ðŸŽ‰ Exercism Research is now launched. Help Exercism, help science and have some fun at research.exercism.io ðŸŽ‰

# flaviozorzetto's solution

## to Largest Series Product in the JavaScript Track

Published at Feb 04 2021 · 0 comments
Instructions
Test suite
Solution

Given a string of digits, calculate the largest product for a contiguous substring of digits of length n.

For example, for the input '1027839564', the largest product for a series of 3 digits is 270 (9 * 5 * 6), and the largest product for a series of 5 digits is 7560 (7 * 8 * 3 * 9 * 5).

Note that these series are only required to occupy adjacent positions in the input; the digits need not be numerically consecutive.

For the input '73167176531330624919225119674426574742355349194934', the largest product for a series of 6 digits is 23520.

## 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 largest-series-product.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

A variation on Problem 8 at Project Euler http://projecteuler.net/problem=8

### largest-series-product.spec.js

import { largestProduct } from './largest-series-product';

describe('Largest Series Product', () => {
test('finds the largest product if span equals length', () => {
expect(largestProduct('29', 2)).toEqual(18);
});

xtest('can find the largest product of 2 with numbers in order', () => {
expect(largestProduct('0123456789', 2)).toEqual(72);
});

xtest('can find the largest product of 2', () => {
expect(largestProduct('576802143', 2)).toEqual(48);
});

xtest('can find the largest product of 3 with numbers in order', () => {
expect(largestProduct('0123456789', 3)).toEqual(504);
});

xtest('can find the largest product of 3', () => {
expect(largestProduct('1027839564', 3)).toEqual(270);
});

xtest('can find the largest product of 5 with numbers in order', () => {
expect(largestProduct('0123456789', 5)).toEqual(15120);
});

xtest('can get the largest product of a big number', () => {
expect(
largestProduct('73167176531330624919225119674426574742355349194934', 6)
).toEqual(23520);
});

xtest('reports zero if the only digits are zero', () => {
expect(largestProduct('0000', 2)).toEqual(0);
});

xtest('reports zero if all spans include zero', () => {
expect(largestProduct('99099', 3)).toEqual(0);
});

xtest('rejects span longer than string length', () => {
expect(() => largestProduct('123', 4)).toThrow(
new Error('Span must be smaller than string length')
);
});

xtest('reports 1 for empty string and empty product (0 span)', () => {
expect(largestProduct('', 0)).toEqual(1);
});

xtest('reports 1 for nonempty string and empty product (0 span)', () => {
expect(largestProduct('123', 0)).toEqual(1);
});

xtest('rejects empty string and nonzero span', () => {
expect(() => largestProduct('', 1)).toThrow(
new Error('Span must be smaller than string length')
);
});

xtest('rejects invalid character in digits', () => {
expect(() => largestProduct('1234a5', 2)).toThrow(
new Error('Digits input must only contain digits')
);
});

xtest('rejects negative span', () => {
expect(() => largestProduct('12345', -1)).toThrow(
new Error('Span must be greater than zero')
);
});
});
//
// This is only a SKELETON file for the 'Largest Series Product' exercise. It's been provided as a
// convenience to get you started writing code faster.
//

export const largestProduct = (series, len) => {
if(len == 0){
return 1
} else if( len < 0){
throw new Error('Span must be greater than zero')
} else if((series.split('').length < len)){
throw new Error('Span must be smaller than string length')
} else if(/[^\d]/.test(series)){
throw new Error('Digits input must only contain digits')
} else {
let arr = series
let result = []
let re = new RegExp('.{' + len + '}')
do{
result.push(arr.match(re)[0].split('').map(e => { return parseInt(e) }))
arr = arr.split('').slice(1).join('')
} while (arr.split('').length >= len)
result = result.map(e => { return e.reduce((acc, val) => acc * val)})
return result.sort((a,b) => a - b).reverse()[0]
}
};

### What can you learn from this solution?

A huge amount can be learned from reading other peopleâ€™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?