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This may properly belong to a different part of Stack Exchange but I don't think so - programmers.se is more about other things.

Getting to the question: There are things you can do with std::ios::binary that you cannot do in text mode (E.g. relative seek) but I cannot find anything to do in text mode that you cannot do in binary mode - even reading the file as text with e.g. std::getline()

So why would I ever open as text? As a perhaps-related question, why not open as binary by default? Whose use-case does that break?

EDIT Additional information

Here's what's causing me to ask:

I have a file which is created on a windows system - that is, the line-endings are CR LF.

I am opening it with std::ifstream using the std::ios::binary flag

I am parsing through the file with std::getline and getting exactly the behavior I would expect - getline reads one line at a time.

System: Windows 7 Pro

Compiler: g++ for MINGW32

  • Not sure if the standard library does this, but there can be some text encoding bytes and byte order masks at the beginning of a text file. Maybe the standard library interprets them correctly and skips them if opened in text mode? But treats them as non-special bytes in binary mode? – leemes Dec 20 '13 at 13:45
  • There used to be this idea that you would read and write "a text file" platform-agnostically. So you want to use whatever line separator is suitable for the platform. For those who use any text editor other than Notepad on Windows, I think this idea has pretty much had its day -- you can write LF only and accept both kinds of linebreak when reading, on any platform. But even if you accept that (which not everyone will), changing the default is a needless incompatibility. – Steve Jessop Dec 20 '13 at 13:47
  • @SteveJessop: "changing the default is a needless incompatibility" This is exactly my question: Is it? What code could have been written that wouldn't be compatible with an implicit ::binary being passed at all times? – medivh Dec 20 '13 at 13:52
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    @medivh: on Windows, opening a file in text mode means that if the file contains \r\n it will be read as \n. So code that uses the default and expects to see \n would be broken. It will instead see \r\n. So for example you could end up with a trailing \r on a value read from the file, because removing \n no longer removes the whole linebreak sequence. It will fail to match the equivalent value without the erroneous \r from some other source. – Steve Jessop Dec 20 '13 at 13:54
  • @SteveJessop I am almost (but not entirely) sure that you're wrong - I ask specifically because I just recently used fstream in a program for windows and solved a problem with tellg() by opening the file in binary - without accounting for windows files using \r (Which they definitely do, tested by viewing file in NP++ and using the "hidden characters" option). – medivh Dec 20 '13 at 13:55
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What can you do in text mode that you can't do in binary? Read text, for starters. A file opened in text mode automatically translates between the '\n' character internally, and whatever the system uses to delimit lines in files externally. It can also recognize an arbitrary end of file, even when the underlying system requires file sizes to be a multiple of some fixed size.

The choice today is somewhat complicated by the fact that you often have to access the files from incompatible systems. If you have a file system mounted on both Windows and Unix, write it as text under Windows, and read it as text under Unix, then you'll see extra characters. In such cases, it may be preferable to read and write binary, and to do the line end handling yourself, according to whatever conventions you prefer. Similarly, if the "file" is actually a socket, communicating with another machine, you'll want to open it in binary, and handle line endings yourself, according to the requirements of the protocol.

  • "Access the file from incompatible systems" - who furthermore share that file by binary means. If the file is shared by content-aware mechanisms (e.g. SVN), that mechanism may do the relevant conversion for you. – MSalters Dec 20 '13 at 16:18
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    @MSalters When I said "share", I meant "share". A shared file system, mounted on several different systems. That seems to be the usual situation in most places I've worked (when they had any Windows machines). – James Kanze Dec 20 '13 at 16:47
  • Am I correct in my understanding here then, that the behavior I am seeing is only because I compile for windows and use windows endline, but would get different behavior if I (compiled for Unix but used the same windows endline), or (used Unix endline but still compiled for windows) ? – medivh Dec 21 '13 at 10:17
  • @medivh: the behavior you describe in your edit makes sense, but I would expect each line you read to have \r at the end of it when the file is open in binary mode. Maybe this doesn't harm your program, but it could harm someone else's. I don't have mingw on hand to check, so I can't tell you what it does in text mode -- on the one hand it's running in Windows so it might respect Windows line breaks. On the other hand it's supposed to provide a vaguely Posix-like environment, and Posix requires that binary mode and text mode are identical. – Steve Jessop Dec 21 '13 at 10:22
  • @medivh: all the online mentions I can find say that mingw does indeed open in text mode by default. So there should be a difference in the results of getline. Whether your particular program actually goes wrong or not because of the extra \r in binary mode is another matter. – Steve Jessop Dec 21 '13 at 10:29
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Well stdin is opened by default in text mode, this allows the use of for example CTRL + Z to signal EOF so I don't see why you think there is no "need" to have streams opened in anyting except binary mode.

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