I think this is my first question in this forum, so excuse me if I miss following some rules. I am trying to write a VBA algorithm to compute the Shapley-Shubik index. This index requires to compute all the permutations of a sequence of numbers (which represent the votes in a parliament, congress, etc.). After some thorough research I understood that one must use a recursive algorithm to perform such thing.
My idea is to create a matrix in vba where each element is stored separately, and each row contains a different permutation. That is the only way I can subsequently perform computations and retrieve the correct label values needed to compute such index. The problem is I cannot understand how to revert back to the previous levels once I reach the last level of recursion.
(EDIT) Eventually, I was able to come up with a solution. I am posting the results below, since I have seen that it has been asked for. I should warn though, this is a very inefficient code, and it does not work with more than 7 players. The reason for this is because vba is not able to deal with the extremely big matrix created by this code, so the program just crashes with an overflow error.
However, in have not been particularly smart in writing this code, this means it should be pretty easy to modify the code in order to make it work for a bigger number of players. Basically, instead of using the permutation function to create a matrix, one just needs to compute the pivotal player in each specific permutation, then use an array to "store" the frequencies. Unfortunately, I did not have time to modify the code, as I am currently working on other projects, though somewhat related, using Matlab instead.
Here it is the function I have assembled:
Public Function ShapleyShubik( _ Votes As Range, _ Coalitions As Range, _ Candidate As String, _ Threshold As Double) As Double ' '------------------------------------------------------ ' by Sim1 ' This function computes the Shapley-Shubik Power Index ' For a specified coalition among the available ones '------------------------------------------------------ ' Dim Labels() As String Dim Powers() As Double Dim Interval As Variant Dim MatLabels() As String Dim MatPowers() As Integer Dim Calc() As String Dim Total As Integer Dim ii As Integer 'Convert Labels Range Interval = ToArray(Coalitions) ReDim Labels(1 To UBound(Interval)) As String For ii = 1 To UBound(Interval) Labels(ii) = CStr(Interval(ii)) Next 'Convert Powers Range Interval = ToArray(Votes) ReDim Powers(1 To UBound(Interval)) As Double For ii = 1 To UBound(Interval) Powers(ii) = CInt(Interval(ii)) Next SShubCalc Powers, Labels, Calc, Threshold, Total 'Compute Index ShapleyShubik = (UBound(Filter(Calc, Candidate, True)) + 1) / Total End Function Private Function SShubCalc( _ ByRef Powers() As Double, _ ByRef Labels() As String, _ ByRef Pivotal() As String, _ ByVal bar As Double, _ ByRef Righe As Integer) As Boolean On Error GoTo Error_line Dim Colonne As Integer Dim MatNum() As Double Dim MatStr() As String Dim Threshold As Integer Dim Somma() As Double Dim perfsum() As Boolean Dim PivPos() As Integer Dim Addend() As Double Dim v() As Variant ' Define Size Variables Colonne = UBound(Powers) Righe = Factorial(Colonne) 'Generate Matrix of Permutations MatrPerm Powers, MatNum, Labels, MatStr 'Provide Vector Sums and Check Threshold With Application.WorksheetFunction Threshold = .Sum(.index(MatNum, 1)) End With 'Control for unanimity If (Threshold * bar) < (Threshold - 1) Then Threshold = Round(Threshold * bar, 0) + 1 End If 'Initialize Arrays ReDim perfsum(1 To Righe) ReDim PivPos(1 To Righe) ReDim Pivotal(1 To Righe) For ii = 1 To Colonne 'First Iteration If ii = 1 Then v = Application.WorksheetFunction.index(MatNum, 0, ii) ToDoubleArray Somma, v Else: v = Application.WorksheetFunction.index(MatNum, 0, (ii)) ToDoubleArray Addend, v SumVector Somma, Somma, Addend End If For j = 1 To Righe If Somma(j) >= Threshold And perfsum(j) = False Then PivPos(j) = ii perfsum(j) = True End If Next j Next ii 'Transfer PivoPos to Labels For ii = 1 To Righe Pivotal(ii) = MatStr(ii, PivPos(ii)) Next ii SShubCalc = True Exit Function Error_line: SShubCalc = False End Function Private Function nextPerm(s As String) ' inspired by http://stackoverflow.com/questions/352203/generating-permutations-lazily ' this produces the "next" permutation ' it allows one to step through all possible iterations without having to have them ' all in memory at the same time Dim L As Integer, ii As Integer, jj As Integer Dim c() As Byte, temp As Byte L = Len(s) If StrComp(s, "**done**") = 0 Or StrComp(s, "") = 0 Then nextPerm = "" Exit Function End If ' convert to byte array... more compact to manipulate ReDim c(1 To L) For ii = 1 To L c(ii) = Asc(Mid(s, ii, 1)) Next ii ' find the largest "tail": For ii = L - 1 To 1 Step -1 If c(ii) < c(ii + 1) Then Exit For Next ii ' if we complete the loop without break, ii will be zero If ii = 0 Then nextPerm = "**done**" Exit Function End If ' find the smallest value in the tail that is larger than c(ii) ' take advantage of the fact that tail is sorted in reverse order For jj = L To ii + 1 Step -1 If c(jj) > c(ii) Then ' swap elements temp = c(jj) c(jj) = c(ii) c(ii) = temp Exit For End If Next jj ' now reverse the characters from ii+1 to the end: nextPerm = "" For jj = 1 To ii nextPerm = nextPerm & Chr(c(jj)) Next jj For jj = L To ii + 1 Step -1 nextPerm = nextPerm & Chr(c(jj)) Next jj 'Debug.Print nextPerm End Function Private Function Factorial(dblNumber As Integer) As Integer Dim dblCtr As Double Dim dblResult As Double dblResult = 1 'initializes variable For dblCtr = 1 To dblNumber dblResult = dblResult * dblCtr Next dblCtr Factorial = dblResult End Function Private Function SumVector(ByRef Result() As Double, ByRef Vec1() As Double, ByRef Vec2() As Double) Dim temp As Integer Dim tempuno As Integer Dim ii As Integer If LBound(Vec1) = 0 Then temp = UBound(Vec2) ReDim Preserve Vec1(1 To (temp + 1)) End If If LBound(Vec2) = 0 Then tempuno = UBound(Vec2) ReDim Preserve Vec2(1 To (temp + 1)) End If If temp <> tempuno Then Exit Function End If ReDim Preserve Result(1 To UBound(Vec1)) 'Debug.Print Vec1(1, 1) For ii = 1 To UBound(Vec1) Result(ii) = Vec1(ii) + Vec2(ii) Next ii End Function Private Function ToDoubleArray( _ ByRef DoubleArray() As Double, _ ByRef VariantArray() As Variant) If LBound(VariantArray) = 0 Then ReDim Preserve VariantArray(1 To (UBound(VariantArray) + 1)) End If ReDim DoubleArray(1 To UBound(VariantArray)) For ii = 1 To UBound(VariantArray) DoubleArray(ii) = VariantArray(ii, 1) Next ii End Function Private Function MatrPermStr( _ ByRef VecInput() As String, _ ByRef MatOutput() As String) Dim Sequence As String Dim StrPerm As String Dim Colonne As Integer Dim Righe As Integer Dim ii As Integer Dim j As Integer ' Size Variables Colonne = UBound(VecInput) Righe = Factorial(Colonne) ReDim MatOutput(1 To Righe, 1 To Colonne) As String 'Start With an Empty Sequence Sequence = "" 'Create Sequence with defined Length For ii = 1 To Colonne Sequence = Sequence & ii Next ii 'Assign the permutation to the array For j = 1 To Righe If j = 1 Then StrPerm = Sequence Else StrPerm = nextPerm(StrPerm) End If For ii = 1 To Colonne MatOutput(j, ii) = VecInput(Mid(StrPerm, ii, 1)) Next ii Next j End Function Private Function MatrPerm( _ ByRef VecInput() As Double, _ ByRef MatOutput() As Double, _ ByRef VecInputStr() As String, _ ByRef MatOutputStr() As String) Dim Sequence As String Dim StrPerm As String Dim Colonne As Integer Dim Righe As Integer Dim ii As Integer Dim j As Integer Dim t As Integer ' Size Variables Colonne = UBound(VecInput) Righe = Factorial(Colonne) ReDim MatOutput(1 To Righe, 1 To Colonne) ReDim MatOutputStr(1 To Righe, 1 To Colonne) 'Start With an Empty Sequence Sequence = "" 'Create Sequence with defined Length For ii = 1 To Colonne Sequence = Sequence & ii Next ii 'Assign the permutation to the array For j = 1 To Righe If j = 1 Then StrPerm = Sequence Else StrPerm = nextPerm(StrPerm) End If For ii = 1 To Colonne MatOutput(j, ii) = VecInput(Mid(StrPerm, ii, 1)) MatOutputStr(j, ii) = VecInputStr(Mid(StrPerm, ii, 1)) Next ii Next j End Function Private Function ToArray(ByRef someRange As Range) As Variant Dim someValues As Variant With someRange If .Cells.Count = 1 Then ReDim someValues(1 To 1) someValues(1) = someRange.Value ElseIf .Rows.Count = 1 Then someValues = Application.Transpose(Application.Transpose(someRange.Value)) ElseIf .Columns.Count = 1 Then someValues = Application.Transpose(someRange.Value) Else MsgBox "someRange is mutil-dimensional" End If End With ToArray = someValues End Function Private Sub DescribeShapShub() Dim FuncName As String Dim FuncDesc As String Dim Category As String Dim ArgDesc(1 To 4) As String FuncName = "SHAPLEYSHUBIK" FuncDesc = "Returns Shapley-Shubik power index for a given player, given the other players' votes" Category = 3 'Math category ArgDesc(1) = "Range containing the player's votes (Only selected votes will be considered in the computation)" ArgDesc(2) = "Range containing the player's names (must have the same length as ""Votes"")" ArgDesc(3) = "Cell or String containing the player for which to compute the index" ArgDesc(4) = "Cell or Number containing the voting threshold (e.g. 0.5 for 50%)" Application.MacroOptions _ Macro:=FuncName, _ Description:=FuncDesc, _ Category:=Category, _ ArgumentDescriptions:=ArgDesc End Sub
Sorry if some variables are in Italian. Also, some parts of the code have been retrieved here and there in some specialised forums, so I take no credit for the specific commands, just for the assembling :) One last request: if anyone is able to improve this code, please share it so everybody can use it.