public CObject

Members

Public Constructors

Name Description
CFile::CFile Constructs a CFile object from a path or file handle.

Public Methods

Name Description
CFile::Abort Closes a file ignoring all warnings and errors.
CFile::Close Closes a file and deletes the object.
CFile::Duplicate Constructs a duplicate object based on this file.
CFile::Flush Flushes any data yet to be written.
CFile::GetFileName Retrieves the filename of the selected file.
CFile::GetFilePath Retrieves the full file path of the selected file.
CFile::GetFileTitle Retrieves the title of the selected file.
CFile::GetLength Retrieves the length of the file.
CFile::GetPosition Retrieves the current file pointer.
CFile::GetStatus Retrieves the status of the open file, or in the static version, retrieves the status of the specified file (static, virtual function).
CFile::LockRange Locks a range of bytes in a file.
CFile::Open Safely opens a file with an error-testing option.
CFile::Read Reads (unbuffered) data from a file at the current file position.
CFile::Remove Deletes the specified file (static function).
CFile::Rename Renames the specified file (static function).
CFile::Seek Positions the current file pointer.
CFile::SeekToBegin Positions the current file pointer at the beginning of the file.
CFile::SeekToEnd Positions the current file pointer at the end of the file.
CFile::SetFilePath Sets the full file path of the selected file.
CFile::SetLength Changes the length of the file.
CFile::SetStatus Sets the status of the specified file (static, virtual function).
CFile::UnlockRange Unlocks a range of bytes in a file.
CFile::Write Writes (unbuffered) data in a file to the current file position.

Public Operators

Name Description
CFile::operator HANDLE A handle to a CFile object.

Public Data Members

Name Description
CFile::hFileNull Determines if the CFile object has a valid handle.
CFile::m_hFile Usually contains the operating-system file handle.

Protected Data Members

Name Description
CFile::m_pTM Pointer to CAtlTransactionManager object.

Remarks

It directly provides unbuffered, binary disk input/output services, and it indirectly supports text files and memory files through its derived classes. CFile works in conjunction with the CArchive class to support serialization of Microsoft Foundation Class objects.

The hierarchical relationship between this class and its derived classes allows your program to operate on all file objects through the polymorphic CFile interface. A memory file, for example, behaves like a disk file.

Use CFile and its derived classes for general-purpose disk I/O. Use ofstream or other Microsoft iostream classes for formatted text sent to a disk file.

Normally, a disk file is opened automatically on CFile construction and closed on destruction. Static member functions permit you to interrogate a file's status without opening the file.

For more information on using CFile, see the articles Files in MFC and File Handling in the Run-Time Library Reference.

Inheritance Hierarchy

CObject

CFile

Requirements

Header: afx.h

CFile::Abort

Closes the file associated with this object and makes the file unavailable for reading or writing.

virtual void Abort();

Remarks

If you haven't closed the file before destroying the object, the destructor closes it for you.

When handling exceptions, CFile::Abort differs from CFile::Close in two important ways. First, the Abort function won't throw an exception on failures, because failures are ignored by Abort. Second, Abort won't ASSERT if the file hasn't been opened, or was closed previously.

If you used new to allocate the CFile object on the heap, then you must delete it after closing the file. Abort sets m_hFile to CFile::hFileNull.

Example

CStdioFile fileTest;
TCHAR* pszFileName = _T("Abort_File.dat");

// do stuff that may cause exceptions
CFileException ex;
if (!fileTest.Open(pszFileName, CFile::modeWrite, &ex))
{
   ex.ReportError();
   fileTest.Abort();   // close file safely and quietly
}

CFile::CFile

Constructs and initializes a CFile object.

CFile();
CFile(CAtlTransactionManager* pTM);
CFile(HANDLE hFile);

CFile(
LPCTSTR lpszFileName,
UINT nOpenFlags);

CFile(
LPCTSTR lpszFileName,
UINT nOpenFlags,
CAtlTransactionManager* pTM);

Parameters

hFile
Handle of a file to attach to the CFile object.

lpszFileName
Relative or full path of a file to attach to the CFile object.

nOpenFlags
Bitwise combination (OR) of file access options for the specified file. See the Remarks section for possible options.

pTM
Pointer to CAtlTransactionManager object

Remarks

The following five tables list the possible options for the nOpenFlags parameter.

Choose only one of the following file access mode options. The default file access mode is CFile::modeRead, which is read only.

Value Description
CFile::modeRead Requests read access only.
CFile::modeWrite Requests write access only.
CFile::modeReadWrite Requests read and write access.

Choose one of the following character mode options.

Value Description
CFile::typeBinary Sets binary mode (used in derived classes only).
CFile::typeText Sets text mode with special processing for carriage return-line feed pairs (used in derived classes only).
CFile::typeUnicode Sets Unicode mode (used in derived classes only). Text is written to the file in Unicode format when the application is built in a Unicode configuration. No BOM is written to the file.

Choose only one of the following file share mode options. The default file share mode is CFile::shareExclusive, which is exclusive.

Value Description
CFile::shareDenyNone No sharing restrictions.
CFile::shareDenyRead Denies read access to all others.
CFile::shareDenyWrite Denies write access to all others.
CFile::shareExclusive Denies read and write access to all others.

Choose the first, or both, of the following file creation mode options. The default creation mode is CFile::modeNoTruncate, which is open existing.

Value Description
CFile::modeCreate Creates a new file if no file exists. If the file already exists, it's overwritten and initially set to zero length.
CFile::modeNoTruncate Creates a new file if no file exists; otherwise, if the file already exists, it's attached to the CFile object.

Choose the following file caching options as described. By default, the system uses a general-purpose caching scheme that isn't available as an option.

Value Description
CFile::osNoBuffer The system doesn't use an intermediate cache for the file. This option cancels the following 2 options.
CFile::osRandomAccess The file cache is optimized for random access. Don't use both this option and the sequential scan option.
CFile::osSequentialScan The file cache is optimized for sequential access. Don't use both this option and the random access option.
CFile::osWriteThrough Write operations are done without delay.

Choose the following security option to prevent the file handle from being inherited. By default, any new child processes can use the file handle.

Value Description
CFile::modeNoInherit Prevents any child processes from using the file handle.

The default constructor initializes members but doesn't attach a file to the CFile object. After using this constructor, use the CFile::Open method to open a file and attach it to the CFile object.

The constructor with one parameter initializes members and attaches an existing file to the CFile object.

The constructor with two parameters initializes members and tries to open the specified file. If this constructor successfully opens the specified file, the file is attached to the CFile object; otherwise, this constructor throws a pointer to a CInvalidArgException object. For more information about how to handle exceptions, see Exceptions.

If a CFile object successfully opens a specified file, it will close this file automatically when the CFile object is destroyed; otherwise, you must explicitly close the file after it's no longer attached to the CFile object.

Example

The following code shows how to use a CFile.

HANDLE hFile = CreateFile(_T("CFile_File.dat"),
   GENERIC_WRITE, FILE_SHARE_READ,
   NULL, CREATE_ALWAYS, FILE_ATTRIBUTE_NORMAL, NULL);

if (hFile == INVALID_HANDLE_VALUE)
{
   AfxMessageBox(_T("Couldn't create the file!"));
}
else
{
   // Attach a CFile object to the handle we have.
   CFile myFile(hFile);

   static const TCHAR sz[] = _T("I love CFile!");

   // write string
   myFile.Write(sz, sizeof(sz));

   // We need to call Close() explicitly. Note that there's no need to 
   // call CloseHandle() on the handle returned by the API because 
   // Close() automatically calls CloseHandle() for us.
   myFile.Close();

CFile::Close

Closes the file associated with this object and makes the file unavailable for reading or writing.

virtual void Close();

Remarks

If you haven't closed the file before destroying the object, the destructor closes it for you.

If you used new to allocate the CFile object on the heap, then you must delete it after closing the file. Close sets m_hFile to CFile::hFileNull.

Example

See the example for CFile::CFile.

CFile::Duplicate

Constructs a duplicate CFile object for a given file.

virtual CFile* Duplicate() const;

Return Value

A pointer to a duplicate CFile object.

Remarks

This function is equivalent to the C run-time function _dup.

CFile::Flush

Forces any data remaining in the file buffer to be written to the file.

virtual void Flush();

Remarks

The use of Flush doesn't guarantee flushing of CArchive buffers. If you're using an archive, call CArchive::Flush first.

Example

See the example for CFile::SetFilePath.

CFile::GetFileName

Call this member function to retrieve the name of a specified file.

virtual CString GetFileName() const;

Return Value

The name of the file.

Remarks

For example, when you call GetFileName to generate a message to the user about the file c:\windows\write\myfile.wri, the filename, myfile.wri, is returned.

To return the entire path of the file, including the name, call GetFilePath. To return the title of the file ( myfile), call GetFileTitle.

Example

This code fragment opens the SYSTEM.INI file in your WINDOWS directory. If found, the example will print out the name and path and title, as shown under Output:

try
{
   // try to open the file
   CFile sysFile(_T("C:\\WINDOWS\\SYSTEM.INI"), CFile::modeRead);

   // print out path name and title information
   _tprintf_s(_T("Path is : \"%s\"\n"),
      (LPCTSTR) sysFile.GetFilePath());
   _tprintf_s(_T("Name is : \"%s\"\n"),
      (LPCTSTR) sysFile.GetFileName());
   _tprintf_s(_T("Title is: \"%s\"\n"), 
      (LPCTSTR) sysFile.GetFileTitle());

   // close the file handle
   sysFile.Close();
}
catch (CFileException* pEx)
{
   // if an error occurs, just make a message box
   pEx->ReportError();
   pEx->Delete();
}

CFile::GetFilePath

Call this member function to retrieve the full path of a specified file.

virtual CString GetFilePath() const;

Return Value

The full path of the specified file.

Remarks

For example, when you call GetFilePath to generate a message to the user about the file c:\windows\write\myfile.wri, the file path, c:\windows\write\myfile.wri, is returned.

To return just the name of the file (myfile.wri), call GetFileName. To return the title of the file (myfile), call GetFileTitle.

Example

See the example for GetFileName.

CFile::GetFileTitle

Call this member function to retrieve the file title (the display name) for the file.

virtual CString GetFileTitle() const;

Return Value

The title of the underlying file.

Remarks

This method calls GetFileTitle to retrieve the title of the file. If successful, the method returns the string that the system would use to display the file name to the user. Otherwise, the method calls PathFindFileName to retrieve the file name (including the file extension) of the underlying file. That means the file extension isn't always included in the returned file title string. For more information, see GetFileTitle and PathFindFileName in the Windows SDK.

To return the entire path of the file, including the name, call GetFilePath. To return just the name of the file, call GetFileName.

Example

See the example for GetFileName.

CFile::GetLength

Obtains the current logical length of the file in bytes.

virtual ULONGLONG GetLength() const;

Return Value

The length of the file.

Example

CFile* pFile = NULL;
// Constructing a CFile object with this override may throw
// a CFile exception, and won't throw any other exceptions.
// Calling CString::Format() may throw a CMemoryException,
// so we have a catch block for such exceptions, too. Any
// other exception types this function throws will be
// routed to the calling function.
try
{
   pFile = new CFile(_T("C:\\WINDOWS\\SYSTEM.INI"),
      CFile::modeRead | CFile::shareDenyNone);
   ULONGLONG dwLength = pFile->GetLength();
   CString str;
   str.Format(_T("Your SYSTEM.INI file is %I64u bytes long."), dwLength);
   AfxMessageBox(str);
}
catch (CFileException* pEx)
{
   // Simply show an error message to the user.
   pEx->ReportError();
   pEx->Delete();
}
catch(CMemoryException* pEx)
{
   pEx->ReportError();
   pEx->Delete();
   // We can't recover from this memory exception, so we'll
   // just terminate the app without any cleanup. Normally,
   // an application should do everything it possibly can to
   // clean up properly and _not_ call AfxAbort().
   AfxAbort();
}

// If an exception occurs in the CFile constructor,
// the language will free the memory allocated by new
// and will not complete the assignment to pFile.
// Thus, our clean-up code needs to test for NULL.
if (pFile != NULL)
{
   pFile->Close();
   delete pFile;
}         

CFile::GetPosition

Obtains the current value of the file pointer, which can be used in later calls to Seek.

virtual ULONGLONG GetPosition() const;

Return Value

The file pointer.

Example

CFile cfile;
cfile.Open(_T("Seek_File.dat"), CFile::modeCreate |
   CFile::modeReadWrite);
LONGLONG lOffset = 1000;
ULONGLONG lActual;
lActual = cfile.Seek(lOffset, CFile::begin);
ASSERT(cfile.GetPosition() == lActual);

CFile::GetStatus

This method retrieves status information related to a given CFile object instance or a given file path.

BOOL GetStatus(CFileStatus& rStatus) const;

static BOOL PASCAL GetStatus(
    LPCTSTR lpszFileName,
    CFileStatus& rStatus,
    CAtlTransactionManager* pTM = NULL);

Parameters

rStatus
A reference to a user-supplied CFileStatus structure that will receive the status information. The CFileStatus structure has the following fields:

  • CTime m_ctime The date and time the file was created.

  • CTime m_mtime The date and time the file was last modified.

  • CTime m_atime The date and time the file was last accessed for reading.

  • ULONGLONG m_size The logical size of the file in bytes, as reported by the DIR command.

  • BYTE m_attribute The attribute byte of the file.

  • char m_szFullName[_MAX_PATH] The absolute filename in the Windows character set.

lpszFileName
A string in the Windows character set that is the path to the desired file. The path can be relative or absolute, or it can contain a network path name.

pTM
Pointer to CAtlTransactionManager object

Return Value

TRUE if the status information for the specified file is successfully obtained; otherwise, FALSE.

Remarks

The non-static version of GetStatus retrieves status information of the open file associated with the given CFile object. The static version of GetStatus obtains the file status from a given file path without actually opening the file. This version is useful for testing the existence and access rights of a file.

The m_attribute member of the CFileStatus structure refers to the file attribute set. The CFile class provides the Attribute enumeration type so file attributes can be specified symbolically:

enum Attribute {
    normal =    0x00,
    readOnly =  0x01,
    hidden =    0x02,
    system =    0x04,
    volume =    0x08,
    directory = 0x10,
    archive =   0x20
    };

Example

CFile cfile;
cfile.Open(_T("SetLength_File.dat"), CFile::modeCreate |
   CFile::modeReadWrite);
ULONGLONG dwNewLength = 10000;
cfile.SetLength(dwNewLength);
CFileStatus status;
if(cfile.GetStatus(status))    // virtual member function
{
   TRACE(_T("File size = %u\n"), status.m_size);
}
TCHAR* pszFileName = _T("SetLength_File.dat");
if(CFile::GetStatus(pszFileName, status))   // static function
{
   TRACE(_T("Full file name = %s\n"), status.m_szFullName);
}

CFile::hFileNull

Determines the presence of a valid file handle for the CFile object.

static AFX_DATA const HANDLE hFileNull;

Remarks

This constant is used to determine if the CFile object has a valid file handle.

The following example demonstrates this operation:

if (myFile.m_hFile != CFile::hFileNull)
   ;//perform operations on the file
else
   ;//indicate the presence of an invalid handle         

CFile::LockRange

Locks a range of bytes in an open file, throwing an exception if the file is already locked.

virtual void LockRange(
    ULONGLONG dwPos,
    ULONGLONG dwCount);

Parameters

dwPos
The byte offset of the start of the byte range to lock.

dwCount
The number of bytes in the range to lock.

Remarks

Locking bytes in a file prevents access to those bytes by other processes. You can lock more than one region of a file, but no overlapping regions are allowed.

When you unlock the region using the UnlockRange member function, the byte range must correspond exactly to the region that was previously locked. The LockRange function doesn't merge adjacent regions. If two locked regions are adjacent, you must unlock each region separately.

Note

This function isn't available for the CMemFile-derived class.

Example

CFile cfile;
cfile.Open(_T("LockRange_File.dat"), CFile::modeCreate |
   CFile::modeReadWrite);
ULONGLONG dwPos = 10;
ULONGLONG dwCount = 100;
cfile.LockRange(dwPos, dwCount);

// do something with the file

cfile.UnlockRange(dwPos, dwCount);

CFile::m_hFile

Contains the operating-system file handle for an open file.

HANDLE m_hFile;

Remarks

m_hFile is a public variable of type UINT. It contains CFile::hFileNull, an operating-system-independent empty file indicator, if the handle hasn't been assigned.

Use of m_hFile isn't recommended, because the member's meaning depends on the derived class. m_hFile is made a public member for convenience in supporting nonpolymorphic use of the class.

CFile::m_pTM

Pointer to a CAtlTransactionManager object.

CAtlTransactionManager* m_pTM;

Remarks

CFile::Open

Overloaded. Open is designed for use with the default CFile constructor.

virtual BOOL Open(
    LPCTSTR lpszFileName,
    UINT nOpenFlags,
    CFileException* pError = NULL);

virtual BOOL Open(
    LPCTSTR lpszFileName,
    UINT nOpenFlags,
    CAtlTransactionManager* pTM,
    CFileException* pError = NULL);

Parameters

lpszFileName
A string that contains the path to the desired file. The path can be relative, absolute, or a network name (UNC).

nOpenFlags
A UINT that defines the file's sharing and access mode. It specifies the action to take when opening the file. You can combine options by using the bitwise-OR ( | ) operator. One access permission and one share option are required; the modeCreate and modeNoInherit modes are optional. See the CFile constructor for a list of mode options.

pError
A pointer to an existing file-exception object that will receive the status of a failed operation.

pTM
Pointer to CAtlTransactionManager object

Return Value

Nonzero if the open was successful; otherwise 0. The pError parameter is meaningful only if 0 is returned.

Remarks

The two Open functions are "safe" methods for opening a file, where a failure is a normal, expected condition.

While the CFile constructor throws an exception in an error condition, Open returns FALSE for error conditions. Open can still initialize a CFileException object to describe the error, however. If you don't supply the pError parameter, or if you pass NULL for pError, Open returns FALSE and doesn't throw a CFileException. If you pass a pointer to an existing CFileException, and Open encounters an error, the function fills it with information describing that error. Open doesn't throw an exception in either case.

The following table describes the possible results of Open.

pError Error encountered Return value CFileException content
NULL No TRUE n/a
ptr to CFileException No TRUE unchanged
NULL Yes FALSE n/a
ptr to CFileException Yes FALSE initialized to describe error

Example

CFile f;
CFileException e;
TCHAR* pszFileName = _T("Open_File.dat");
if(!f.Open(pszFileName, CFile::modeCreate | CFile::modeWrite, &e))
{
   TRACE(_T("File could not be opened %d\n"), e.m_cause);
}

 

//A second example for CFile::Open.
//This function uses CFile to copy binary files.
bool BinaryFileCopy(LPCTSTR pszSource, LPCTSTR pszDest)
{
   // constructing these file objects doesn't open them
   CFile sourceFile;
   CFile destFile;

   // we'll use a CFileException object to get error information
   CFileException ex;

   // open the source file for reading
   if (!sourceFile.Open(pszSource,
      CFile::modeRead | CFile::shareDenyWrite, &ex))
   {
      // complain if an error happened
      // no need to delete the ex object

      TCHAR szError[1024];
      ex.GetErrorMessage(szError, 1024);
      _tprintf_s(_T("Couldn't open source file: %1024s"), szError);
      return false;
   }
   else
   {
      if (!destFile.Open(pszDest, CFile::modeWrite |
         CFile::shareExclusive | CFile::modeCreate, &ex))
      {
         TCHAR szError[1024];
         ex.GetErrorMessage(szError, 1024);
         _tprintf_s(_T("Couldn't open source file: %1024s"), szError);

         sourceFile.Close();
         return false;
      }

      BYTE buffer[4096];
      DWORD dwRead;

      // Read in 4096-byte blocks,
      // remember how many bytes were actually read,
      // and try to write that many out. This loop ends
      // when there are no more bytes to read.
      do
      {
         dwRead = sourceFile.Read(buffer, 4096);
         destFile.Write(buffer, dwRead);
      }
      while (dwRead > 0);

      // Close both files

      destFile.Close();
      sourceFile.Close();
   }

   return true;
}

CFile::operator HANDLE

Use this operator to pass a handle to a CFile object to functions such as ReadFileEx and GetFileTime that expect a HANDLE.

operator HANDLE() const;

CFile::Read

Reads data into a buffer from the file associated with the CFile object.

virtual UINT Read(
    void* lpBuf,
    UINT nCount);

Parameters

lpBuf
Pointer to the user-supplied buffer that is to receive the data read from the file.

nCount
The maximum number of bytes to be read from the file. For text-mode files, carriage return-line feed pairs are counted as single characters.

Return Value

The number of bytes transferred to the buffer. For all CFile classes, the return value may be less than nCount if the end of file was reached.

Example

CFile cfile;
cfile.Open(_T("Write_File.dat"), CFile::modeCreate | 
   CFile::modeReadWrite);
char pbufWrite[100];
memset(pbufWrite, 'a', sizeof(pbufWrite));
cfile.Write(pbufWrite, 100);         
cfile.Flush();
cfile.SeekToBegin();
char pbufRead[100];
cfile.Read(pbufRead, sizeof(pbufRead));
ASSERT(0 == memcmp(pbufWrite, pbufRead, sizeof(pbufWrite)));

For another example, see CFile::Open.

CFile::Remove

This static function deletes the file specified by the path.

static void PASCAL Remove(
    LPCTSTR lpszFileName,
    CAtlTransactionManager* pTM = NULL);

Parameters

lpszFileName
A string that is the path to the desired file. The path can be relative or absolute, and can contain a network name.

pTM
Pointer to CAtlTransactionManager object

Remarks

Remove won't remove a directory.

The Remove member function throws an exception if the connected file is open or if the file can't be removed. This function is equivalent to the DEL command.

Example

//example for CFile::Remove
TCHAR* pFileName = _T("Remove_File.dat");
try
{
   CFile::Remove(pFileName);
}
catch (CFileException* pEx)
{
   TRACE(_T("File %20s cannot be removed\n"), pFileName);
   pEx->Delete();
}

CFile::Rename

This static function renames the specified file.

static void PASCAL Rename(
    LPCTSTR lpszOldName,
    LPCTSTR lpszNewName,
    CAtlTransactionManager* pTM = NULL);

Parameters

lpszOldName
The old path.

lpszNewName
The new path.

pTM
Pointer to CAtlTransactionManager object

Remarks

Directories can't be renamed. This function is equivalent to the REN command.

Example

TCHAR* pOldName = _T("Oldname_File.dat");
TCHAR* pNewName = _T("Renamed_File.dat");

try
{
    CFile::Rename(pOldName, pNewName);
}
catch(CFileException* pEx )
{
    TRACE(_T("File %20s not found, cause = %d\n"), pOldName, 
       pEx->m_cause);
    pEx->Delete();
}

CFile::Seek

Repositions the file pointer in an open file.

virtual ULONGLONG Seek(
LONGLONG lOff,
UINT nFrom);

Parameters

lOff
Number of bytes to move the file pointer. Positive values move the file pointer towards the end of the file; negative values move the file pointer towards the start of the file.

nFrom
Position to seek from. See the Remarks section for possible values.

Return Value

The position of the file pointer if the method was successful; otherwise, the return value is undefined and a pointer to a CFileException exception is thrown.

Remarks

The following table lists possible values for the nFrom parameter.

Value Description
CFile::begin Seek from the start of the file.
CFile::current Seek from the current location of the file pointer.
CFile::end Seek from the end of the file.

When a file is opened, the file pointer is positioned at 0, the start of the file.

You can set the file pointer to a position beyond the end of a file. If you do, the size of the file doesn't increase until you write to the file.

The exception handler for this method must delete the exception object after the exception is processed.

Example

CFile cfile;
cfile.Open(_T("Seek_File.dat"), CFile::modeCreate |
   CFile::modeReadWrite);
LONGLONG lOffset = 1000;
ULONGLONG lActual;
lActual = cfile.Seek(lOffset, CFile::begin);

CFile::SeekToBegin

Sets the value of the file pointer to the beginning of the file.

void SeekToBegin();

Remarks

SeekToBegin() is equivalent to Seek( 0L, CFile::begin ).

Example

CFile f;
f.Open(_T("Seeker_File.dat"), CFile::modeCreate |
   CFile::modeReadWrite);
f.SeekToBegin();
ULONGLONG ullEnd = f.SeekToEnd();

CFile::SeekToEnd

Sets the value of the file pointer to the logical end of the file.

ULONGLONG SeekToEnd();

Return Value

The length of the file in bytes.

Remarks

SeekToEnd() is equivalent to CFile::Seek( 0L, CFile::end ).

Example

CFile f;
f.Open(_T("Seeker_File.dat"), CFile::modeCreate |
   CFile::modeReadWrite);
f.SeekToBegin();
ULONGLONG ullEnd = f.SeekToEnd();

CFile::SetFilePath

Call this function to specify the path of the file. For example, if the path of a file isn't available when a CFile object is constructed, call SetFilePath to provide it.

virtual void SetFilePath(LPCTSTR lpszNewName);

Parameters

lpszNewName
Pointer to a string specifying the new path.

Remarks

Note

SetFilePath does not open the file or create the file; it simply associates the CFile object with a path name, which can then be used.

Example

TCHAR* pstrName = _T("C:\\test\\SetPath_File.dat");

// open a file
HANDLE hFile = ::CreateFile(pstrName, GENERIC_WRITE, FILE_SHARE_READ,
   NULL, CREATE_ALWAYS, 0, NULL);

if (hFile != INVALID_HANDLE_VALUE)
{
   // attach a CFile object to it
   CFile myFile(hFile);

   // At this point, myFile doesn't know the path name for the file
   // it owns because Windows doesn't associate that information
   // with the handle. Any CFileExceptions thrown by this object
   // won't have complete information.

   // Calling SetFilePath() remedies that problem by letting CFile
   // know the name of the file that's associated with the object.

   myFile.SetFilePath(pstrName);

   // write something to the file and flush it immediately
   DWORD dwValue = 1234;
   myFile.Write(&dwValue, sizeof(dwValue));
   myFile.Flush();

   // destroying the CObject here will call ::CloseHandle() on the file
} 

CFile::SetLength

Call this function to change the length of the file.

virtual void SetLength(ULONGLONG dwNewLen);

Parameters

dwNewLen
Desired length of the file in bytes. This value can be larger or smaller than the current length of the file. The file will be extended or truncated as appropriate.

Remarks

Note

With CMemFile, this function could throw a CMemoryException object.

Example

CFile cfile;
cfile.Open(_T("SetLength_File.dat"), CFile::modeCreate |
   CFile::modeReadWrite);
ULONGLONG dwNewLength = 10000;
cfile.SetLength(dwNewLength);

CFile::SetStatus

Sets the status of the file associated with this file location.

static void PASCAL SetStatus(
    LPCTSTR lpszFileName,
    const CFileStatus& status,
    CAtlTransactionManager* pTM = NULL);

Parameters

lpszFileName
A string that is the path to the desired file. The path can be relative or absolute, and can contain a network name.

status
The buffer containing the new status information. Call the GetStatus member function to prefill the CFileStatus structure with current values, then make changes as required. If a value is 0, then the corresponding status item isn't updated. See the GetStatus member function for a description of the CFileStatus structure.

pTM
Pointer to CAtlTransactionManager object

Remarks

To set the time, modify the m_mtime field of status.

When you make a call to SetStatus in an attempt to change only the attributes of the file, and the m_mtime member of the file status structure is nonzero, the attributes may also be affected (changing the time stamp may have side effects on the attributes). If you want to only change the attributes of the file, first set the m_mtime member of the file status structure to zero and then make a call to SetStatus.

Example

TCHAR* pFileName = _T("ReadOnly_File.dat");
CFileStatus status;
CFile::GetStatus(pFileName, status);
status.m_attribute |= CFile::readOnly;
CFile::SetStatus(pFileName, status);         

CFile::UnlockRange

Unlocks a range of bytes in an open file.

virtual void UnlockRange(
    ULONGLONG dwPos,
    ULONGLONG dwCount);

Parameters

dwPos
The byte offset of the start of the byte range to unlock.

dwCount
The number of bytes in the range to unlock.

Remarks

See the description of the LockRange member function for details.

Note

This function is not available for the CMemFile-derived class.

Example

CFile cfile;
cfile.Open(_T("LockRange_File.dat"), CFile::modeCreate |
   CFile::modeReadWrite);
ULONGLONG dwPos = 10;
ULONGLONG dwCount = 100;
cfile.LockRange(dwPos, dwCount);

// do something with the file

cfile.UnlockRange(dwPos, dwCount);

CFile::Write

Writes data from a buffer to the file associated with the CFile object.

virtual void Write(
    const void* lpBuf,
    UINT nCount);

Parameters

lpBuf
A pointer to the user-supplied buffer that contains the data to be written to the file.

nCount
The number of bytes to be transferred from the buffer. For text-mode files, carriage return-line feed pairs are counted as single characters.

Remarks

Write throws an exception in response to several conditions, including the disk-full condition.

Example

CFile cfile;
cfile.Open(_T("Write_File.dat"), CFile::modeCreate | 
   CFile::modeReadWrite);
char pbufWrite[100];
memset(pbufWrite, 'a', sizeof(pbufWrite));
cfile.Write(pbufWrite, 100);         
cfile.Flush();

Also see the examples for CFile::CFile and CFile::Open.

See also

MFC Sample DRAWCLI
CObject Class
Hierarchy Chart
CStdioFile Class
CMemFile Class