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# lfolv's solution

## to Rational Numbers in the JavaScript Track

Published at Apr 06 2021 · 0 comments
Instructions
Test suite
Solution

A rational number is defined as the quotient of two integers `a` and `b`, called the numerator and denominator, respectively, where `b != 0`.

The absolute value `|r|` of the rational number `r = a/b` is equal to `|a|/|b|`.

The sum of two rational numbers `r₁ = a₁/b₁` and `r₂ = a₂/b₂` is `r₁ + r₂ = a₁/b₁ + a₂/b₂ = (a₁ * b₂ + a₂ * b₁) / (b₁ * b₂)`.

The difference of two rational numbers `r₁ = a₁/b₁` and `r₂ = a₂/b₂` is `r₁ - r₂ = a₁/b₁ - a₂/b₂ = (a₁ * b₂ - a₂ * b₁) / (b₁ * b₂)`.

The product (multiplication) of two rational numbers `r₁ = a₁/b₁` and `r₂ = a₂/b₂` is `r₁ * r₂ = (a₁ * a₂) / (b₁ * b₂)`.

Dividing a rational number `r₁ = a₁/b₁` by another `r₂ = a₂/b₂` is `r₁ / r₂ = (a₁ * b₂) / (a₂ * b₁)` if `a₂` is not zero.

Exponentiation of a rational number `r = a/b` to a non-negative integer power `n` is `r^n = (a^n)/(b^n)`.

Exponentiation of a rational number `r = a/b` to a negative integer power `n` is `r^n = (b^m)/(a^m)`, where `m = |n|`.

Exponentiation of a rational number `r = a/b` to a real (floating-point) number `x` is the quotient `(a^x)/(b^x)`, which is a real number.

Exponentiation of a real number `x` to a rational number `r = a/b` is `x^(a/b) = root(x^a, b)`, where `root(p, q)` is the `q`th root of `p`.

Implement the following operations:

• addition, subtraction, multiplication and division of two rational numbers,
• absolute value, exponentiation of a given rational number to an integer power, exponentiation of a given rational number to a real (floating-point) power, exponentiation of a real number to a rational number.

Your implementation of rational numbers should always be reduced to lowest terms. For example, `4/4` should reduce to `1/1`, `30/60` should reduce to `1/2`, `12/8` should reduce to `3/2`, etc. To reduce a rational number `r = a/b`, divide `a` and `b` by the greatest common divisor (gcd) of `a` and `b`. So, for example, `gcd(12, 8) = 4`, so `r = 12/8` can be reduced to `(12/4)/(8/4) = 3/2`.

Assume that the programming language you are using does not have an implementation of rational numbers.

## Setup

Go through the setup instructions for Javascript to install the necessary dependencies:

https://exercism.io/tracks/javascript/installation

## Requirements

Please `cd` into exercise directory before running all below commands.

Install assignment dependencies:

``````\$ npm install
``````

## Making the test suite pass

Execute the tests with:

``````\$ npm test
``````

In the test suites all tests but the first have been skipped.

Once you get a test passing, you can enable the next one by changing `xtest` to `test`.

## Submitting Solutions

Once you have a solution ready, you can submit it using:

``````exercism submit rational-numbers.js
``````

## Submitting Incomplete Solutions

It's possible to submit an incomplete solution so you can see how others have completed the exercise.

## Exercise Source Credits

### rational-numbers.spec.js

``````import { Rational } from './rational-numbers';

test('Add two positive rational numbers', () => {
const expected = new Rational(7, 6);
});

xtest('Add a positive rational number and a negative rational number', () => {
const expected = new Rational(-1, 6);
});

xtest('Add two negative rational numbers', () => {
const expected = new Rational(-7, 6);
});

const expected = new Rational(0, 1);
});
});

describe('Subtraction', () => {
xtest('Subtract two positive rational numbers', () => {
const expected = new Rational(-1, 6);
expect(new Rational(1, 2).sub(new Rational(2, 3))).toEqual(expected);
});

xtest('Subtract a positive rational number and a negative rational number', () => {
const expected = new Rational(7, 6);
expect(new Rational(1, 2).sub(new Rational(-2, 3))).toEqual(expected);
});

xtest('Subtract two negative rational numbers', () => {
const expected = new Rational(1, 6);
expect(new Rational(-1, 2).sub(new Rational(-2, 3))).toEqual(expected);
});

xtest('Subtract a rational number from itself', () => {
const expected = new Rational(0, 1);
expect(new Rational(1, 2).sub(new Rational(1, 2))).toEqual(expected);
});
});

describe('Multiplication', () => {
xtest('Multiply two positive rational numbers', () => {
const expected = new Rational(1, 3);
expect(new Rational(1, 2).mul(new Rational(2, 3))).toEqual(expected);
});

xtest('Multiply a negative rational number by a positive rational number', () => {
const expected = new Rational(-1, 3);
expect(new Rational(-1, 2).mul(new Rational(2, 3))).toEqual(expected);
});

xtest('Multiply two negative rational numbers', () => {
const expected = new Rational(1, 3);
expect(new Rational(-1, 2).mul(new Rational(-2, 3))).toEqual(expected);
});

xtest('Multiply a rational number by its reciprocal', () => {
const expected = new Rational(1, 1);
expect(new Rational(1, 2).mul(new Rational(2, 1))).toEqual(expected);
});

xtest('Multiply a rational number by 1', () => {
const expected = new Rational(1, 2);
expect(new Rational(1, 2).mul(new Rational(1, 1))).toEqual(expected);
});

xtest('Multiply a rational number by 0', () => {
const expected = new Rational(0, 1);
expect(new Rational(1, 2).mul(new Rational(0, 1))).toEqual(expected);
});
});

describe('Division', () => {
xtest('Divide two positive rational numbers', () => {
const expected = new Rational(3, 4);
expect(new Rational(1, 2).div(new Rational(2, 3))).toEqual(expected);
});

xtest('Divide a positive rational number by a negative rational number', () => {
const expected = new Rational(-3, 4);
expect(new Rational(1, 2).div(new Rational(-2, 3))).toEqual(expected);
});

xtest('Divide two negative rational numbers', () => {
const expected = new Rational(3, 4);
expect(new Rational(-1, 2).div(new Rational(-2, 3))).toEqual(expected);
});

xtest('Divide a rational number by 1', () => {
const expected = new Rational(1, 2);
expect(new Rational(1, 2).div(new Rational(1, 1))).toEqual(expected);
});
});

describe('Absolute value', () => {
xtest('Absolute value of a positive rational number', () => {
const expected = new Rational(1, 2);
expect(new Rational(1, 2).abs()).toEqual(expected);
});

xtest('Absolute value of a negative rational number', () => {
const expected = new Rational(1, 2);
expect(new Rational(-1, 2).abs()).toEqual(expected);
});

xtest('Absolute value of zero', () => {
const expected = new Rational(0, 1);
expect(new Rational(0, 1).abs()).toEqual(expected);
});
});

describe('Exponentiation of a rational number', () => {
xtest('Raise a positive rational number to a positive integer power', () => {
const expected = new Rational(1, 8);
expect(new Rational(1, 2).exprational(3)).toEqual(expected);
});

xtest('Raise a negative rational number to a positive integer power', () => {
const expected = new Rational(-1, 8);
expect(new Rational(-1, 2).exprational(3)).toEqual(expected);
});

xtest('Raise zero to an integer power', () => {
const expected = new Rational(0, 1);
expect(new Rational(0, 1).exprational(5)).toEqual(expected);
});

xtest('Raise one to an integer power', () => {
const expected = new Rational(1, 1);
expect(new Rational(1, 1).exprational(4)).toEqual(expected);
});

xtest('Raise a positive rational number to the power of zero', () => {
const expected = new Rational(1, 1);
expect(new Rational(1, 2).exprational(0)).toEqual(expected);
});

xtest('Raise a negative rational number to the power of zero', () => {
const expected = new Rational(1, 1);
expect(new Rational(-1, 2).exprational(0)).toEqual(expected);
});
});

describe('Exponentiation of a real number to a rational number', () => {
xtest('Raise a real number to a positive rational number', () => {
const expected = 16.0;
expect(new Rational(4, 3).expreal(8)).toEqual(expected);
});

xtest('Raise a real number to a negative rational number', () => {
expect(new Rational(-1, 2).expreal(9)).toBeCloseTo(0.33, 2);
});

xtest('Raise a real number to a zero rational number', () => {
const expected = 1.0;
expect(new Rational(0, 1).expreal(2)).toEqual(expected);
});
});

describe('Reduction to lowest terms', () => {
xtest('Reduce a positive rational number to lowest terms', () => {
const expected = new Rational(1, 2);
expect(new Rational(2, 4).reduce()).toEqual(expected);
});

xtest('Reduce a negative rational number to lowest terms', () => {
const expected = new Rational(-2, 3);
expect(new Rational(-4, 6).reduce()).toEqual(expected);
});

xtest('Reduce a rational number with a negative denominator to lowest terms', () => {
const expected = new Rational(-1, 3);
expect(new Rational(3, -9).reduce()).toEqual(expected);
});

xtest('Reduce zero to lowest terms', () => {
const expected = new Rational(0, 1);
expect(new Rational(0, 6).reduce()).toEqual(expected);
});

xtest('Reduce an integer to lowest terms', () => {
const expected = new Rational(-2, 1);
expect(new Rational(-14, 7).reduce()).toEqual(expected);
});

xtest('Reduce one to lowest terms', () => {
const expected = new Rational(1, 1);
expect(new Rational(13, 13).reduce()).toEqual(expected);
});
});``````
``````function calculategcd(a, b) {
if (!b) {
return a
}

return calculategcd(b, a % b)
}

export class Rational {
constructor(numerator, denominator) {
const gcd = calculategcd(numerator, denominator)

this.numerator = numerator / gcd === -0 ? 0 : numerator / gcd
this.denominator = denominator / gcd
}

return new Rational(
this.numerator * other.denominator + other.numerator * this.denominator,
this.denominator * other.denominator
)
}

sub(other) {
return new Rational(
this.numerator * other.denominator - other.numerator * this.denominator,
this.denominator * other.denominator
)
}

mul(other) {
return new Rational(
this.numerator * other.numerator,
this.denominator * other.denominator
)
}

div(other) {
return new Rational(
this.numerator * other.denominator,
this.denominator * other.numerator
)
}

abs() {
return new Rational(
Math.abs(this.numerator),
Math.abs(this.denominator)
)
}

exprational(n) {
if (n >= 0) {
return new Rational(
this.numerator ** n,
this.denominator ** n
)
}

return new Rational(
this.denominator * Math.abs(n),
this.numerator * Math.abs(n)
)
}

expreal(x) {
return Number((x ** (this.numerator / this.denominator)).toFixed(2))
}

reduce() {
return this
}
}``````

### What can you learn from this solution?

A huge amount can be learned from reading other people’s code. This is why we wanted to give exercism users the option of making their solutions public.

Here are some questions to help you reflect on this solution and learn the most from it.

• What compromises have been made?