ftell functions are both defined by the ISO C language standard.
The following is from latest public draft of the 2011 C standard, but the 1990, 1999, and 2011 ISO C standards are all very similar in this area, if not identical.
The ftell function obtains the current value of the file position
indicator for the stream pointed to by stream. For a binary stream,
the value is the number of characters from the beginning of the file.
For a text stream, its file position indicator contains unspecified
information, usable by the fseek function for returning the file
position indicator for the stream to its position at the time of the
ftell call; the difference between two such return values is not
necessarily a meaningful measure of the number of characters written
The fseek function sets the file position indicator for the stream
pointed to by stream. If a read or write error occurs, the error
indicator for the stream is set and fseek fails.
For a binary stream, the new position, measured in characters from the
beginning of the file, is obtained by adding offset to the
position specified by whence. The specified position is the
beginning of the file if whence is SEEK_SET, the current value
of the file position indicator if SEEK_CUR, or end-of-file if
SEEK_END. A binary stream need not meaningfully support fseek calls with a whence value of SEEK_END.
For a text stream, either offset shall be zero, or offset
shall be a value returned by an earlier successful call to the
ftell function on a stream associated with the same file and whence shall be SEEK_SET.
Violating any of the "shall" clauses makes your program's behavior undefined.
So if the file was opened in binary mode,
ftell gives you the number of characters from the beginning of the file -- but an
fseek relative to the end of the file (
SEEK_END) is not necessarily meaningful. This accommodates systems that store binary files in whole blocks and don't keep track of how much was written to the final block.
If the file was opened in text mode, you can seek to the beginning or end of the file with an offset of 0, or you can seek to a position given by an earlier call to
fseek with any other arguments has undefined behavior. This accomodates systems where the number of characters read from a text file doesn't necessarily correspond to the number of bytes in the file. For example, on Windows reading a CR-LF pair (
"\r\n") reads only one character, but advances 2 bytes in the file.
In practice, on Unix-like systems text and binary modes behave the same way, and the fseek/ftell method will work. I suspect it will work on Windows (my guess is that
ftell will give the byte offset, which may not be the same as the number of times you could call
getchar() in text mode).
Note also that
ftell() returns a result of type
long. On systems where
long is 32 bits, this method can't work for files that are 2 GiB or larger.
You might be better off using some system-specific method to get the size of a file. Since the fseek/ftell method is system-specific anyway, such as
stat() on Unix-like systems.
On the other hand,
ftell are likely to work as you expect on most systems you're likely to encounter. I'm sure there are systems where it won't work; sorry, but I don't have specifics.
If working on Linux and Windows is good enough, and you're not concerned with large files, then the fseek/ftell method is probably ok. Otherwise, you should consider using a system-specific method to determine the size of a file.
And keep in mind that anything that tells you the size of a file can only tell you its size at that moment. The file's size could change before you access it.