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C++ Filehandling: Difference between ios:app and ios:ate?

What is the difference between these two file opening modes ?

ios:ate sets the get/put pointer position to the end of the file => reading/writing will begin from end, but how is it different from ios::app, which again opens a file in append mode...but when I have created a ofstream and opened it in ios:app mode, the put stream pointer still points to the beginning, how does the appending work then ?

Also I understand that ifstream, ofstream and fstream are high level classes to manage the underlying stream buffer. So does it mean that even in ios:app mode i can read data from a file ?

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marked as duplicate by chris, Steve Jessop, hammar, Peter Olson, Justin Oct 17 '12 at 14:21

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Basically app always seeks to the end before writing anything, whereas ate lets you seek after opening and keeps it there. See this question. –  chris Oct 17 '12 at 7:38
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app comes from 'append'- all output will be added (appended) to the end of the file. In other words you cannot write anywhere else in the file but at the end

ate come form 'at end' - it sets the stream position at the end of the file when you open it but you are free to move it around (seek) and write wherever it pleases you.

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The fact that ate doesn't prevent truncation makes it pretty much useless. The fact that app may append partial records to the end at unspecified times (due to buffering) makes it pretty much useless. –  James Kanze Oct 17 '12 at 8:36
    
@James: how is app / ate any different in this respect from writes to the end of files that weren't opened with those flags? I thought it was just intended as a convenience to save one seek. I didn't realise anyone expected it to also flush the stream for them, or otherwise ensure file integrity. –  Steve Jessop Oct 17 '12 at 8:47
    
@SteveJessop app maps to "a" in fopen. The C standard doesn't require atomicity, because not all systems can support it, but the original intent of "a" was for the implementation to use the O_APPEND flag when opening the file. Which does cause atomic seek to end before each write. The difference is visible if other processes are writing to the file. When another process writes to the file, your position in the file doesn't advance, and your next write will overwrite whatever it has written. With app, your next write will append, regardless (and there is no race). –  James Kanze Oct 17 '12 at 8:58
    
@SteveJessop And the problem, of course, is when the write to system occurs. If you're writing reasonably short lines, and terminating each with std::endl (or have set line buffering with FILE*), you're probably safe. In most of my applications, probably isn't good enough, so I implement my own streambuf. –  James Kanze Oct 17 '12 at 9:01
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@SteveJessop It's useful if your application has several processes, and you want a common log file. fopen( ..., "a" ) works if it is immediately followed by a setvbuf( ... _IOLBF _ ... ) which returns 0, and you never output a line longer than the buffer length. On an implementation which respects setvbuf. (All Unix implementations? At least, I've never encountered one that didn't.) Similarly if you call filebuf::pubsetbuf and use std::endl with ofstream. (Again, if the implementation respects setbuf.) –  James Kanze Oct 17 '12 at 9:28
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If you look at e.g. this reference, you will see:

app     seek to the end of stream before each write 

and

ate     seek to the end of stream immediately after open 

This means that ios::app only writes at the end, but that ios::ate reads and writes at the end by default. However, with ios::ate you can seek freely in the file, but with ios::app you will always write at the end, no matter what position you set for the writing pointer.

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ate simply positions you at the end of file after opening, and nothing else. It's not much use on an ofstream, at least without other flags, since the file will have been truncated anyway, so the beginning is the end. (To avoid truncation, and still be able to write anywhere in the file, you need to or in ios::in as well, even if you're not going to read.)

app prevents the truncation of an existing file, and causes every write to go to the end of the file. Atomically, if possible; if other processes are writing to the same file, your write should still go to the end. Note however that this refers to the actual system level write. If, however, you are writing lines which are less than the buffer size, and you terminate each line with std::endl, you can count on each line being appended atomically, regardless of what other processes might be doing with the file. To be effective, you'll probably want to use pubsetbuf on the filebuf as well, to ensure a minimum buffer size.

In practice, I don't think I've ever used either of them, or found them of any use. The buffering issues with app, in particular, have generally led me to write my own streambuf, with conceptually unlimited buffering (an std::vector<char> as buffer), which opens the underlying system file with the equivalent of app, but guarantees only writing to it when explicitly flushed (as with `std::endl).

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