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I was recently just tripped up by a subtle distinction between the behavior of std::istream::read versus std::istream::ignore. Basically, read extracts N bytes from the input stream, and stores them in a buffer. The ignore function extracts N bytes from the input stream, but simply discards them rather than storing them in a buffer. So, my understanding was that read and ignore are basically the same in every way, except for the fact that read saves the extracted bytes whereas ignore just discards them.

But there is another subtle difference between read and ignore which managed to trip me up. If you read to the end of a stream, the EOF condition is not triggered. You have to read past the end of a stream in order for the EOF condition to be triggered. But with ignore it is different: you only need to read to the end of a stream.


#include <sstream>
#include <iostream>
using namespace std;

int main()
        std::stringstream ss;
        ss << "abcd";
        char buf[1024];, 4);
        std::cout << "EOF: " << std::boolalpha << ss.eof() << std::endl;

        std::stringstream ss;
        ss << "abcd";
        std::cout << "EOF: " << std::boolalpha << ss.eof() << std::endl;

On GCC 4.4.5, this prints out:

EOF: false
EOF: true

So, why is the behavior different here? This subtle difference managed to confuse me enough to wonder why there is a difference. Is there some compelling reason that EOF is triggered "early" with a call to ignore?

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I don't think it should do that. What compiler are you using? Mine(VC10) prints false for both. – Benjamin Lindley Jul 9 '11 at 21:20
I am using GCC 4.4.5. – Channel72 Jul 9 '11 at 21:22
Or, maybe it should. I'm trying to decipher this line from the definition of ignore in the standard "Characters are extracted until any of the following occurs: ... traits::eq_int_type(traits::to_int_type(c), delim) for the next available input character c (in which case c is extracted)." That sounds like it's doing a look-ahead by 1, I'm not sure though. – Benjamin Lindley Jul 9 '11 at 21:30
This is a bug, reproducible in GCC 4.5.1, GCC 4.3.1 and GCC 4.1.2. Can't find any relevant existing entry in GCC bugzilla. – PreferenceBean Jul 9 '11 at 22:20

eof() should only return true if you have already attempted to read past the end. In neither case should it be true. This may be a bug in your implementation.

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You seem to be right, according to the C++ standard. But this seems to be a widespread bug: – Channel72 Jul 9 '11 at 21:29
@Channel72: One demonstration is not "widespread". – PreferenceBean Jul 9 '11 at 22:18
Yeah, you're right. It seems to be limited to GCC – Channel72 Jul 9 '11 at 22:19

I'm going to go out on a limb here and answer my own question: it really looks like this is a bug in GCC.

The standard reads in paragraph 23:

[istream::ignore] behaves as an unformatted input function (as described in, paragraph 1). After constructing a sentry object, extracts characters and discards them. Characters are extracted until any of the following occurs:

  • if n != numeric_limits::max() (18.2.1), n characters are extracted
  • end-of-file occurs on the input sequence (in which case the function calls setstate(eofbit), which may throw ios_base::failure(;
  • c == delim for the next available input character c (in which case c is extracted). Note: The last condition will never occur if delim == traits::eof()

My (somewhat tentative) interpretation is that GCC is wrong here, because of the bold parts above. Ignore should behave as an unformatted input function, (like read()), which means that end-of-file should only occur on the input sequence if there is an attempt to extract additional bytes after the last byte in the stream has been extracted.

I'll submit a bug report if I find that enough people agree with this answer.

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Regarding "But it appears to be a widespread bug", codepad uses GCC also. – Benjamin Lindley Jul 9 '11 at 21:55
I see ............ – Channel72 Jul 9 '11 at 21:55
I tried it on an old version of GCC, (version 3.6), and it prints out false false – Channel72 Jul 9 '11 at 21:56

The consensus seemed to be that this was a legitimate bug in gcc. Since I saw no indication a bug report had been filed, I'm doing so now. The report can be viewed at:

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