Ninetailsrabbit.Match3Maker 1.0.12

There is a newer version of this package available.
See the version list below for details.
dotnet add package Ninetailsrabbit.Match3Maker --version 1.0.12                
NuGet\Install-Package Ninetailsrabbit.Match3Maker -Version 1.0.12                
This command is intended to be used within the Package Manager Console in Visual Studio, as it uses the NuGet module's version of Install-Package.
<PackageReference Include="Ninetailsrabbit.Match3Maker" Version="1.0.12" />                
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add Ninetailsrabbit.Match3Maker --version 1.0.12                
#r "nuget: Ninetailsrabbit.Match3Maker, 1.0.12"                
#r directive can be used in F# Interactive and Polyglot Notebooks. Copy this into the interactive tool or source code of the script to reference the package.
// Install Ninetailsrabbit.Match3Maker as a Cake Addin
#addin nuget:?package=Ninetailsrabbit.Match3Maker&version=1.0.12

// Install Ninetailsrabbit.Match3Maker as a Cake Tool
#tool nuget:?package=Ninetailsrabbit.Match3Maker&version=1.0.12                

Match3 Maker

license readme csharp

This lightweight library provides the core logic and functionality you need to build engaging match-3 games. Focus on game design and mechanics while leaving the complex logic to this library.


<p align="center"> <img alt="Godot-XTension-Pack" src="Match3Maker/icon.png" width="250"> </p>


Getting started

This library empowers you to bring your match-3 game concepts to life quickly and efficiently. Don't get bogged down in the technical details - focus on what makes your game stand out!

It not handle any visual components, it contains the logic for you to use it in your project and link the corresponding UI components

Requirements

This package uses standard csharp library code and does not use third party libraries.

  • Net 8.0

.csproj

Add the package directly into your .csproj



<ItemGroup>
## Latest stable release
  <PackageReference Include="Ninetailsrabbit.Match3Maker"/>

## Manual version
  <PackageReference Include="Ninetailsrabbit.Match3Maker" Version="1.0.0" />
</ItemGroup>

Installation via CLI

Further information can be found on the official microsoft documentation

nuget install Ninetailsrabbit.Match3Maker

# Or choosing version

nuget install Ninetailsrabbit.Match3Maker -Version 1.0.0

# Using dotnet
dotnet add package Ninetailsrabbit.Match3Maker --version 1.0.0

Components

The main logic has been simplified in few classes that represents each with a different functionality.

GridCell

Each cell of the board can be accessed through this class. The position of the cells are immutable once the board is initialised so you can avoid common errors.

You never actually create them yourself, it is recommended to initialise them from the Board class.

// public GridCell(int column, int row, Piece? piece = null, bool canContainPiece = true)
GridCell cell = new GridCell(2, 3);

// You have available the following properties
cell.Id // A unique GUID created for each new instance
cell.column // The column position
cell.Row // The row position
cell.CanContainPiece // Defines if can contain a piece
cell.Piece // The current Piece assigned to this cell

// Neighbours, you can access easily the nearest GridCells after initialize the board to the corresponding neighbour in the board. This improves performance as it only needs to be calculated once.

//Null is returned if the cell does not exist (for example, a bottom border cell does not have a neighbour bottom)
cell.NeighbourUp;
cell.NeighbourBottom;
cell.NeighbourRight;
cell.NeighbourLeft;
cell.DiagonalNeighbourTopRight;
cell.DiagonalNeighbourTopLeft;
cell.DiagonalNeighbourBottomRight;
cell.DiagonalNeighbourBottomLeft;


cell.Position(); // Vector2(3, 2) The position in the board where X is the row and Y is the column

// Shortcuts to detect the assigned piece
cell.IsEmpty();
cell.HasPiece();

// Assign a piece only if it's IsEmpty() and CanContainPiece is true
cell.AssignPiece(new Piece("triangle"));

// Remove and return the current assigned piece if exists or null.
cell.RemovePiece();

// Manual check if the pieces can be swapped between this cells.
cell.CanSwapPieceWith(GridCell otherCell);

// Swap the piece with the other cell if both have pieces and they are not locked (CanSwapPieceWith is called internally).
// SwappedPiece or SwapRejected events are raised whether it has been successful or not.
cell.SwapPieceWith(GridCell otherCell);

// Position detection
cell.InSameRowAs(GridCell otherCell);
cell.InSameColumnAs(GridCell otherCell);

// Can be use with other cell or a Vector2 position
cell.InSamePositionAs(GridCell otherCell);
cell.InSamePositionAs(Vector2 position);

cell.IsRowNeighbourOf(GridCell otherCell);
cell.IsColumnNeighbourOf(GridCell otherCell);

cell.IsAdjacentTo(GridCell otherCell);
cell.InDiagonalWith(GridCell otherCell);

// The IEquatable is implemented and two GridCells are equals if they are on the same position
public bool Equals(GridCell? other) {
    return InSamePositionAs(other);
}

Piece

A core Piece that manage most of the logic when it comes to interact with. It can be easily extended providing your own types so you're free to decide which one match and which one not. Are intended to handle the internal logic and not its display as a UI.

Creating new piece types

To start adding valid pieces into the board, you need to implement the IPieceType interface in your class

 public interface IPieceType {
     public string Shape {  get; set; }
     public Color? Color { get; set; }
     public bool MatchWith(Piece piece);
     public bool CanBeShuffled();
     public bool CanBeMoved();
 }

This library provides three types by default (Normal, Special, Obstacle) that you can use in your match-3 game but nothing stops you to create your own custom ones.

  public class NormalPieceType : IPieceType {
      public string Shape { get => _shape; set => _shape = value; }
      public Color? Color { get => _color; set => _color = value; }

      private string _shape;
      private Color? _color = null;

      public NormalPieceType(string shape, Color? color = null) {
          Shape = shape;
          Color = color;
      }

      public bool MatchWith(Piece piece) {
        return piece.Type is not ObstaclePieceType
            && Shape.Trim().Equals(piece.Type.Shape, StringComparison.OrdinalIgnoreCase)
            && Color.Equals(piece.Type.Color);
      }

      public bool CanBeShuffled() => true;
      public bool CanBeMoved() => true;
  }

    public class SpecialPieceType : IPieceType {
        public string Shape { get => _shape; set => _shape = value; }
        public Color? Color { get => _color; set => _color = value; }

        private string _shape;
        private Color? _color = null;

        public SpecialPieceType(string shape, Color? color = null) {
            Shape = shape;
            Color = color;
        }

        public bool MatchWith(Piece piece) {

            return typeof(SpecialPieceType).IsAssignableFrom(piece.Type.GetType())
                && Shape.Trim().Equals(piece.Type.Shape, StringComparison.OrdinalIgnoreCase)
                && Color.Equals(piece.Type.Color);
        }

        public bool CanBeShuffled() => true;
        public bool CanBeMoved() => true;
    }

using System.Drawing;

namespace Match3Maker {
    public class ObstaclePieceType : IPieceType {
        public string Shape { get => _shape; set => _shape = value; }
        public Color? Color { get => _color; set => _color = value; }

        private string _shape;
        private Color? _color = null;

        public ObstaclePieceType(string shape, Color? color = null) {
            Shape = shape;
            Color = color;
        }

        public bool MatchWith(Piece piece) => false;
        public bool CanBeShuffled() => false;
        public bool CanBeMoved() => false;

    }

}
Creating one piece
// Only the shape
var piece = new Piece(new NormalPieceType("circle"));
// Or
var piece = new Piece(new NormalPieceType("circle", Color.Green));

// Static constructor
var piece = Piece.create(new NormalPieceType("square", Color.Red));


// Properties
piece.Id
piece.Type // IPieceType
piece.Locked

// Probability properties to use with IPieceGenerator
piece.Weight
piece.TotalAccumWeight

// Lock methods, just use as information for you to decide whether to move the piece, mix it or match it
piece.Lock()
piece.Unlock();

// When you initialize the board the pieces are already instanciated with the proper type, this clone works when it comes to generate new pieces in the board.
piece.Clone();

Sequence

A sequence by definition does not need to follow any rules, the cells from this sequence are considered a match. This provides flexibility to for example remove an entire row in the board without the pieces having to match each other or live in the same row & column.

The constructor validate the cells passed as parameter and only assign the ones that has a piece.

The calculations to retrieve the list of cells are done before create the sequence. That's what an ISequenceFinder implementation does since it knows how to allocate the proper SHAPE.

// Available shapes

 public enum SHAPES {
     HORIZONTAL,
     VERTICAL,
     T_SHAPE,
     L_SHAPE
 }
var cells = new List<GridCell>() {new GridCell(1, 0), new GridCell(2, 0), new GridCell(3, 0)}
var sequence = new Sequence(cells, Sequence.SHAPES.HORIZONTAL)

// Get the current sequence cells
sequence.Cells();

// Give the size of the sequence
sequence.Size()

//Remove all the pieces from the cells
sequence.Consume();

// Get all the pieces from this sequence
sequence.Pieces();

//Position related, useful for ISequenceFinder to help find shapes.
sequence.MiddleCell();
sequence.TopEdgeCell();
sequence.BottomEdgeCell();
sequence.LeftEdgeCell();
sequence.RightEdgeCell();

// Shape shorcuts
sequence.IsHorizontal();
sequence.IsVertical();
sequence.IsTShape();
sequence.IsLShape();

// To clone sequences before consuming and allow to pass the cells that were affected through events
sequence.Clone();


Board

This is the main class that you will actually use, you can manipulate any aspect of the dashboard and extract the necessary information for the UI.

Creating a new board

// PieceWeightGenerator from library is provided when null
// SequenceFinder from library is provided when null
public Board(
    int gridWidth,
    int gridHeight,
    int initialMoves,
    IPieceGenerator? pieceGenerator = null,
    ISequenceFinder? sequenceFinder = null)


// Grid size can be passed as integer or Vector2.
var board = new Board(5, 7, 25);
var board = new Board(new Vector2(7, 5), 25);
// Or
var board = Board.Create(5, 7, 25);

// You can provide your custom implementations of IPieceGenerator or ISequenceFinder
var board = Board.Create(4, 4, 20, new YourCustomPieceGenerator(), new YourSequenceFinder());


// Add available pieces to roll, they need to be defined to fill the board correctly
 Piece square = new(new NormalPieceType("square"));
 Piece circle = new(new NormalPieceType("circle"));
 Piece triangle = new(new NormalPieceType("triangle"));

 List<Piece> pieces = [square, circle, triangle];

// Further methods are provided to add or remove pieces on the board any time
board.AddAvailablePieces(pieces);
board.AddAvailablePiece(pieces.First());
board.RemoveAvailablePieces(pieces);
board.RemoveAvailablePiece(pieces.Last());


board.AddAvailablePieces(pieces)
     .PrepareGridCells() // Initialize the GridCell classes with the width & height provided, overwrite parameter needs to be true if called a second time
     .FillInitialBoard(false); // public Board FillInitialBoard(bool allowMatchesOnStart = false, Dictionary<string, Piece>? preSelectedPieces = null)


// This function run when PreparedGridCells is used, assign the neighbour cells for all of them in the board.
// This function is rarely called manually but here it is in case you want to update the cells,  change their size or want to prepare them manually.
board.UpgradeGridCellsNeighbours();

// You can change properties any time
board.ChangeGridWidth(7)
     .ChangeGridHeight(8)
     .ChangeGridSize(new Vector2(8, 7)) //Shorcut alternative
     .ChangeFillMode(Board.FILL_MODES.SIDE_DOWN)
     .ChangeCellSize(new Vector2(32, 32)) // Size information from the cell to display on your UI
     .ChangeOffset(new Vector2(5, 10)) // Offset separation between cells to display on your UI
     .ChangeRemainingMoves(20);

// Increase or decrease board remaining moves which represents the remaining moves the player has left to use on this board.
// EVENT: When remaining moves reachs zero raises the event "SpentAllMoves" and lock the board.
board.IncreaseMove();
board.DecreaseMove();

//Plural
board.IncreaseMoves(2);
board.DecreaseMoves(3);

// Lock or unlock this board, has no immediate effect on the board, it is information to be used externally.
board.Lock();
board.Unlock();

//Access current cells with
board.GridCells;

// Cell from column 0 and row 1, null is returned if it does not exists.
board.Cell(0, 1)
board.Cell(new Vector2(1, 0))

//Returns the calculated cell position with the offset for a grid cell
board.CellPosition(board.Cell(2, 5)); // Vector2(250, 50) random vector for example purposes

// Get the cells of selected column & row
board.CellsFromColumn(1);
board.CellsFromRow(3);

// Get empty cells from board
board.EmptyCells();
board.EmptyCellsFromRow(3);
board.EmptyCellsFromColumn(2);

// Get cells that contains a piece of selected type
board.CellsFromRowOfPieceType(2, typeof(SpecialPieceType));
board.CellsFromColumnOfPieceType(1, typeof(NormalPieceType));
board.CellsWithPieceType(typeof(NormalPieceType));

// Returns the 2 upper cells from the origin one provided, only returns the valid cells,
// it will never go out of bounds even if you use large numbers or out of range of that cell.
board.UpperCellsFrom(board.Cell(3, 3), 2); // GridCell(3, 2), GridCell(3, 1)
board.BottomCellsFrom(board.Cell(3, 3), 2); // GridCell(3, 4), GridCell(3, 5)
board.RightCellsFrom(board.Cell(3, 3), 2); // GridCell(4, 3), GridCell(5, 3)
board.LeftCellsFrom(board.Cell(3, 3), 2); // GridCell(1, 3), GridCell(2, 3)

// Same syntax to retrieve the pieces instead of the cells
board.UpperCellsPiecesFrom(board.Cell(3, 3), 2);
board.BottomCellsPiecesFrom(board.Cell(2, 1), 1);
board.RightCellsPiecesFrom(board.Cell(4, 1), 5);
board.LeftCellsPiecesFrom(board.Cell(7, 2), 3);


// Find a grid cell that contains the piece provided, it uses the Id property internally for the search.
// The piece instance provided on this method must be already assigned to a cell in the board.
board.FindGridCellWithPiece(piece);
//Or
board.FindGridCellWithPiece(piece.Id);
board.FindGridCellWithPiece(piece.Id.ToString());

// Shuffle a board and returns a Dictionary<GridCell, GridCell> with the grid cells affected
// The Key GridCell means that has changed piece with the Value GridCell (can be read as the opposite also)
// Pieces with a IPieceType where CanBeShuffled() returns false are not affected in this process.
var result = board.Shuffle();

// Remove current matches from board, used internally when FilledInitialBoard() is called
// This remove the current sequences and create new pieces so the board does not have any current sequences active.
board.RemoveMatchesFromBoard();

ISequenceFinder

The behaviour to find the match shapes can be implemented using this interface. By default this library provides you a default SequenceFinder.


public interface ISequenceFinder {

    #region Properties
    bool HorizontalShape { get; set; }
    bool VerticalShape { get; set; }
    bool TShape { get; set; }
    bool LShape { get; set; }
    int MinMatch { get; set; }
    int MaxMatch { get; set; }
    int MinSpecialMatch { get; set; }
    int MaxSpecialMatch { get; set; }
    #endregion

    #region Find functions
    public List<Sequence> FindHorizontalSequences(IEnumerable<GridCell> cells);
    public List<Sequence> FindVerticalSequences(IEnumerable<GridCell> cells);
    public Sequence? FindTShapeSequence(Sequence sequenceA, Sequence sequenceB);
    public Sequence? FindLShapeSequence(Sequence sequenceA, Sequence sequenceB);
    public List<Sequence> FindBoardSequences(Board board);
    public List<Sequence> FindHorizontalBoardSequences(Board board);
    public List<Sequence> FindVerticalBoardSequences(Board board);
    public Sequence? FindMatchFromCell(Board board, GridCell cell);
    #endregion

    #region Options
    public ISequenceFinder ChangeMinMatchTo(int value) {
        MinMatch = value;

        return this;
    }
    public ISequenceFinder ChangeMaxMatchTo(int value) {
        MaxMatch = value;

        return this;
    }
    public ISequenceFinder EnableHorizontalShape() {
        HorizontalShape = true;
        return this;
    }

    public ISequenceFinder DisableHorizontalShape() {
        HorizontalShape = false;
        return this;
    }

    public ISequenceFinder EnableVerticalShape() {
        VerticalShape = true;
        return this;
    }

    public ISequenceFinder DisableVerticalShape() {
        VerticalShape = false;
        return this;
    }

    public ISequenceFinder EnableLShape() {
        LShape = true;
        return this;
    }

    public ISequenceFinder DisableLShape() {
        LShape = false;
        return this;
    }

    public ISequenceFinder EnableTShape() {
        TShape = true;
        return this;
    }

    public ISequenceFinder DisableTShape() {
        TShape = false;
        return this;
    }
    #endregion
}

IPieceGenerator

The behaviour to generate new pieces after consuming them it's implemented with this interface. By default this library provides you a PieceWeightGenerator that uses the Weight and TotalAccumWeight property from the pieces.

The higher the weight, the more changes to appear in the next roll.

    public interface IPieceGenerator {

      public Piece Roll(List<Piece> pieces, IEnumerable<Type>? only = null);
    }
Product Compatible and additional computed target framework versions.
.NET net8.0 is compatible.  net8.0-android was computed.  net8.0-browser was computed.  net8.0-ios was computed.  net8.0-maccatalyst was computed.  net8.0-macos was computed.  net8.0-tvos was computed.  net8.0-windows was computed. 
Compatible target framework(s)
Included target framework(s) (in package)
Learn more about Target Frameworks and .NET Standard.
  • net8.0

    • No dependencies.

NuGet packages

This package is not used by any NuGet packages.

GitHub repositories

This package is not used by any popular GitHub repositories.

Version Downloads Last updated
1.2.5 121 8/16/2024
1.2.4 62 7/28/2024
1.2.3 90 7/15/2024
1.2.2 80 7/15/2024
1.0.20 100 6/22/2024
1.0.19 92 6/17/2024
1.0.18 94 6/16/2024
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1.0.11 95 6/9/2024
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1.0.3 105 6/5/2024
1.0.2 94 6/5/2024
1.0.0 101 6/5/2024

Ninetailsrabbit.Match3Maker release.