/*
* Matt McCutchen's Big Integer Library
-*/
-
-/*
-* This sample program demonstrates the most important features of the Big Integer Library.
-* To get started quickly, read the code and explanations below. Then try the program out.
-*
-* If you want more detail or more speed or can't find a feature here, look in the
-* appropriate source file. This file shows only the more ``user-friendly'' features;
-* the other features are messier but worth learning eventually.
*
-* GO FORTH and play with many-digit numbers! (c.f. The TeXbook.)
+* Sample program demonstrating the most important features of the Big
+* Integer Library
*/
// Standard libraries
int main() {
try {
- std::cout << "=====\nBig Integer Library Demonstration" << std::endl;
-
BigInteger a; // a is 0
int b = 535;
a = b; // From int to BigInteger...
b = a; // ...and back, no casts required!
/*
- * If a were too big for an int you'd get a runtime exception. The Big Integer Library
- * throws C-strings (that is, `const char *'s) when something goes wrong. It's a good
- * idea to catch them; the `try/catch' construct wrapping all this code is an example
- * of how to do this. Some C++ compilers need a special command-line option to compile
- * code that uses exceptions.
+ * If a were too big for an int you'd get a runtime exception.
+ * The Big Integer Library throws C-strings (that is,
+ * `const char *'s) when something goes wrong. It's a good idea
+ * to catch them; the `try/catch' construct wrapping all this
+ * code is an example of how to do this. Some C++ compilers need
+ * a special command-line option to compile code that uses
+ * exceptions.
*/
BigInteger c(a); // Copy a BigInteger.
- BigInteger d(-314159265); // c is -314159265. The `int' literal is converted to a BigInteger.
+ // d is -314159265. The `int' literal is converted to a
+ // BigInteger.
+ BigInteger d(-314159265);
- // Ahem: that's too big to be an `int' literal (or even a `long' literal)!
- // Disillusion yourself now -- this won't compile.
+ // This won't compile because the number is too big to be an
+ // integer literal.
//BigInteger e(3141592653589793238462643383279);
+ // Instead you can convert the number from a string.
std::string s("3141592653589793238462643383279");
BigInteger f = easyStringToBI(s);
- // Ah. The string is converted to a BigInteger, and strings can be as long as you want.
- std::string s2 = easyBItoString(f); // You can convert the other way too.
+ // You can convert the other way too.
+ std::string s2 = easyBItoString(f);
- std::cout << f << std::endl; // f is stringified and send to std::cout.
+ // f is stringified and send to std::cout.
+ std::cout << f << std::endl;
/*
* Let's do some math!
*
* The Big Integer Library provides lots of overloaded operators
* and corresponding assignment operators. So you can do `a + b'
- * with big integers just as with normal integers. The named
+ * with BigIntegers just as with normal integers. The named
* methods `add', `divideWithRemainder', etc. are more advanced
* ``put-here operations''; see `BigUnsigned.hh' for details.
*/
std::cout << (g + h) << '\n' << (g - h) << '\n' << (g * h)
<< '\n' << (g / h) << '\n' << (g % h) << std::endl;
- std::cout << "=====\nTest code" << std::endl;
+ // Let's do some heavy lifting and calculate powers of 314.
+ int maxPower = 10;
+ BigUnsigned x(1), big314(314);
+ for (int power = 0; power <= maxPower; power++) {
+ std::cout << "314^" << power << " = " << x << std::endl;
+ x *= big314; // A BigInteger assignment operator
+ }
/*
* If you want to experiment with the library,
- * put your own test code here.
+ * you can add your own test code here.
*/
-
- /*
- * (End of test code)
- */
-
- // Let's do some heavy lifting.
- std::cout << "=====\nPowers of 3" << std::endl;
- std::cout << "How many do you want?" << std::endl;
- int maxPower;
- std::cin >> maxPower;
-
- BigUnsigned x(1), three(3);
- for (int power = 0; power <= maxPower; power++) {
- std::cout << "3^" << power << " = " << x << std::endl;
- x *= three; // A BigInteger assignment operator
- }
-
- std::cout << "There you go. Goodbye.\n=====" << std::endl;
+ // std::cout << "Beginning of custom test code:\n" << std::endl;
} catch(char const* err) {
- std::cout << "=====\nSorry, the library threw an exception:\n"
+ std::cout << "The library threw an exception:\n"
<< err << std::endl;
}
}
/*
-* Here is the output of a sample run of this sample program:
+Running the sample program produces this output:
3141592653589793238462643383279
314424
83252135
1185
134
-Powers of 3
-How many do you want?
-2
-3^0 = 1
-3^1 = 3
-3^2 = 9
-There you go. Goodbye.
+314^0 = 1
+314^1 = 314
+314^2 = 98596
+314^3 = 30959144
+314^4 = 9721171216
+314^5 = 3052447761824
+314^6 = 958468597212736
+314^7 = 300959139524799104
+314^8 = 94501169810786918656
+314^9 = 29673367320587092457984
+314^10 = 9317437338664347031806976
*/