# eferim's solution

## to Space Age in the Delphi Pascal Track

Published at Aug 26 2018 · 0 comments
Instructions
Test suite
Solution

#### Note:

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.

## Testing

In order to run the tests for this track, you will need to install DUnitX. Please see the installation instructions for more information.

If Delphi is properly installed, and `*.dpr` file types have been associated with Delphi, then double clicking the supplied `*.dpr` file will start Delphi and load the exercise/project. `control + F9` is the keyboard shortcut to compile the project or pressing `F9` will compile and run the project.

Alternatively you may opt to start Delphi and load your project via. the `File` drop down menu.

### When Questions Come Up

We monitor the Pascal-Delphi support room on gitter.im to help you with any questions that might arise.

### Submitting Exercises

Note that, when trying to submit an exercise, make sure the exercise file you're submitting is in the `exercism/delphi/<exerciseName>` directory.

For example, if you're submitting `ubob.pas` for the Bob exercise, the submit command would be something like `exercism submit <path_to_exercism_dir>/delphi/bob/ubob.pas`.

## Source

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 may receive assistance from a mentor.

### uSpaceAgeTests.pas

``````unit uSpaceAgeTests;

interface
uses
DUnitX.TestFramework;

const
CanonicalVersion = '1.1.0';

type

[TestFixture]
SpaceAgeTests = class(TObject)
public
[Test]
//    [Ignore('Comment the "[Ignore]" statement to run the test')]
procedure Age_on_earth;

[Test]
[Ignore]
procedure Age_on_mercury;

[Test]
[Ignore]
procedure Age_on_venus;

[Test]
[Ignore]
procedure Age_on_mars;

[Test]
[Ignore]
procedure Age_on_jupiter;

[Test]
[Ignore]
procedure Age_on_saturn;

[Test]
[Ignore]
procedure Age_on_uranus;

[Test]
[Ignore]
procedure Age_on_neptune;
end;

implementation
uses uSpaceAge;

{ SpaceAgeTests }

procedure SpaceAgeTests.Age_on_earth;
var
MyAge: ISpaceAge;
expectedAge: double;
begin
MyAge := NewSpaceAge(1000000000);
expectedAge := 31.69;
Assert.AreEqual(expectedAge, MyAge.OnEarth);
end;

procedure SpaceAgeTests.Age_on_jupiter;
var
MyAge: ISpaceAge;
expectedAge: double;
begin
MyAge := NewSpaceAge(901876382);
expectedAge := 2.41;
Assert.AreEqual(expectedAge, MyAge.OnJupiter);
end;

procedure SpaceAgeTests.Age_on_mars;
var
MyAge: ISpaceAge;
expectedAge: double;
begin
MyAge := NewSpaceAge(2329871239);
expectedAge := 39.25;
Assert.AreEqual(expectedAge, MyAge.OnMars);
end;

procedure SpaceAgeTests.Age_on_mercury;
var
MyAge: ISpaceAge;
expectedAge: double;
begin
MyAge := NewSpaceAge(2134835688);
expectedAge := 280.88;
Assert.AreEqual(expectedAge, MyAge.OnMercury);
end;

procedure SpaceAgeTests.Age_on_neptune;
var
MyAge: ISpaceAge;
expectedAge: double;
begin
MyAge := NewSpaceAge(8210123456);
expectedAge := 1.58;
Assert.AreEqual(expectedAge, MyAge.OnNeptune);
end;

procedure SpaceAgeTests.Age_on_saturn;
var
MyAge: ISpaceAge;
expectedAge: double;
begin
MyAge := NewSpaceAge(3000000000);
expectedAge := 3.23;
Assert.AreEqual(expectedAge, MyAge.OnSaturn);
end;

procedure SpaceAgeTests.Age_on_uranus;
var
MyAge: ISpaceAge;
expectedAge: double;
begin
MyAge := NewSpaceAge(3210123456);
expectedAge := 1.21;
Assert.AreEqual(expectedAge, MyAge.OnUranus);
end;

procedure SpaceAgeTests.Age_on_venus;
var
MyAge: ISpaceAge;
expectedAge: double;
begin
MyAge := NewSpaceAge(189839836);
expectedAge := 9.78;
Assert.AreEqual(expectedAge, MyAge.OnVenus);
end;

initialization
TDUnitX.RegisterTestFixture(SpaceAgeTests);
end.``````
``````unit uSpaceAge;

interface

type
ISpaceAge = interface
['{4EA1F2EB-4C4D-46DC-A7DD-568D8402B15A}']
function OnMercury : double;
function OnVenus : double;
function OnEarth : double;
function OnMars : double;
function OnJupiter : double;
function OnSaturn : double;
function OnUranus : double;
function OnNeptune : double;
end;

function NewSpaceAge(ASec : double) : ISpaceAge;

implementation

uses System.Math;

const
EARTH_YEAR_SECONDS = 31557600;
MERCURY_YEAR = 0.2408467;
VENUS_YEAR = 0.61519726;
MARS_YEAR = 1.8808158;
JUPITER_YEAR = 11.862615;
SATURN_YEAR = 29.447498;
URAN_YEAR = 84.016846;
NEPTUNE_YEAR = 164.79132;

type
TspaceAge = class(TInterfacedObject, ISpaceAge)
private
FSec : extended;
function FPlanetYear(APlanet : double = 1) : double;
public
function OnMercury : double;
function OnVenus : double;
function OnEarth : double;
function OnMars : double;
function OnJupiter : double;
function OnSaturn : double;
function OnUranus : double;
function OnNeptune : double;
constructor Create(ASec: double);
end;

function NewSpaceAge(ASec : double) : ISpaceAge;
begin
Result := TspaceAge.Create(ASec);
end;

{ TspaceAge }

constructor TspaceAge.Create(ASec: double);
begin
FSec := ASec;
end;

function TspaceAge.FPlanetYear(APlanet : double = 1) : double;
begin
Result := RoundTo(FSec / EARTH_YEAR_SECONDS / APlanet, -2);
end;

function TspaceAge.OnEarth: double;
begin
Result := FPlanetYear;
end;

function TspaceAge.OnJupiter: double;
begin
Result := FPlanetYear(JUPITER_YEAR);
end;

function TspaceAge.OnMars: double;
begin
Result := FPlanetYear(MARS_YEAR);
end;

function TspaceAge.OnMercury: double;
begin
Result := FPlanetYear(MERCURY_YEAR);
end;

function TspaceAge.OnNeptune: double;
begin
Result := FPlanetYear(NEPTUNE_YEAR);
end;

function TspaceAge.OnSaturn: double;
begin
Result := FPlanetYear(SATURN_YEAR);
end;

function TspaceAge.OnUranus: double;
begin
Result := FPlanetYear(URAN_YEAR);
end;

function TspaceAge.OnVenus: double;
begin
Result := FPlanetYear(VENUS_YEAR);
end;

end.``````