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There is a recurrence equation on page 1789 of this paper and I need some help making a python program to calculate pi_i. I have no idea what is going on here.

Other references:original paper, pages (according to adobe, not the physical pages) 43 and 86

edit and i had already deleted what i wrote because all the answers i got were 0, even though all the values were floats. i believe what i had looked somewhat like the code posted below

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Do you understand recursion? –  Lance Roberts Jun 6 '10 at 0:09
    
yeah, but im terrible at using it in programs –  calccrypto Jun 6 '10 at 0:12
2  
There was no reason to close this, he's asking for programming help for a specific equation. –  Lance Roberts Jun 6 '10 at 0:15
    
In the last page of the paper there is the source code for the program. Its written in Mathematica, but is pretty straightforward to read. Be aware that the := sign means function declaration and the real execution are the last ten lines –  belisarius Jun 6 '10 at 0:16
2  
@calccrypto: It's fine to ask for help when you're stuck with a problem, but you should show your work: let us know what you've tried and where you're stuck rather than just asking for someone to dig in and do it for you. If you're just having trouble understanding recursion, there are plenty of existing answers on the topic... –  Shog9 Jun 6 '10 at 0:37

2 Answers 2

Here's a pseudocode/VBAish answer:

Function T(i as Integer, n as Integer, m as Integer) As Double

Dim j As Integer, temp As Double

Select Case i
    Case 0
        If n < 1 Then
            n = 1
        Else
            If n < m Then
                T = 2 * T(0,n-1)
            Else
                T = 2 * T(0,n-1) - T(0,n-m-1)
            End If
        End If
    Case 1
        If n < m Then
            T = 0
        Else
            If n = m Then
                T = 1
            Else
                If n = m + 1 Then
                    T = 2
                Else
                    temp = 0
                    For j = -1 to n-m-1
                        temp = temp + T(0,j) * T(0,n-m-2-j)
                    Next j
                    T = temp
                End If
            End If
        End If
    Case 2 to 9999999
        temp = 0
        For j = -1 to n-2*m-i
            temp = temp + T(0,j) * T(i-1,n-m-2-j)
        Next j
        T = T(i-1,n-1) + temp
End Case

End Function
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you will need to calculate the intermediate values as described in the paper, then loop on them to add them where you see the big summation signs...

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thanks. but im getting nowhere with what i have tried so far –  calccrypto Jun 6 '10 at 0:13

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