How can I calculate pi using Bash command
I am learning bash scripting. While exploring the math functions i am came across a command which calculated the value of pi.
seq -f '4/%g' 1 2 99999 | paste -sd-+ | bc -l
Although i understand how the basic seq command works, I am unable to understand how does the above command works. Can anybody please clarify how does it work.?
Answer
This calculates the value of π using Gregory–Leibniz series:
seq -f '4/%g' 1 2 99999 generates the fractions:
4/1
4/3
4/5
4/7
4/9
4/11
4/13
4/15
4/17
4/19
The paste pipeline paste -sd-+ combines those with alternate delimiters - and +.
Finally, bc -l performs the arithmetic to give the result.
EDIT: As noted in the comment, this sequence converges very slowly. Machin's formula has a significantly higher rate of convergence:
Using the same expansion for tan-1(x):
to compute π, we can see that it produces the correct value to 50 digits1 using just the first 50 terms of the series:
$ { echo -n "scale=50;"; seq 1 2 100 | xargs -n1 -I{} echo '(16*(1/5)^{}/{}-4*(1/239)^{}/{})';} | paste -sd-+ | bc -l
3.14159265358979323846264338327950288419716939937510
With just 100 terms, the value of π is computed accurately to more than 100 digits:
$ { echo -n "scale=100;"; seq 1 2 200 | xargs -n1 -I{} echo '(16*(1/5)^{}/{}-4*(1/239)^{}/{})';} | paste -sd-+ | bc -l
3.1415926535897932384626433832795028841971693993751058209749445923078164062862089986280348253421170679
1 Pi