Avatar of artemkorsakov

artemkorsakov's solution

to Space Age in the Go Track

Published at Jan 31 2019 · 0 comments
Test suite


This exercise has changed since this solution was written.

Given an age in seconds, calculate how old someone would be on:

  • Earth: orbital period 365.25 Earth days, or 31557600 seconds
  • Mercury: orbital period 0.2408467 Earth years
  • Venus: orbital period 0.61519726 Earth years
  • Mars: orbital period 1.8808158 Earth years
  • Jupiter: orbital period 11.862615 Earth years
  • Saturn: orbital period 29.447498 Earth years
  • Uranus: orbital period 84.016846 Earth years
  • Neptune: orbital period 164.79132 Earth years

So if you were told someone were 1,000,000,000 seconds old, you should be able to say that they're 31.69 Earth-years old.

If you're wondering why Pluto didn't make the cut, go watch this youtube video.

No Stub

This may be the first Go track exercise you encounter without a stub: a pre-existing space_age.go file for your solution. You may not see stubs in the future and should begin to get comfortable with creating your own Go files for your solutions.

One way to figure out what the function signature(s) you would need is to look at the corresponding *_test.go file. It will show you what the package level functions(s) should be that the test will use to verify the solution.

Running the tests

To run the tests run the command go test from within the exercise directory.

If the test suite contains benchmarks, you can run these with the --bench and --benchmem flags:

go test -v --bench . --benchmem

Keep in mind that each reviewer will run benchmarks on a different machine, with different specs, so the results from these benchmark tests may vary.

Further information

For more detailed information about the Go track, including how to get help if you're having trouble, please visit the exercism.io Go language page.


Partially inspired by Chapter 1 in Chris Pine's online Learn to Program tutorial. http://pine.fm/LearnToProgram/?Chapter=01

Submitting Incomplete Solutions

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


package space

// Source: exercism/problem-specifications
// Commit: 8d4df79 space-age: Apply new "input" policy
// Problem Specifications Version: 1.1.0

var testCases = []struct {
	description string
	planet      Planet
	seconds     float64
	expected    float64
		description: "age on Earth",
		planet:      "Earth",
		seconds:     1000000000,
		expected:    31.69,
		description: "age on Mercury",
		planet:      "Mercury",
		seconds:     2134835688,
		expected:    280.88,
		description: "age on Venus",
		planet:      "Venus",
		seconds:     189839836,
		expected:    9.78,
		description: "age on Mars",
		planet:      "Mars",
		seconds:     2329871239,
		expected:    39.25,
		description: "age on Jupiter",
		planet:      "Jupiter",
		seconds:     901876382,
		expected:    2.41,
		description: "age on Saturn",
		planet:      "Saturn",
		seconds:     3000000000,
		expected:    3.23,
		description: "age on Uranus",
		planet:      "Uranus",
		seconds:     3210123456,
		expected:    1.21,
		description: "age on Neptune",
		planet:      "Neptune",
		seconds:     8210123456,
		expected:    1.58,


package space

import (

func TestAge(t *testing.T) {
	const precision = 0.01
	for _, tc := range testCases {
		actual := Age(tc.seconds, tc.planet)
		if math.IsNaN(actual) || math.Abs(actual-tc.expected) > precision {
			t.Fatalf("FAIL: %s\nExpected: %#v\nActual: %#v", tc.description, tc.expected, actual)
		t.Logf("PASS: %s", tc.description)

func BenchmarkAge(b *testing.B) {
	for i := 0; i < b.N; i++ {
		for _, tc := range testCases {
			Age(tc.seconds, tc.planet)
package space

type Planet string

const countOfSecondsInTheEarthYear float64 = 31557600

func Age(seconds float64, planet Planet) float64 {
	switch planet {
	case "Earth":
		return seconds / countOfSecondsInTheEarthYear
	case "Mercury":
		return seconds / (countOfSecondsInTheEarthYear * 0.2408467)
	case "Venus":
		return seconds / (countOfSecondsInTheEarthYear * 0.61519726)
	case "Mars":
		return seconds / (countOfSecondsInTheEarthYear * 1.8808158)
	case "Jupiter":
		return seconds / (countOfSecondsInTheEarthYear * 11.862615)
	case "Saturn":
		return seconds / (countOfSecondsInTheEarthYear * 29.447498)
	case "Uranus":
		return seconds / (countOfSecondsInTheEarthYear * 84.016846)
	case "Neptune":
		return seconds / (countOfSecondsInTheEarthYear * 164.79132)
		return 0

Community comments

Find this solution interesting? Ask the author a question to learn more.

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?
  • Are there new concepts here that you could read more about to improve your understanding?