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I'm currently learning C++ (Coming from Java) and I'm trying to understand how to use IO streams properly in C++.

Let's say I have an Image class which contains the pixels of an image and I overloaded the extraction operator to read the image from a stream:

istream& operator>>(istream& stream, Image& image)
{
    // Read the image data from the stream into the image
    return stream;
}

So now I'm able to read an image like this:

Image image;
ifstream file("somepic.img");
file >> image;

But now I want to use the same extraction operator to read the image data from a custom stream. Let's say I have a file which contains the image in compressed form. So instead of using ifstream I might want to implement my own input stream. At least that's how I would do it in Java. In Java I would write a custom class extending the InputStream class and implementing the int read() method. So that's pretty easy. And usage would look like this:

InputStream stream = new CompressedInputStream(new FileInputStream("somepic.imgz"));
image.read(stream);

So using the same pattern maybe I want to do this in C++:

Image image;
ifstream file("somepic.imgz");
compressed_stream stream(file);
stream >> image;

But maybe that's the wrong way, don't know. Extending the istream class looks pretty complicated and after some searching I found some hints about extending streambuf instead. But this example looks terribly complicated for such a simple task.

So what's the best way to implement custom input/output streams (or streambufs?) in C++?

Solution

Some people suggested not using iostreams at all and to use iterators, boost or a custom IO interface instead. These may be valid alternatives but my question was about iostreams. The accepted answer resulted in the example code below. For easier reading there is no header/code separation and the whole std namespace is imported (I know that this is a bad thing in real code).

This example is about reading and writing vertical-xor-encoded images. The format is pretty easy. Each byte represents two pixels (4 bits per pixel). Each line is xor'd with the previous line. This kind of encoding prepares the image for compression (usually results in lot of 0-bytes which are easier to compress).

#include <cstring>
#include <fstream>

using namespace std;

/*** vxor_streambuf class ******************************************/

class vxor_streambuf: public streambuf
{
public:
    vxor_streambuf(streambuf *buffer, const int width) :
        buffer(buffer),
        size(width / 2)
    {
        previous_line = new char[size];
        memset(previous_line, 0, size);
        current_line = new char[size];
        setg(0, 0, 0);
        setp(current_line, current_line + size);
    }

    virtual ~vxor_streambuf()
    {
        sync();
        delete[] previous_line;
        delete[] current_line;
    }

    virtual streambuf::int_type underflow()
    {
        // Read line from original buffer
        streamsize read = buffer->sgetn(current_line, size);
        if (!read) return traits_type::eof();

        // Do vertical XOR decoding
        for (int i = 0; i < size; i += 1)
        {
            current_line[i] ^= previous_line[i];
            previous_line[i] = current_line[i];
        }

        setg(current_line, current_line, current_line + read);
        return traits_type::to_int_type(*gptr());
    }

    virtual streambuf::int_type overflow(streambuf::int_type value)
    {
        int write = pptr() - pbase();
        if (write)
        {
            // Do vertical XOR encoding
            for (int i = 0; i < size; i += 1)
            {
                char tmp = current_line[i];
                current_line[i] ^= previous_line[i];
                previous_line[i] = tmp;
            }

            // Write line to original buffer
            streamsize written = buffer->sputn(current_line, write);
            if (written != write) return traits_type::eof();
        }

        setp(current_line, current_line + size);
        if (!traits_type::eq_int_type(value, traits_type::eof())) sputc(value);
        return traits_type::not_eof(value);
    };

    virtual int sync()
    {
        streambuf::int_type result = this->overflow(traits_type::eof());
        buffer->pubsync();
        return traits_type::eq_int_type(result, traits_type::eof()) ? -1 : 0;
    }

private:
    streambuf *buffer;
    int size;
    char *previous_line;
    char *current_line;
};


/*** vxor_istream class ********************************************/

class vxor_istream: public istream
{
public:
    vxor_istream(istream &stream, const int width) :
        istream(new vxor_streambuf(stream.rdbuf(), width)) {}

    virtual ~vxor_istream()
    {
        delete rdbuf();
    }
};


/*** vxor_ostream class ********************************************/

class vxor_ostream: public ostream
{
public:
    vxor_ostream(ostream &stream, const int width) :
        ostream(new vxor_streambuf(stream.rdbuf(), width)) {}

    virtual ~vxor_ostream()
    {
        delete rdbuf();
    }
};


/*** Test main method **********************************************/

int main()
{
    // Read data
    ifstream infile("test.img");
    vxor_istream in(infile, 288);
    char data[144 * 128];
    in.read(data, 144 * 128);
    infile.close();

    // Write data
    ofstream outfile("test2.img");
    vxor_ostream out(outfile, 288);
    out.write(data, 144 * 128);
    out.flush();
    outfile.close();

    return 0;
}
share|improve this question
    
I highly recommend avoiding iostreams. See stackoverflow.com/questions/2753060/… , accu.org/index.php/journals/1539 and google-styleguide.googlecode.com/svn/trunk/cppguide.xml#Streams to learn some of the reasons why. –  vitaut Dec 30 '12 at 4:10
    
@vitaut: If I understood the Google style guide correctly then they recommend using the old C-style I/O stuff? But I don't see how I can abstract I/O away from my classes then. My Image class just wants to read data and it doesn't want to care about the data source or if the data source is compressed or encrypted or whatever. With old C-style I/O I can pass a file handle to it but that's it. Doesn't sound like a good alternative. –  kayahr Dec 30 '12 at 11:55
    
As suggested by DeadMG, you can work with iterators instead. Or you can create a simple interface (abstract class) that defines a few operations that you need, like read() that you've mentioned. Then you can have several implementations of your interface, e.g. one using C-style I/O, or mmap or whatever, even iostreams. –  vitaut Dec 30 '12 at 14:18

5 Answers 5

up vote 17 down vote accepted

The proper way to create a new stream in C++ is to derive from std::streambuf and to override the underflow() operation for reading and the overflow() and sync() operations for writing. For your purpose you'd create a filtering stream buffer which takes another stream buffer (and possibly a stream from which the stream buffer can be extracted using rdbuf()) as argument and implements its own operations in terms of this stream buffer.

The basic outline of a stream buffer would be something like this:

class compressbuf
    : public std::streambuf {
    std::streambuf* sbuf_;
    char*           buffer_;
    // context for the compression
public:
    compressbuf(std::streambuf* sbuf)
        : sbuf_(sbuf), buffer_(new char[1024]) {
        // initialize compression context
    }
    ~compressbuf() { delete[] this->buffer_; }
    int underflow() {
        if (this->gptr() == this->egptr()) {
            // decompress data into buffer_, obtaining its own input from
            // this->sbuf_; if necessary resize buffer
            // the next statement assumes "size" characters were produced (if
            // no more characters are available, size == 0.
            this->setg(this->buffer_, this->buffer_, this->buffer_ + size);
        }
        return this->gptr() == this->egptr()
             ? std::char_traits<char>::eof()
             : std::char_traits<char>::to_int_type(*this->gptr());
    }
};

How underflow() looks exactly depends on the compression library being used. Most libraries I have used keep an internal buffer which needs to be filled and which retains the bytes which are not yet consumed. Typically, it is fairly easy to hook the decompression into underflow().

Once the stream buffer is created, you can just initialize an std::istream object with the stream buffer:

std::ifstream fin("some.file");
compressbuf   sbuf(fin.rdbuf());
std::istream  in(&sbuf);

If you are going to use the stream buffer frequently, you might want to encapsulate the object construction into a class, e.g., icompressstream. Doing so is a bit tricky because the base class std::ios is a virtual base and is the actual location where the stream buffer is stored. To construct the stream buffer before passing a pointer to a std::ios thus requires jumping through a few hoops: It requires the use of a virtual base class. Here is how this could look roughly:

struct compressstream_base {
    compressbuf sbuf_;
    compressstream_base(std::streambuf* sbuf): sbuf_(sbuf) {}
};
class icompressstream
    : virtual compressstream_base
    , public std::istream {
public:
    icompressstream(std::streambuf* sbuf)
        : compressstream_base(sbuf)
        , std::ios(&this->sbuf_)
        , std::istream(&this->sbuf_) {
    }
};

(I just typed this code without a simple way to test that it is reasonably correct; please expect typos but the overall approach should work as described)

share|improve this answer
    
Can you give a small example how the usage of such a custom stream buffer would look like? I wonder how to use this stream buffer in the end because the image class needs an istream to read from. –  kayahr Dec 29 '12 at 22:30
    
istream doesn't do any physical input; it delegates this to an streambuf, using the strategy pattern. The constructor of istream takes a streambuf* as argument. In the classical istream (ifstream and istringstream), this argument is supplied by the derived class, but there's nothing to stop you from instantiating a istream directly, with a pointer to a streambuf which you provide, or from deriving from istream so that the derived class' constructor can provide a streambuf of the desired type. –  James Kanze Dec 29 '12 at 22:36
2  
If you're thinking in terms of Java, InputStream is closer to std::streambuf than it is to std::istream. std::istream is more Java's Format, but with an interface which makes it much simpler to use. –  James Kanze Dec 29 '12 at 22:37
    
@kayahr: I just updated my answer. It took a bit to type in the example code... –  Dietmar Kühl Dec 29 '12 at 22:50
    
@JamesKanze: How is std::istream easier to use that Java's Format? Try doing any nontrivial formatting and you'll quickly get into chevron hell like cout << std::setiosflags(std::ios::right) << std::setw(12) << s, not to mention that iostreams are terrible for i18n. –  vitaut Dec 30 '12 at 4:01

boost (which you should have already if you're serious about C++), has a whole library dedicated to extending and customizing IO streams: boost.iostreams

In particular, it already has decompressing streams for a few popular formats (bzip2, gzlib, and zlib)

As you saw, extending streambuf may be an involving job, but the library makes it fairly easy to write your own filtering streambuf if you need one.

share|improve this answer
    
Yes, boost is definitely a topic I also have to learn. But I guess it is a good idea to first learn how to use (or hate) the standard C++ classes before I can really appreciate the benefits of the boost library. –  kayahr Dec 30 '12 at 11:47

Don't, unless you want to die a terrible death of hideous design. IOstreams are the worst component of the Standard library - even worse than locales. The iterator model is much more useful, and you can convert from stream to iterator with istream_iterator.

share|improve this answer
3  
I'm sure you have a much better design for I/O which you are about to propose for inclusion into the C++ standard: Can you shed some light on the details how to improve the design of I/O? –  Dietmar Kühl Dec 29 '12 at 22:25
1  
Actually, iostream is probably the best designed part of the standard library, although it suffers from a poor chose of names in some cases. Unlike the IO in most other languages, it manages to keep the major concepts (formatting/parsing vs. sinking/sourcing characters) well separated, and allows almost unlimited customization of each. (Java has the same separation, but they managed to make it much more complicated to provide formatting for user defined types, and much more difficult to use.) And as far as I know, C++ is the only language whose IO supports logical markup. –  James Kanze Dec 29 '12 at 22:43
1  
The I/O library should not even go anywhere near formatting or parsing, or sinking and sourcing. The correct way to approach sinking/sourcing is by using the existing algorithm abstraction- iterators. And I, personally, am currently working on an I/O proposal- although it would sure be easier with ranges. –  Puppy Dec 29 '12 at 22:46
    
Manipulators. Stream state. Performance. Well designed? I'm sure the truth is in the middle. (Also, I'm afraid there are many languages that can do just about the same, or better. You could just start with the languages with syntactic macro facilities, I guess.) –  sehe Dec 29 '12 at 22:47
2  
@sehe Yeah, manipulators are silly - why is octal number output a stream property? Because of that, every non-standard IO operation has to revert them to default, and then set it to previous value. I won't even comment on exception guarantees and multithreading capabilities of such solution. –  milleniumbug Dec 29 '12 at 23:15

It is probably possible to do this, but I feel that it's not the "right" usage of this feature in C++. The iostream >> and << operators are meant for fairly simple operations, such as wriitng the "name, street, town, postal code" of a class Person, not for parsing and loading images. That's much better done using the stream::read() - using Image(astream);, and you may implement a stream for compression, as descrtibed by Dietmar.

share|improve this answer
    
Actually the read() method of the stream is used inside the extraction operator to read the image data. But in the end it doesn't really matter if the stream is passed to the constructor, an operator or a method. The point is how to create such a custom stream. –  kayahr Dec 29 '12 at 22:34
    
Well, the real difference in my proposal is that you are not adding another operator >> for no real use [yes, it looks neat, but when you have 3-4-5 diferent image formats to support, it will get VERY messy]. You could even hide the stream inside the image class. –  Mats Petersson Dec 29 '12 at 22:37
    
operator>> is probably not the answer for an image file. In fact, the iostream idiom is probably not appropriate for large, structured binary data; you need something else. On the other hand, if you have new, user defined types, which parse text data, operator>> works very well. In my experience, in most applications, almost all >> will be to user defined types. –  James Kanze Dec 29 '12 at 22:46

I agree with @DeadMG and wouldn't recommend using iostreams. Apart from poor design the performance is often worse than that of plain old C-style I/O. I wouldn't stick to a particular I/O library though, instead, I'd create an interface (abstract class) that has all required operations, for example:

class Input {
 public:
  virtual void read(char *buffer, size_t size) = 0;
  // ...
};

Then you can implement this interface for C I/O, iostreams, mmap or whatever.

share|improve this answer

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