Opening files on the filesystem at runtime doesn't require any mention of that file's name in the source code. (You could, for instance, ask the user for a filename, and then open it just fine!)
The case where you might
#include data in your source would be if you wanted to have that data embedded into the executable of your program (and thus not rely on a file that was on the filesystem when running). But to do that, you have to format your file as a valid C++ data declaration. So it would not be a
.txt file at that point.
For instance, in strings.cpp
// See http://stackoverflow.com/questions/1135841/c-multiline-string-literal
std::string myData =
Then in your main program:
using namespace std;
int main (int nNumberOfArgs, char* pszArgs)
istringstream in (myData);
// Note: "sz" is shorthand for "string terminated by zero"
// C++ std::strings are *not* null terminated, and can actually
// legally have embedded nulls. Unfortunately, C++ does
// have to deal with both kinds of strings (such as with the
// zero-terminated array of char*s passed as pszArgs...)
// Note: >> is the "extractor"
in >> x >> str;
// Note: << is the "inserter"
cout << x << "\n" << str << "\n";
Generally speaking, just
#include-ing a source file like this is not the way you want to do things. You'll quickly run into trouble if you do that in more than one file in your project (duplicate declarations of myData). So the usual trick is to separate things into header files and implementation files...including the headers as many times as you want, but only putting one copy of the implementation into your build process.