Babylonian Sqrt
P
"""
bab_sqrt(S::Real; tolerance = 1e-6, guess = nothing)
The Babylonian Method of calculating a square root is a simple iterative method to determine square roots. A full description of the algorithm can be found on [Wikipedia](https://en.wikipedia.org/wiki/Methods_of_computing_square_roots#Babylonian_method)
# Arguments:
- `S`: The number to calculate the square root for.
# Positional Arguments
- `tolerance`: How close the square of the square root needs to be from the input value. `abs(S - xn^2) < tolerance`
- `guess`: The initial value to use for `xn`
# Examples/Tests
```julia
julia> bab_sqrt(100)
10.000000000107445
julia> bab_sqrt(100, guess = 15)
10.000000000131072
julia> bab_sqrt(π, guess = 1)
1.7724538555800293
julia> bab_sqrt(π, guess = 1, tolerance = 2)
2.0707963267948966
```
# Algorithm:
```julia
while tolerance <= abs(xn^2 - S)
xn = (1 / 2) * (xn + S / xn)
end
```
# References:
[Methods of computing square roots](https://en.wikipedia.org/wiki/Methods_of_computing_square_roots#Babylonian_method)
```
# Contributed by:- [Anson Biggs](https://ansonbiggs.com)
"""
function bab_sqrt(S::Real; tolerance = 1e-6, guess = nothing)
# Can only calculate for positive numbers
if S < 0
throw(DomainError("Input must be greater than zero"))
end
xn = guess
if xn === nothing
xn = S / 2
elseif xn < 0
xn = abs(xn)
end
while tolerance <= abs(xn^2 - S)
xn = (1 / 2) * (xn + S / xn)
end
return xn
end
