# Gems game step calculation, in other word some math

I have a program that scans an image and converts gems to specific numbers. Look at the picture below:

So i have a table with numbers. Number 1 is for yellow gem, 2 for blue, etc...

Like:

``````    A  B  C  D  E
1 | 1  2  3  4  5
2 | 3  5  2  4  1
3 | 1  4  4  1  2
4 | 3  3  2  1  5
5 | 5  1  5  2  5
``````

I want to calculate a step, to get 3 equal numbers (gems) horizontally or vertically. For example, in this table if i swap E2 with D2, D2 will be 1, and D2,D3,D4 creates a valid step, because it's all 1. I'm using VB.NET 2010.

My table is 8x8 size, it's just an example above.

At now i'm just have the values in multiple variables (A1=1, A2=3, so on..)

I hope you understand my question, any help would be appreciated.

-
Basically you're creating a program to solve Bejeweled. Considering there are sites that pay cash prizes for winners every day, wouldn't this be sort of illegal (on those sites at least)? –  Lasse V. Karlsen Feb 28 '11 at 10:48
I just want to solve for fun, not for winning prizes, or stg else.. Anyway bejeweled2 for example is just a pc game and you wont win anything. –  WorK Feb 28 '11 at 10:59
So what is your question then? You already know how to play the game, what part of this is it that you're having problems implementing? Have you tried brute-forcing it by just replacing every combination of two gems and seeing if that results in a 3+ in a row solution? –  Lasse V. Karlsen Feb 28 '11 at 11:05
You're essentially looking for a Bejeweled solver right? I'll try working on it this evening when I close from work. –  Alex Essilfie Feb 28 '11 at 11:08
@Lassse: I havent tried it yet, but i want to solve time-based bejeweled table with some AI help. I know i maybe need to put the variables into array(s) and do matrix swap and check for 3 equal items in both directions. This is what i know, but i dont know how to do these in VB. Mainly i'm a PHP coder. @Alex: Yeah, right, i want to code one solver. –  WorK Feb 28 '11 at 11:08

Here you go:

``````Module Module1

Sub Main()
Dim input = {{1, 3, 2, 4, 1, 1, 2, 1},
{1, 2, 5, 3, 2, 1, 3, 4},
{2, 1, 5, 4, 3, 2, 5, 4},
{3, 5, 1, 5, 2, 4, 1, 2},
{4, 2, 5, 1, 5, 2, 4, 2},
{2, 3, 2, 2, 5, 1, 3, 1},
{2, 1, 5, 4, 3, 2, 5, 4},
{3, 5, 1, 3, 2, 4, 1, 2}}

Console.WriteLine("INPUT:")
Console.Write("   |")
For i = 1 To input.GetLength(1)
Console.Write("{0,3}", GetColumnName(i))
Next
Console.Write(vbCrLf)
Console.Write("---+")
For i = 1 To input.GetLength(1)
Console.Write("---")
Next
Console.Write(vbCrLf)

For y = 0 To input.GetUpperBound(0)
Console.Write("{0,3}|", y + 1)
For x = 0 To input.GetUpperBound(1)
Console.Write("{0,3}", input(y, x))
Next
Console.Write(vbCrLf)
Next

Console.WriteLine("{0}{0}SOLUTION:", vbCrLf)
For Each match In Solve(input)
Console.WriteLine("Move {0} {1} for a match of {2}", match.Item1, match.Item2, match.Item3)
Next
End Sub

Function Solve(ByVal input As Integer(,)) As IEnumerable(Of Tuple(Of String, Char, Integer))
Dim matches As New List(Of Tuple(Of String, Char, Integer))
Dim result As Tuple(Of Boolean, Tuple(Of String, Char, Integer))
Dim test As Integer(,)

Dim maxX = input.GetUpperBound(0) - 1
Dim maxY = input.GetUpperBound(1) - 1

For x = 0 To maxX
For y = 0 To maxY
ReDim test(If(maxX - x > 4, 3, maxX - x), If(maxY - y > 4, 3, maxY - y))
For x1 = x To x + test.GetLength(0) - 1
For y1 = y To y + test.GetLength(1) - 1
test(x1 - x, y1 - y) = input(y1, x1)
Next
Next

'check if the result is a match
For Each result In {IsMatchOnThird(test), IsMatchOnSecond(test), IsMatchOnFirst(test)}  '<-- Updated Line
If result.Item1 = True Then
Dim matchPoint = Tuple.Create(CInt(result.Item2.Item1.Split(","c)(0)),
CInt(result.Item2.Item1.Split(","c)(1)))

matches.Add(Tuple.Create(GetColumnName(matchPoint.Item1 + x + 1) & CStr(matchPoint.Item2 + y + 1),
result.Item2.Item2, result.Item2.Item3))
End If
Next
Next
Next

Return RemoveDuplicates(matches)
End Function

Public Function GetColumnName(ByVal colIndex As Integer) As String
Dim result As New List(Of String)

Do While colIndex > 0
result.Insert(0, Chr(65 + CInt((colIndex - 1) Mod 26)))
colIndex = (colIndex - 1) \ 26
Loop

Return String.Join("", result.ToArray)
End Function

Function RemoveDuplicates(ByVal list As IEnumerable(Of Tuple(Of String, Char, Integer))) As IEnumerable(Of Tuple(Of String, Char, Integer))

'remove those where gems and swap direction are the same
Dim l = (From i In list Order By i.Item3 Descending, i.Item1, i.Item2).ToList
For i = l.Count - 1 To 1 Step -1
If (l(i).Item1 = l(i - 1).Item1) AndAlso (l(i).Item2 = l(i - 1).Item2) Then
l.RemoveAt(i)
End If
Next

l = (From i In list Order By i.Item1, i.Item3 Descending).ToList
For i = l.Count - 1 To 1 Step -1
If (l(i).Item1 = l(i - 1).Item1) AndAlso (l(i).Item2 = l(i - 1).Item2) Then
l.RemoveAt(i)
End If
Next

Return From i In l Order By i.Item3 Descending, i.Item1
End Function

Function IsMatchOnThird(ByVal input As Integer(,)) As Tuple(Of Boolean, Tuple(Of String, Char, Integer))
Dim size = Math.Min(input.GetLength(0), 4).ToString & "C," & Math.Min(input.GetLength(1), 4).ToString & "R"
Dim i = input
Dim isValid = Function(test As Integer()) test.All(Function(v) v = test(0))

Select Case size
Case "4C,4R"
If isValid({i(0, 0), i(0, 1), i(1, 2)}) Then
Return Tuple.Create(True, Tuple.Create("1,2", "L"c, If(isValid({i(0, 0), i(0, 3)}), 4, 3)))
ElseIf isValid({i(1, 0), i(1, 1), i(0, 2)}) Then
Return Tuple.Create(True, Tuple.Create("0,2", "R"c, If(isValid({i(1, 0), i(1, 3)}), 4, 3)))
ElseIf isValid({i(0, 0), i(1, 0), i(2, 1)}) Then
Return Tuple.Create(True, Tuple.Create("2,1", "U"c, If(isValid({i(0, 1), i(3, 0)}), 4, 3)))
ElseIf isValid({i(0, 1), i(1, 1), i(2, 0)}) Then
Return Tuple.Create(True, Tuple.Create("2,0", "D"c, If(isValid({i(0, 1), i(3, 1)}), 4, 3)))
End If
Case "4C,3R"
If isValid({i(0, 0), i(0, 1), i(1, 2)}) Then
Return Tuple.Create(True, Tuple.Create("1,2", "L"c, 3))
ElseIf isValid({i(1, 0), i(1, 1), i(0, 2)}) Then
Return Tuple.Create(True, Tuple.Create("0,2", "R"c, 3))
ElseIf isValid({i(0, 0), i(1, 0), i(2, 1)}) Then
Return Tuple.Create(True, Tuple.Create("2,1", "U"c, If(isValid({i(0, 1), i(3, 0)}), 4, 3)))
ElseIf isValid({i(0, 1), i(1, 1), i(2, 0)}) Then
Return Tuple.Create(True, Tuple.Create("2,0", "D"c, If(isValid({i(0, 1), i(3, 1)}), 4, 3)))
End If
Case "4C,2R"
If isValid({i(0, 0), i(1, 0), i(2, 1)}) Then
Return Tuple.Create(True, Tuple.Create("2,1", "U"c, If(isValid({i(0, 1), i(3, 0)}), 4, 3)))
ElseIf isValid({i(0, 1), i(1, 1), i(2, 0)}) Then
Return Tuple.Create(True, Tuple.Create("2,0", "D"c, If(isValid({i(0, 1), i(3, 1)}), 4, 3)))
End If
Case "3C,4R"
If isValid({i(0, 0), i(0, 1), i(1, 2)}) Then
Return Tuple.Create(True, Tuple.Create("1,2", "L"c, If(isValid({i(0, 0), i(0, 3)}), 4, 3)))
ElseIf isValid({i(1, 0), i(1, 1), i(0, 2)}) Then
Return Tuple.Create(True, Tuple.Create("0,2", "R"c, If(isValid({i(1, 0), i(1, 3)}), 4, 3)))
ElseIf isValid({i(0, 0), i(1, 0), i(2, 1)}) Then
Return Tuple.Create(True, Tuple.Create("2,1", "U"c, 3))
ElseIf isValid({i(0, 1), i(1, 1), i(2, 0)}) Then
Return Tuple.Create(True, Tuple.Create("2,0", "D"c, 3))
End If
Case "3C,3R"
If isValid({i(0, 0), i(0, 1), i(1, 2)}) Then
Return Tuple.Create(True, Tuple.Create("1,2", "L"c, 3))
ElseIf isValid({i(1, 0), i(1, 1), i(0, 2)}) Then
Return Tuple.Create(True, Tuple.Create("0,2", "R"c, 3))
ElseIf isValid({i(0, 0), i(1, 0), i(2, 1)}) Then
Return Tuple.Create(True, Tuple.Create("2,1", "U"c, 3))
ElseIf isValid({i(0, 1), i(1, 1), i(2, 0)}) Then
Return Tuple.Create(True, Tuple.Create("2,0", "D"c, 3))
End If
Case "3C,2R"
If isValid({i(0, 0), i(1, 0), i(2, 1)}) Then
Return Tuple.Create(True, Tuple.Create("2,1", "U"c, 3))
ElseIf isValid({i(0, 1), i(1, 1), i(2, 0)}) Then
Return Tuple.Create(True, Tuple.Create("2,0", "D"c, 3))
End If
Case "2C,4R"
If isValid({i(0, 0), i(0, 1), i(1, 1)}) Then
Return Tuple.Create(True, Tuple.Create("1,1", "L"c, If(isValid({i(0, 1), i(0, 3)}), 4, 3)))
ElseIf isValid({i(1, 0), i(1, 1), i(0, 2)}) Then
Return Tuple.Create(True, Tuple.Create("0,2", "R"c, If(isValid({i(1, 0), i(1, 3)}), 4, 3)))
End If
Case "2C,3R"
If isValid({i(0, 0), i(0, 1), i(1, 1)}) Then
Return Tuple.Create(True, Tuple.Create("1,1", "L"c, 3))
ElseIf isValid({i(1, 0), i(1, 1), i(0, 2)}) Then
Return Tuple.Create(True, Tuple.Create("0,2", "R"c, 3))
End If
End Select

Return Tuple.Create(False, Tuple.Create("None", "."c, 0))
End Function

Function IsMatchOnSecond(ByVal input As Integer(,)) As Tuple(Of Boolean, Tuple(Of String, Char, Integer))
Dim i = input
Dim isValid = Function(test As Integer()) test.All(Function(v) v = test(0))
Dim xLength = input.GetLength(0)
Dim yLength = input.GetLength(1)

If xLength >= 3 AndAlso yLength >= 3 Then
If isValid({i(0, 0), i(1, 1), i(0, 2)}) Then
Return Tuple.Create(True, Tuple.Create("1,1", "L"c, 3))
ElseIf isValid({i(1, 0), i(2, 1), i(1, 2)}) Then
Return Tuple.Create(True, Tuple.Create("2,1", "L"c, 3))
ElseIf isValid({i(1, 0), i(0, 1), i(1, 2)}) Then
Return Tuple.Create(True, Tuple.Create("0,1", "R"c, 3))
ElseIf isValid({i(2, 0), i(1, 1), i(2, 2)}) Then
Return Tuple.Create(True, Tuple.Create("1,1", "R"c, 3))
ElseIf isValid({i(0, 0), i(1, 1), i(2, 0)}) Then
Return Tuple.Create(True, Tuple.Create("1,1", "U"c, 3))
ElseIf isValid({i(0, 1), i(1, 2), i(2, 1)}) Then
Return Tuple.Create(True, Tuple.Create("1,2", "U"c, 3))
ElseIf isValid({i(0, 2), i(1, 1), i(2, 2)}) Then
Return Tuple.Create(True, Tuple.Create("1,1", "D"c, 3))
ElseIf isValid({i(0, 1), i(1, 0), i(2, 1)}) Then
Return Tuple.Create(True, Tuple.Create("1,0", "D"c, 3))
End If
End If

Return Tuple.Create(False, Tuple.Create("None", "."c, 0))
End Function

Private Function IsMatchOnFirst(ByVal input As Integer(,)) As Tuple(Of Boolean, Tuple(Of String, Char, Integer)) '<-- New method
Dim i = input
Dim isValid = Function(test As Integer()) test.All(Function(v) v = test(0))
Dim xLength = input.GetLength(0)
Dim yLength = input.GetLength(1)

If xLength >= 3 AndAlso yLength >= 3 Then
If isValid({i(0, 0), i(1, 1), i(1, 2)}) Then
Return Tuple.Create(True, Tuple.Create("0,0", "R"c, 3))
ElseIf isValid({i(1, 0), i(2, 1), i(2, 2)}) Then
Return Tuple.Create(True, Tuple.Create("1,0", "R"c, 3))
ElseIf isValid({i(2, 0), i(1, 1), i(1, 2)}) Then
Return Tuple.Create(True, Tuple.Create("2,0", "L"c, 3))
ElseIf isValid({i(1, 0), i(0, 1), i(0, 2)}) Then
Return Tuple.Create(True, Tuple.Create("1,0", "L"c, 3))
ElseIf isValid({i(0, 0), i(1, 1), i(2, 1)}) Then
Return Tuple.Create(True, Tuple.Create("0,0", "D"c, 3))
ElseIf isValid({i(0, 1), i(1, 2), i(2, 2)}) Then
Return Tuple.Create(True, Tuple.Create("0,1", "D"c, 3))
ElseIf isValid({i(0, 1), i(1, 0), i(2, 0)}) Then
Return Tuple.Create(True, Tuple.Create("0,1", "U"c, 3))
ElseIf isValid({i(0, 2), i(1, 1), i(2, 1)}) Then
Return Tuple.Create(True, Tuple.Create("0,2", "U"c, 3))
End If
End If

Return Tuple.Create(False, Tuple.Create("None", "."c, 0))
End Function
End Module
``````

And here is the tuple class I used.
BTW: I converted the it from C# to VB.NET from a question on StackOverflow

``````Imports System.Collections.Generic

Public Class Tuple(Of T1, T2, T3)
Inherits Tuple(Of T1, T2)
Implements IEqualityComparer(Of Tuple(Of T1, T2, T3))

Private _third As T3

Public Sub New(ByVal item1 As T1, ByVal item2 As T2, ByVal item3 As T3)
MyBase.New(item1, item2)
_third = item3
End Sub

Public Property Item3() As T3
Get
Return _third
End Get
Private Set(ByVal value As T3)
_third = value
End Set
End Property

Public Overloads Function Equals(ByVal x As Tuple(Of T1, T2, T3), ByVal y As Tuple(Of T1, T2, T3)) As Boolean Implements IEqualityComparer(Of Tuple(Of T1, T2, T3)).Equals
Return EqualityComparer(Of T1).[Default].Equals(x.Item1, y.Item1) AndAlso EqualityComparer(Of T2).[Default].Equals(x.Item2, y.Item2) AndAlso EqualityComparer(Of T3).[Default].Equals(x.Item3, y.Item3)
End Function

Public Overrides Function Equals(ByVal obj As Object) As Boolean
Return TypeOf obj Is Tuple(Of T1, T2, T3) AndAlso Equals(Me, DirectCast(obj, Tuple(Of T1, T2, T3)))
End Function

Public Overloads Function GetHashCode(ByVal obj As Tuple(Of T1, T2, T3)) As Integer Implements IEqualityComparer(Of Tuple(Of T1, T2, T3)).GetHashCode
Return EqualityComparer(Of T1).[Default].GetHashCode(Item1) Xor EqualityComparer(Of T2).[Default].GetHashCode(Item2) Xor EqualityComparer(Of T3).[Default].GetHashCode(Item3)
End Function

Public Shared Shadows Operator =(ByVal left As Tuple(Of T1, T2, T3), ByVal right As Tuple(Of T1, T2, T3)) As Boolean
If DirectCast(left, Object) Is Nothing AndAlso DirectCast(right, Object) Is Nothing Then
Return True
End If

Return left.Equals(right)
End Operator

Public Shared Shadows Operator <>(ByVal left As Tuple(Of T1, T2, T3), ByVal right As Tuple(Of T1, T2, T3)) As Boolean
If DirectCast(left, Object) Is Nothing AndAlso DirectCast(right, Object) Is Nothing Then
Return False
End If

Return Not left.Equals(right)
End Operator
End Class

Public Class Tuple(Of T1, T2)
Implements IEqualityComparer(Of Tuple(Of T1, T2))

Public Property Item1() As T1
Get
Return _first
End Get
Private Set(ByVal value As T1)
_first = value
End Set
End Property
Private _first As T1

Public Property Item2() As T2
Get
Return _second
End Get
Private Set(ByVal value As T2)
_second = value
End Set
End Property
Private _second As T2

Public Sub New(ByVal item1 As T1, ByVal item2 As T2)
_first = item1
_second = item2
End Sub

Public Overloads Function Equals(ByVal x As Tuple(Of T1, T2), ByVal y As Tuple(Of T1, T2)) As Boolean Implements IEqualityComparer(Of Tuple(Of T1, T2)).Equals
Return EqualityComparer(Of T1).[Default].Equals(x.Item1, y.Item1) AndAlso EqualityComparer(Of T2).[Default].Equals(x.Item2, y.Item2)
End Function

Public Overrides Function Equals(ByVal obj As Object) As Boolean
Return TypeOf obj Is Tuple(Of T1, T2) AndAlso Equals(Me, DirectCast(obj, Tuple(Of T1, T2)))
End Function

Public Overloads Function GetHashCode(ByVal obj As Tuple(Of T1, T2)) As Integer Implements IEqualityComparer(Of Tuple(Of T1, T2)).GetHashCode
Return EqualityComparer(Of T1).[Default].GetHashCode(Item1) Xor EqualityComparer(Of T2).[Default].GetHashCode(Item2)
End Function

Public Shared Operator =(ByVal left As Tuple(Of T1, T2), ByVal right As Tuple(Of T1, T2)) As Boolean
If DirectCast(left, Object) Is Nothing AndAlso DirectCast(right, Object) Is Nothing Then
Return True
End If

Return left.Equals(right)
End Operator

Public Shared Operator <>(ByVal left As Tuple(Of T1, T2), ByVal right As Tuple(Of T1, T2)) As Boolean
If DirectCast(left, Object) Is Nothing AndAlso DirectCast(right, Object) Is Nothing Then
Return False
End If

Return Not left.Equals(right)
End Operator
End Class

Public MustInherit Class Tuple
<DebuggerStepThrough()> _
Public Shared Function Create(Of T1, T2)(ByVal first As T1, ByVal second As T2) As Tuple(Of T1, T2)
Return New Tuple(Of T1, T2)(first, second)
End Function

<DebuggerStepThrough()> _
Public Shared Function Create(Of T1, T2, T3)(ByVal first As T1, ByVal second As T2, ByVal third As T3) As Tuple(Of T1, T2, T3)
Return New Tuple(Of T1, T2, T3)(first, second, third)
End Function

End Class
``````

Running the application give this output:

```INPUT:
|  A  B  C  D  E  F  G  H
---+------------------------
1|  1  3  2  4  1  1  2  1
2|  1  2  5  3  2  1  3  4
3|  2  1  5  4  3  2  5  4
4|  3  5  1  5  2  4  1  2
5|  4  2  5  1  5  2  4  2
6|  2  3  2  2  5  1  3  1
7|  2  1  5  4  3  2  5  4
8|  3  5  1  3  2  4  1  2

SOLUTION:
Move B4 R for a match of 4
Move D4 L for a match of 4
Move B3 L for a match of 3
Move B5 D for a match of 3
Move C3 D for a match of 3
Move C5 U for a match of 3
Move D4 D for a match of 3
Move E4 R for a match of 3
Move F3 L for a match of 3
```

This program can work with any board size. The program is based on the way I search for matches in the game (which I suppose is brute-force).

Edit
It appears the solver was not able to find matches on the first gem (see sample below).

```5, 2, 5
2, 5, 3
1, 5, 4
```

If the algorithm were applied on the sample above, no matches would be found.

I've fixed that now. There is now an `IsMatchOnFirst()` method to handle those cases.
See the updated code for changes.

-
One other thing... This program does not consider the explosion and lightning [hope I got the name right] gems. I'll work on that soon though. –  Alex Essilfie Mar 3 '11 at 15:24
It's quite great! But had an error that i've corrected: "GetColumnName(ByVal colIndex As Integer) As String" added "Public Function" before, it was missing. I tested and works like a charm. But. Can we do result a little bit another way? For example, result should be two array, one is the X, Y of the gem1 that would be replaced, and result two is X,Y of the gem2 that replaces gem1? "Move B4 R for a match of 4" would be look like this result: (2,4),(3,4). An example or guide is very appreciated. Thanks :) PS: It's not problem that this not counts special gems, it's awesome! –  WorK Mar 5 '11 at 20:49
I've edited your answer (i hope it's ok) now the code is correct. I figured out how to convert the results B3 to L etc, to simple 5,3 to 5,4 for example, if you want i will share the conversion functions in this answer, i accept this as solution. –  WorK Mar 5 '11 at 23:21
I updated the code to find matches on the first gem. It appears it managed to escape detection until now. –  Alex Essilfie Mar 8 '11 at 17:50
I accept this answer because it helped most in this project. –  WorK Jul 2 '11 at 4:07

You want to have three (or more) numbers in a line, so do the following:

• scan for two (or more) equal numbers in a line
• for every found line, check the neighbours of both ends if they contain an element that would augment the line
• if you found something, you have your move and are done

The neighbourhood is defined as follows:

``````    0
0x0   x is the central point, 0 are the neighbours.
0
``````

E.g.

``````_____
__0__   0 represents the line found
__0__
_X___   X represents the element that would augment the line.
_____
``````
-