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rational_summation_of_fractions.pl
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rational_summation_of_fractions.pl
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#!/usr/bin/perl
# Author: Daniel "Trizen" Șuteu
# License: GPLv3
# Date: 23 June 2016
# Website: https://github.com/trizen
# Rationalized summation of fractions, based on the identity:
#
# a c ad + bc
# --- + --- = ----------
# b d bd
# Combining this method with memoization, results in a practical
# generalized algorithm for summation of arbitrary fractions.
# In addition, with this method, any infinite sum can be converted into a limit.
# Example: ∞
# f(n) --- 1
# lim ---------- = \ ---- = e
# n->∞ _n_ / n!
# | | k! ---
# k=0 n=0
#
# where: _n_
# f(n+1) = (n+1)! * f(n) + | | k!
# k=0
# f(0) = 1
#
#====================================================
#
# Generally:
#
# x
# ---
# \ a(n) f(x)
# - ------ = ------
# / b(n) g(x)
# ---
# n=0
#
# where:
# | f(0) = a(0)
# | f(n) = b(n) * f(n-1) + a(n) * g(n-1)
#
# and:
# | g(0) = b(0)
# | g(n) = b(n) * g(n-1)
use 5.010;
use strict;
use warnings;
use Memoize qw(memoize);
use Math::AnyNum qw(:overload factorial);
memoize('b');
memoize('f');
memoize('g');
my $start = 0; # start iteration from this value
my $iter = 90; # number of iterations
sub a {
2**$_[0];
}
sub b {
factorial($_[0]);
}
sub f {
my ($n) = @_;
$n <= $start
? a($n)
: b($n) * f($n - 1) + a($n) * g($n - 1);
}
sub g {
my ($n) = @_;
$n <= $start
? b($n)
: b($n) * g($n - 1);
}
my $x = f($iter) / g($iter);
say $x;
say "e^2 =~ ", $x->as_dec(64);