The answer depends on whether you are just doing this to learn how files work or whether saving to the file is just incidental and you don't care how it works.
If you just want to get the stuff to save and restore and you don't care how it works then use a third party library. There are many many of them.
If you want to learn how to read and write things to files then you will need to make your own read and write functions. I have made a sample program that will explain how it works:
#include <string>
#include <fstream>
#include <iostream>
class Point
{
private:
int x;
int y;
public:
Point():x(0),y(0){}
Point(int x,int y):x(x),y(y){}
void write(std::ostream& f)
{
// We can just write out the bytes for x and y because
// they are primitive types stored in the class
f.write( (char*)&x, sizeof(x) );
f.write( (char*)&y, sizeof(y) );
}
void read(std::istream& f)
{
// We can just read the bytes directly into x and y because
// they are primitive types stored in the class
f.read( (char*)&x, sizeof(x) );
f.read( (char*)&y, sizeof(y) );
}
};
class Figure
{
private:
std::string name;
std::string type;
public:
Figure(){}
Figure(std::string name,std::string type):name(name),type(type){}
void write(std::ostream& f)
{
size_t size;
// we need to store the data from the string along with the size
// because to restore it we need to temporarily read it somewhere
// before storing it in the std::string (istream::read() doesn't
// read directly to std::string)
size = name.size();
f.write( (char*)&size, sizeof(size_t) );
f.write( (char*)name.c_str(), size );
size = type.size();
f.write( (char*)&size, sizeof(size_t) );
f.write( (char*)type.c_str(), size );
}
void read(std::istream& f)
{
size_t size;
char *data;
// when we read the string data we need somewhere to store it
// because we std::string isn't a primitive type. So we read
// the size, allocate an array, read the data into the array,
// load the std::string, and delete the array
f.read( (char*)&size, sizeof(size) );
data = new char[size+1];
f.read( data, size );
data[size]='';
name = data;
delete data;
f.read( (char*)&size, sizeof(size) );
data = new char[size+1];
f.read( data, size );
data[size]='';
type = data;
delete data;
}
};
class Triangle: public Figure
{
private:
Point p1, p2, p3;
public:
Triangle(){}
Triangle(Point x,Point y,Point z,Figure f):p1(x),p2(y),p3(z),Figure(f){}
void write(std::ostream& f)
{
// First write the base class then write the members of this class
Figure::write(f);
p1.write(f);
p2.write(f);
p3.write(f);
}
void read(std::istream& f)
{
// First read the base class then read the members of this class
Figure::read(f);
p1.read(f);
p2.read(f);
p3.read(f);
}
};
class BinaryFile
{
private:
std::string FileName;
std::fstream File;
public:
BinaryFile(std::string FileName) : FileName(FileName) {};
void WriteTriangle()
{
File.open(FileName, std::ios::binary | std::ios::out);
if(!File)
{
std::cerr<<"File error <"<<FileName<<">
";
exit(1);
}
Triangle trig({1,2},{3,4},{5,6},{"name","type"}); // something new
trig.write(File);
File.close();
}
Triangle ReadTriangle()
{
File.open(FileName, std::ios::binary | std::ios::in);
if(!File)
{
std::cerr<<"File error <"<<FileName<<">
";
exit(1);
}
Triangle trig; // default values
trig.read(File);
File.close();
return trig;
}
};
main()
{
BinaryFile bin("file.bin");
bin.WriteTriangle();
Triangle trig = bin.ReadTriangle();
// at this point trig has the values we stored
return 0;
}
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