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This is my function which creates a binary file

void writefile()
    ofstream myfile ("data.abc", ios::out | ios::binary);
    streamoff offset = 1;
        char c='A';
        myfile.write(&c, offset );
        myfile.write(&c, offset );
        myfile.write(StartAddr,streamoff (16) );
         cout << "Some error" << endl ;

The value of StartAddr is 1000, hence the expected output file is: A B C 1000 NUL NUL NUL

However, strangely my output file appends this: data.abc

So the final outcome is: A B C 1000 NUL NUL NUL data.abc

Please help me out with this. How to deal with this? Why is this strange behavior?

share|improve this question
Where is StartAddr defined? – GManNickG Mar 23 '11 at 21:04
StartAddr is a constant pointer. Declared as const char * StartAddr = "1000" – Sadiq Mar 23 '11 at 21:23
So that's a pointer to the first element in an array 5 bytes in size, yet you print 16 bytes. It's only by luck you don't crash. – GManNickG Mar 23 '11 at 21:25
@GMan:: I get it. But what is the solution to my problem. I want the 1000 to be written as an unsigned int. But the myfile.write method takes constant pointer as argument. What to do about this? – Sadiq Mar 23 '11 at 21:35
@user: Use the correct data types. const unsigned StartAddr = 1000; myfile.write(reinterpret_cast<const char*>(&StartAddr), sizeof(StartAddr));. – GManNickG Mar 23 '11 at 21:40
up vote 1 down vote accepted

There are several issues with this code.

For starters, if you want to write individual characters t a stream, you don't need to use ostream::write. Instead, just use ostream::put, as shown here:


Second, if you want to write out a string into a file stream, just use the stream insertion operator:

myfile << StartAddr;

This is perfectly safe, even in binary mode.

As for the particular problem you're reporting, I think that the issue is that you're trying to write out a string of length four (StartAddr), but you've told the stream to write out sixteen bytes. This means that you're writing out the four bytes for the string contents, then the null terminator, and then nine bytes of whatever happens to be in memory after the buffer. In your case, this is two more null bytes, then the meaningless text that you saw after that. To fix this, either change your code to write fewer bytes or, if StartAddr is a string, then just write it using <<.

share|improve this answer
What if want to write the value 1000 in 2 bytes? – Sadiq Mar 23 '11 at 21:17
@user: how would you want the 1000 represented? – rubenvb Mar 23 '11 at 21:29
See the problem is i want 1000 to be an unsigned integer. But the argument in myfile.write (const char *,n) takes a pointer and the size in bytes. I want to be able to write 1000 as an unsigned integer. – Sadiq Mar 23 '11 at 21:32
@user667389: You would have to convert 1000 into two bytes: byte1 = 1000/256; byte2 = 1000 % 256; myfile.put(byte1); myfile.put(byte2); – Thomas Matthews Mar 23 '11 at 21:34

I recommend you quit with binary writing and work on writing the data in a textual format. You've already encountered some of the problems with writing data. There are still issues for you to come across about reading the data and portability. Expect more pain if you continue this route.

Use textual representations. For simplicity you can put one field per line and use std::getline to read it in. The textual representation allows you to view the data in any text editor, easily. Try using Notepad to view a binary file!

Oh, but binary data is soo much faster and takes up less space in the file. You've already wasted enough time and money than you would gain by using binary data. The speed of computers and huge memory capacities (disk and RAM) make binary representations a thing of the past (except in extreme cases).

As a learning tool, go ahead and use binary. For ease of development and quick schedules (IOW, finishing early), use textual representations.

Search Stack Overflow for "C++ micro optimization" for the justifications.

share|improve this answer

With the line myfile.write(StartAddr,streamoff (16) ); you are instructing the myfile object to write 16 bytes to the stream starting at the address StartAddr. Imagine that StartAddr is an array of 16 bytes:

char StartAddr[16] = "1000\0\0\0data.b32\0";
myfile.write(StartAddr, sizeof(StartAddr));

Would generate the output that you see. Without seeing the declaration / definition of StartAddr I cannot say for certain, but it appears you are writing out a five byte nul terminated string "1000" followed by whatever happens to reside in the next 11 bytes after StartAddr. In this case, it appears a couple of nul bytes followed by the constant nul terminated string "data.b32" (which the compiler must put somewhere in memory) are what follow StartAddr.

Regardless, it is clear that you overread a buffer.

If you are trying to write a 16 bit integer type to a stream you have a couple of options, both based on the fact that there are typically 8 bits in a byte. The 'cleanest' one would be something like:

char x = (StartAddr & 0xFF);
x = (StartAddr >> 8);

This assumes StartAddr is a 16 bit integer type and does not take into account any translation that might occur (such as potential conversion of a value of 10 [a linefeed] into a carriage return / linefeed sequence).

Alternatively, you could write something like:

myfile.write(reinterpret_cast<char*>(&StartAddr), sizeof(StartAddr));
share|improve this answer
How is that possible: The sizeof StartAddr array is 16 Bytes here, isnt it??? We are trying to talk about 16 bits here. – Sadiq Mar 23 '11 at 21:22
If you want to write a 16 bit integer type to a stream as binary, you would need to write it as 2 bytes, not 16 bits (as you don't conceptually write bits to a stream, just bytes). – CasaDeRobison Mar 23 '11 at 21:24
But then it gets truncated to 10. And thats the problem. – Sadiq Mar 23 '11 at 21:30
I've edited it above to show two different ways you might write an unsigned integer (assuming appropriate declarations) to a stream of characters in a binary fashion. C++ streams really aren't intended for binary data. You can use them that way, but it involves a bunch of type casting / converting. PLUS it involves issues of endianness. Does the least significant byte come first or last? These are issues well beyond the original question, though I've tried to provide examples above. – CasaDeRobison Mar 23 '11 at 21:40

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