AdventOfCode2023/tests/UCosmicExpansionTestCases.pas

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{
Solutions to the Advent Of Code.
Copyright (C) 2023 Stefan Müller
This program is free software: you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free Software
Foundation, either version 3 of the License, or (at your option) any later
version.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with
this program. If not, see <http://www.gnu.org/licenses/>.
}
unit UCosmicExpansionTestCases;
{$mode ObjFPC}{$H+}
interface
uses
Classes, SysUtils, fpcunit, testregistry, USolver, UBaseTestCases, UCosmicExpansion;
type
{ TCosmicExpansionFullDataTestCase }
TCosmicExpansionFullDataTestCase = class(TEngineBaseTest)
protected
function CreateSolver: ISolver; override;
published
procedure TestPart1;
procedure TestPart2;
end;
{ TCosmicExpansionExampleTestCase }
TCosmicExpansionExampleTestCase = class(TExampleEngineBaseTest)
protected
function CreateSolver: ISolver; override;
published
procedure TestPart1;
end;
{ TFactor10CosmicExpansion }
TFactor10CosmicExpansion = class(TCosmicExpansion)
function GetExpansionFactor: Integer; override;
end;
{ TCosmicExpansionExampleFactor10TestCase }
TCosmicExpansionExampleFactor10TestCase = class(TExampleEngineBaseTest)
protected
function CreateSolver: ISolver; override;
published
procedure TestPart2;
end;
{ TFactor100CosmicExpansion }
TFactor100CosmicExpansion = class(TCosmicExpansion)
function GetExpansionFactor: Integer; override;
end;
{ TCosmicExpansionExampleFactor100TestCase }
TCosmicExpansionExampleFactor100TestCase = class(TExampleEngineBaseTest)
protected
function CreateSolver: ISolver; override;
published
procedure TestPart2;
end;
implementation
{ TCosmicExpansionFullDataTestCase }
function TCosmicExpansionFullDataTestCase.CreateSolver: ISolver;
begin
Result := TCosmicExpansion.Create;
end;
procedure TCosmicExpansionFullDataTestCase.TestPart1;
begin
AssertEquals(9686930, FSolver.GetResultPart1);
end;
procedure TCosmicExpansionFullDataTestCase.TestPart2;
begin
AssertEquals(630728425490, FSolver.GetResultPart2);
end;
{ TCosmicExpansionExampleTestCase }
function TCosmicExpansionExampleTestCase.CreateSolver: ISolver;
begin
Result := TCosmicExpansion.Create;
end;
procedure TCosmicExpansionExampleTestCase.TestPart1;
begin
AssertEquals(374, FSolver.GetResultPart1);
end;
{ TFactor10CosmicExpansion }
function TFactor10CosmicExpansion.GetExpansionFactor: Integer;
begin
Result := 9;
end;
{ TCosmicExpansionExampleFactor10TestCase }
function TCosmicExpansionExampleFactor10TestCase.CreateSolver: ISolver;
begin
Result := TFactor10CosmicExpansion.Create;
end;
procedure TCosmicExpansionExampleFactor10TestCase.TestPart2;
begin
AssertEquals(1030, FSolver.GetResultPart2);
end;
{ TFactor100CosmicExpansion }
function TFactor100CosmicExpansion.GetExpansionFactor: Integer;
begin
Result := 99;
end;
{ TCosmicExpansionExampleFactor100TestCase }
function TCosmicExpansionExampleFactor100TestCase.CreateSolver: ISolver;
begin
Result := TFactor100CosmicExpansion.Create;
end;
procedure TCosmicExpansionExampleFactor100TestCase.TestPart2;
begin
AssertEquals(8410, FSolver.GetResultPart2);
end;
initialization
RegisterTest(TCosmicExpansionFullDataTestCase);
RegisterTest(TCosmicExpansionExampleTestCase);
RegisterTest(TCosmicExpansionExampleFactor10TestCase);
RegisterTest(TCosmicExpansionExampleFactor100TestCase);
end.