Are you entering a question or answer that's too long for one of your buffers? I'd bet you are, and it's overrunning the bounds of the class and corrupting the stack. Also, mixing cin and cout and the C style IO functions like gets is asking for trouble, so don't.
Since you're using C++, you don't have to do string manipulation as character arrays. There is a STL class that handles all of the memory crap for you. I'd rewrite your class in the following way:
string option1, option2, option3, option4;
void write(fstream& f)
f << ques.length() << " " << ques << endl
<< option1.length() << " " << option1 << endl
<< option2.length() << " " << option2 << endl
<< option3.length() << " " << option3 << endl
<< option4.length() << " " << option4 << endl
<< k << " " << quesno << endl;
and your function in the following way:
cout << "Enter Question!" << endl;
getline (cin, abc.ques);
cout << "Enter Options!\n";
cout << "Enter correct option number: ";
cin >> abc.k;
cout << "Enter question number: ";
cin >> abc.quesno;
// you will have to change your writing method a bit because you can't just write the string object straight to disk like you were before
You should then be able to read one into a stream with the extraction operator in more or less the same way write works.
Ascii to Binary
Since you have to use binary, you can store the integer values as binary values in the following way:
int i = ques.length();
fout.write((const char *) &i, sizeof(i));
This will write the 32 bit integer value directly to the stream without converting it to a string first. Your strings will then have the following format:
+ 0x0 0x1 0x2 0x3 0x4 0x5 0x6 0x7
0x0 [0x00 0x00 0x00 0xC0 ][H E L L
0x8 O <space> W O R L D <null> ]
The length is the first 4 bytes, shown here as 0x0000000C (integer value 12). The string follows immediately, and has the value "HELLO WORLD\0". \0 is the null terminator. In my example, this length includes the null terminator.
Sizeof is an operator that produces the size in memory of the specified type as best as the compiler can determine. For integral types, such as int, short, char, etc, it will return the number of bytes used by the type. For arrays, you might run into confusing behavior. If called on an array declared statically to be of a fixed size, sizeof will return the array's length * the size of one element.
sizeof(derp); // sizeof(int) * 1000
If the compiler does not know how big the array is, what you will get is the size of a pointer to the first element. So be careful. You can't use sizeof on a pointer to determine array size.
sizeof(derp2); // sizeof(int *), probably 4 or 8
int * derp3 = derp;
sizeof(derp3); // sizeof(int *), probably 4 or 8
To get the length of a std::string (the STL string class), use the length member:
string hurr = "hello world";
hurr.length(); // does NOT include the null terminator
// length of string AND terminator is hurr.length() + 1