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I'd like to read a file into a struct or class, but after some reading i've gathered that its not a good idea to do something like:

int MyClass::loadFile( const char *filePath ) {

            ifstream file ( filePath, ios::in | ios::binary );

            file.read ((char*)this, 18);

            file.close();

            return 0;

        }

I'm guessing if i want to write a file from a struct/class this isn't kosher either:

void MyClass::writeFile( string fileName ) {

        ofstream file( fileName, ofstream::binary ); 

        file.write((char*)this, 18);

        file.close();

    }

It sounds like the reason i don't want to do this is because even if the data members of my struct add up to 18 bytes, some of them may be padded with extra bytes in memory. Is there a more correct/elegant way to get a file into a class/struct like this?

share|improve this question
    
The only real solution is to write the individual fields one by one. Mind endianness, or even better, transform each field to a humanly-readable representation (eg. number 42 yields the string "42") before writing it, so that your file can be manually edited in a standard text editor. –  syam Jul 26 '13 at 23:21

3 Answers 3

up vote 0 down vote accepted

The preferred general technique is called serialization.

It is less brittle than a binary representation. But it has the overhead of needing to be interpreted. The standard types work well with serialization and you are encouraged to make your class serialize so that a class containing your class can easily be serialized.

class MyClass {
     int x;
     float y;
     double z;
     friend std::ostream& operator<<(std::ostream& s, MyClass const& data);
     friend std::istream& operator>>(std::istream& s, MyClass& data);
};

std::ostream& operator<<(std::ostream& s, MyClass const& data)
{
    // Something like this
    // Be careful with strings (the input>> and output << are not symmetric unlike other types)
    return str << data.x << " " << data.y << " " << data.z << " ";
}

// The read should be able to read the version printed using <<
std::istream& operator>>(std::istream& s, MyClass& data)
{
    // Something like this
    // Be careful with strings.
    return str >> data.x >> data.y >> data.z;
}

Usage:

int main()
{
    MyClass   plop;
    std::cout << plop;  // write to a file
    std::cin  >> plop;  // read from a file.


    std::vector<MyClass>  data;

    // Read a file with multiple objects into a vector.
    std::ifstream  loadFrom("plop");
    std::copy(std::istream_iterator<MyClass>(loadFrom), std::istream_iterator<MyClass>(),
              std::back_inserter(data)
             );


    // Write a vector of objects to a file.
    std::ofstream   saveTo("Plip");
    std::copy(data.begin(), data.end(), std::ostream_iterator<MyClass>(saveTo));

    // Note: The stream iterators (std::istream_iterator) and (std::ostream_iterator)
    //       are templatized on your type. They use the stream operators (operator>>)
    //       and (operator<<) to read from the stream.
}
share|improve this answer
    
Thanks, I really appreciate this. I have seen serialization pop up a lot in my searches about this, but its always someone recommending the boost library. I really hate not knowing exactly whats going on under the hood so i'm avoiding using other libraries until i understand c++ better. I think now I'll be taking a good look at this code and some tutorials on serialization. Thanks again! –  Robby Allsopp Jul 29 '13 at 22:32
    
I suppose i should have mentioned this in my post, but i'm working with bitmaps and wave files. Would that change your answer or is serialization still the way to go? –  Robby Allsopp Jul 29 '13 at 22:35
    
@RobbyAllsopp: If you have specific file formats; then you need to follow the specification for those formats. You can not assume the memory lay out used by the compiler will match exactly to file format. So you will usually write each element specifically, which usually means that you have to write specific binary sizes (not sizeof(int)). You probably need to make sure things like integers are in network byte order (see specifications to be sure) see htonl and family. –  Loki Astari Jul 30 '13 at 4:53
    
Yes I've found the specs for these files. The code i posted i started writing to read a bitmap file, and according to the spec I can count on the first 18 bytes to have the same info for any bitmap. Reading each element specifically seems to work fine like: [code]file.read ((char*)&bmp_id, 2); file.read ((char*)&bmp_size, 4);[/code], etc. Would serialization be any better than this? It keeps seeming overly complicated to me. –  Robby Allsopp Jul 30 '13 at 20:58
    
In this case serialization is NOT the technique you want. –  Loki Astari Jul 30 '13 at 23:58

The answer is : there is no silver bullet to this problem.

One way you can eliminate the padding to ensure that the data members in your class is to use(in MSVC which you are using)

#pragma pack( push, 1 )

class YourClass {
    // your data members here
    int Data1;
    char Data2;
    // etc...
};

#pragma pack( pop )

The main usefulness of this approach is if your class matches a predefined format such as a bitmap header. If it is a general purpose class to represent a cat, dog, whatever then dont use this approach. Other thing if doing this is to make sure you know the length in bytes of the data types for your compiler, if your code is EVER going to be multi platform then you should use explicit sizes for the members such as __int32 etc.

If this is a general class, then in your save member, each value should be written explicitly. A tip to do this is to create or get from sourceforge or somewhere good code to help do this. Ideally, some code that allows the member to be named, I use something similar to :

SET_WRITE_DOUBLE( L"NameOfThing", DoubleMemberOfClass );
SET_WRITE_INT( L"NameOfThing2", IntMemberOfClass );
// and so on...

I created the code behind these macros, which I am not sharing for now but a clever person can create their own code to save named to stream in an unordered-set. This I have found is the perfect approach because if you add or subtract data members to your class, the save/load is not dependent on the binary representation and order of your save, as your class will doubtless evolve through time if you save sequentially this is a problem you will face.

I hope this helps.

share|improve this answer

Well... this can be ok, occasionally. But it is dangerous if you don't know what you're doing, or someone comes in and wants to modify something. It'd probably be best to read / write your individual member variables one at a time.

file.read( &m_fMyFloat, sizeof( float ) );
file.read( &m_nMyIntA, sizeof( int ) );
file.read( &m_nMyIntB, sizeof( int ) );

etc, etc...

Padding can be included, yes... but it's really uncommon to have padding between the variables themselves. The more common issue is that if your class derives from another, you'll be read/writing over the virtual table of that class. This is a really bad and somewhat sneaky problem!! It's the same reason you should avoid using any ZeroMemory methods on a this pointer.

So basically, just use a standard pattern of reading/writing your individual member variables. It's much safer for the case you're trying to cover.

If you really, really, really want to read in a single block... use an allocated block of memory, or a fixed sized array as a member of your class and read/write that. Then setup a very basic struct which represents the layout of variables within that block of memory, and use a pointer of that type to read or modify the content it contains.

share|improve this answer
    
Rather than dangerous. I would use the term brittle. And your suggested technique is just as brittle as it assumes information about the types that C++ does not guarantee. endianess/size/representation. –  Loki Astari Jul 26 '13 at 23:40
    
Well, yes... it breaks easily for sure. But it's also dangerous in the sense that you could write over vital memory causing all kinds of random badness to occur, and potential creating security holes in your application... or cause data corruption somewhere. Either way, it's bad. –  Mattingly Jul 26 '13 at 23:44
    
@LokiAstari It doesn't assume anything... it's just not a topic covered in this question. Endianness would be adjusted after reading, as necessary... and size would be validated by the type, potentially writing out the size as one of your serialized values, if need be. This wasn't part of his question... so it wasn't part of the answer. –  Mattingly Jul 26 '13 at 23:47

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