Platform SDK: Memory |
The MapViewOfFileEx function maps a view of a file into the address space of the calling process. This extended function allows the calling process to specify a suggested memory address for the mapped view.
LPVOID MapViewOfFileEx( HANDLE hFileMappingObject, // handle to file-mapping object DWORD dwDesiredAccess, // access mode DWORD dwFileOffsetHigh, // high-order DWORD of offset DWORD dwFileOffsetLow, // low-order DWORD of offset SIZE_T dwNumberOfBytesToMap, // number of bytes to map LPVOID lpBaseAddress // starting address );
Value | Meaning |
---|---|
FILE_MAP_WRITE | Read-and-write access. The hFileMappingObject parameter must have been created with PAGE_READWRITE protection. A read/write view of the file is mapped. |
FILE_MAP_READ | Read-only access. The hFileMappingObject parameter must have been created with PAGE_READWRITE or PAGE_READONLY protection. A read-only view of the file is mapped. |
FILE_MAP_ALL_ACCESS | Same as FILE_MAP_WRITE. |
FILE_MAP_COPY | Copy on write access. If you create the map with PAGE_WRITECOPY and the view with FILE_MAP_COPY, you will receive a view to the file. If you write to it, the pages are automatically swappable and the modifications you make will not go to the original data file.
Windows 95: You must pass PAGE_WRITECOPY to CreateFileMapping; otherwise, an error will be returned. If you share the mapping between multiple processes using DuplicateHandle or OpenFileMapping and one process writes to a view, the modification is propagated to the other process. The original file does not change. Windows NT/2000: There is no restriction as to how the hFileMappingObject parameter must be created. Copy on write is valid for any type of view. If you share the mapping between multiple processes using DuplicateHandle or OpenFileMapping and one process writes to a view, the modification is not propagated to the other process. The original file does not change. |
If lpBaseAddress is NULL, the operating system chooses the mapping address. In this case, this function is equivalent to the MapViewOfFile function.
If the function succeeds, the return value is the starting address of the mapped view.
If the function fails, the return value is NULL. To get extended error information, call GetLastError.
Mapping a file makes the specified portion of the file visible in the address space of the calling process.
If a suggested mapping address is supplied, the file is mapped at the specified address (rounded down to the nearest 64K boundary) if there is enough address space at the specified address. If there is not, the function fails.
Typically, the suggested address is used to specify that a file should be mapped at the same address in multiple processes. This requires the region of address space to be available in all involved processes. No other memory allocation, including use of the VirtualAlloc function to reserve memory, can take place in the region used for mapping:
Multiple views of a file (or a file-mapping object and its mapped file) are said to be "coherent" if they contain identical data at a specified time. This occurs if the file views are derived from the same file-mapping object. A process can duplicate a file-mapping object handle into another process by using the DuplicateHandle function, or another process can open a file-mapping object by name by using the OpenFileMapping function.
A mapped view of a file is not guaranteed to be coherent with a file being accessed by the ReadFile or WriteFile function.
Note To guard against an access violation, use structured exception handling to protect any code that writes to or reads from a memory mapped view. For more information, see Reading and Writing.
Windows NT/2000: Requires Windows NT 3.1 or later.
Windows 95/98: Requires Windows 95 or later.
Header: Declared in Winbase.h; include Windows.h.
Library: Use Kernel32.lib.
File Mapping Overview, File Mapping Functions, CreateFileMapping, DuplicateHandle, GetSystemInfo, OpenFileMapping, ReadFile, UnmapViewOfFile, SYSTEM_INFO, VirtualAlloc, WriteFile