Question
Need help with this assignment largenum.h #include #include using namespace std; class LargeNum { // output number with a comma after ever 3 digits, //
Need help with this assignment
largenum.h
#include
#include
using namespace std;
class LargeNum {
// output number with a comma after ever 3 digits,
// e.g. 1234567890 -> 1,234,567,890
friend ostream &operator
private:
// Define private data members and methods here
public:
// default constructor from string
explicit LargeNum(const string &str = "0");
// constructor from int
explicit LargeNum(int anInteger);
// use the default copy constructor
LargeNum(const LargeNum &other) = default;
// use the default copy assignment operator
LargeNum &operator=(const LargeNum &other) = default;
// use the default destructor
~LargeNum() = default;
// returns true if the number is zero
bool isZero() const;
// negate the number, positive becomes negative, negative becomes positive
// Zero is always positive
LargeNum &negate();
// add two numbers
LargeNum operator+(const LargeNum &rhs) const;
// subtract two numbers
LargeNum operator-(const LargeNum &rhs) const;
// multiply two numbers
LargeNum operator*(const LargeNum &rhs) const;
// divide two numbers. rhs is the divisor
// similar to integer division, ignore remainder
LargeNum operator/(const LargeNum &rhs) const;
// return true if the numbers are equal
bool operator==(const LargeNum &rhs) const;
// return true if the numbers are not equal
bool operator!=(const LargeNum &rhs) const;
// return true if the left-hand-side number is less than the
// right-hand-side number
bool operator
// return true if the left-hand-side number is greater than the
// right-hand-side number
bool operator>(const LargeNum &rhs) const;
// return true if the left-hand-side number is less than or equal to the
// right-hand-side number
bool operator
// return true if the left-hand-side number is greater than or equal to the
// right-hand-side number
bool operator>=(const LargeNum &rhs) const;
// prefix increment
LargeNum &operator++();
// postfix increment
LargeNum operator++(int);
// prefix decrement
LargeNum &operator--();
// postfix decrement
LargeNum operator--(int);
};
main.cpp
#include "largenum.h"
#include
#include
#include
using namespace std;
// check printing and addition
void test1() {
// stringstream strs;
// LargeNum num0("1234567890123456789");
// strs
// assert(strs.str() == "1,234,567,890,123,456,789");
// strs.str("");
// LargeNum num1(12345);
// strs
// assert(strs.str() == "12,345");
// strs.str("");
// LargeNum num2(11115);
// LargeNum num3 = num1 + num2;
// strs
// assert(strs.str() == "23,460");
// strs.str("");
// LargeNum num4(99);
// LargeNum num5 = num1 + num4;
// strs
// assert(strs.str() == "12,444");
// strs.str("");
// LargeNum num6(99000);
// LargeNum num7 = num1 + num6;
// strs
// assert(strs.str() == "111,345");
// cout
}
// check comparator operators
void test2() {
// assert(LargeNum(99) == LargeNum(99) && LargeNum(99) != LargeNum(100));
// assert(LargeNum(99) > LargeNum(7) && LargeNum(7)
// assert(LargeNum(105) >= LargeNum(100) && LargeNum(100)
// assert(LargeNum(99) > LargeNum(-7) && LargeNum(-7)
// assert(LargeNum(-5) > LargeNum(-10) && LargeNum(-10)
// assert(!(LargeNum(5) > LargeNum(5)));
// cout
}
// check negative numbers
void test3() {
// stringstream strs;
// LargeNum num0("-1234567890123456789");
// strs
// assert(strs.str() == "-1,234,567,890,123,456,789");
// strs.str("");
// LargeNum num1(-12345);
// strs
// assert(strs.str() == "-12,345");
// strs.str("");
// LargeNum numZero(-0000);
// strs
// assert(strs.str() == "0");
// assert(LargeNum(0).isZero() && LargeNum(-0).isZero());
// assert(LargeNum(0) == LargeNum(-0));
// assert(LargeNum(0).negate() == LargeNum(-0));
// assert(LargeNum(100) - LargeNum(100) == LargeNum(0));
// assert(LargeNum(100) + LargeNum(-100) == LargeNum(0));
// assert(LargeNum(100) - LargeNum(-100) == LargeNum(200));
// assert(LargeNum(-100) - LargeNum(-100) == LargeNum(0));
// assert(LargeNum(-100) + LargeNum(100) == LargeNum(0));
// assert(LargeNum(100) - LargeNum(7) == LargeNum(93));
// assert(LargeNum(7) - LargeNum(100) == LargeNum(-93));
// assert(LargeNum(-7) + LargeNum(-100) == LargeNum(-107));
// cout
}
// check multiplication
void test4() {
// assert(LargeNum(25) * LargeNum(0) == LargeNum(0));
// assert(LargeNum(25) * LargeNum(5) == LargeNum(125));
// assert(LargeNum(-25) * LargeNum(-5) == LargeNum(125));
// assert(LargeNum(-25) * LargeNum(5) == LargeNum(-125));
// assert(LargeNum(25) * LargeNum(-5) == LargeNum(-125));
// assert(LargeNum("123456789123456789") * LargeNum("123456789123456789") ==
// LargeNum("15241578780673678515622620750190521"));
// cout
}
// check division
// use small numbers to avoid excessive computation
void test5() {
// assert(LargeNum(0) / LargeNum(5) == LargeNum(0));
// assert(LargeNum(25) / LargeNum(5) == LargeNum(5));
// assert(LargeNum(-25) / LargeNum(-5) == LargeNum(5));
// assert(LargeNum(-25) / LargeNum(5) == LargeNum(-5));
// assert(LargeNum(25) / LargeNum(-5) == LargeNum(-5));
// assert(LargeNum("25") / LargeNum("7") == LargeNum("3"));
// assert(LargeNum("7") / LargeNum("25") == LargeNum("0"));
// cout
}
// check prefix and postfix operators
void test6() {
// LargeNum num0(10);
// assert(num0++ == LargeNum(10));
// assert(num0 == LargeNum(11));
// assert(--num0 == LargeNum(10));
// assert(num0-- == LargeNum(10));
// assert(num0 == LargeNum(9));
// assert(++num0 == LargeNum(10));
// assert(num0-- == LargeNum(10));
// assert(num0 == LargeNum(9));
// num0.negate();
// assert(++num0 == LargeNum(-8));
// assert(--num0 == LargeNum(-9));
// LargeNum num1(1);
// assert(--num1 == LargeNum(0));
// assert(--num1 == LargeNum(-1));
// assert(++num1 == LargeNum(0));
// cout
}
// run all tests
int main() {
test1();
test2();
test3();
test4();
test5();
test6();
cout
}
largenum.cpp
#include "largenum.h"
#include
#include
#include
using namespace std;
// Your code goes here
Design and implement LargeNum class which can be used to represent arbitrarily large numbers and operations on them. Accept the assignment and create your own private GitHub repository with the started code by clicking on this link .. Do not change the repository name or make it public. file is provided for you. You must implement all the public functions that have been defined. file includes a series of tests to help guide your design and development. Design Choices You have several design choices. Most important choice is how will you store the digits internally. One possibility is using class. Strings can be as long as needed, provide easy access to each index, have and functions to expand and shrink as needed. You may also want to store the digits in reverse order internally so index-0 of two large numbers correspond to the ones unit. For example, storing 12345 and 789 internally as "54321" and "987" means one's digit is at index-0 corresponding to 5 and 9 respectively which will make it easier when adding them. How do we differentiate between positive and negative numbers? I suggest having a boolean variable, that is set to by default. If the number is negated, the variable can be flipped. The number zero is a special case. We will define zero to be a positive number and make sure it is always treated as a positive number. I suggest starting the assignment by commenting almost everything and completing the minimum functions necessary for passing test1. Once your program successfully completes test1, you can then proceed to satisfy additional tests. This is similar to test-driven development, but in this case the tests are provided for youStep by Step Solution
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