# Monte Carlo Method in Python

I've been attempting to use Python to create a script that lets me generate large numbers of points for use in the Monte Carlo method to calculate an estimate to Pi. The script I have so far is this:

``````import math
import random
random.seed()

n = 10000

for i in range(n):
x = random.random()
y = random.random()
z = (x,y)

if x**2+y**2 <= 1:
print z
else:
del z
``````

So far, I am able to generate all of the points I need, but what I would like to get is the number of points that are produced when running the script for use in a later calculation. I'm not looking for incredibly precise results, just a good enough estimate. Any suggestions would be greatly appreciated.

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Do you wish to count how many random pairs are inside the circle? If that's the case just use a counter... –  zenpoy Nov 19 '12 at 20:28

If you're doing any kind of heavy duty numerical calculation, considering learning `numpy`. Your problem is essentially a one-linear with a numpy setup:

``````import numpy as np

N   = 10000
pts = np.random.random((N,2))

# Select the points according to your condition
idx = (pts**2).sum(axis=1)  < 1.0
print pts[idx], idx.sum()
``````

Giving:

``````[[ 0.61255615  0.44319463]
[ 0.48214768  0.69960483]
[ 0.04735956  0.18509277]
...,
[ 0.37543094  0.2858077 ]
[ 0.43304577  0.45903071]
[ 0.30838206  0.45977162]], 7854
``````

The last number is count of the number of events that counted, i.e. the count of the points whose radius is less than one.

-

Not sure if this is what you're looking for, but you can run `enumerate` on `range` and get the position in your iteration:

``````In [1]: for index, i in enumerate(xrange(10, 15)):
...:     print index + 1, i
...:
...:
1 10
2 11
3 12
4 13
5 14
``````

In this case, `index + 1` would represent the current point being created (`index` itself would be the total number of points created at the beginning of a given iteration). Also, if you are using Python 2.x, `xrange` is generally better for these sorts of iterations as it does not load the entire list into memory but rather accesses it on an as-needed basis.

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+1 for mentioning enumerate, didn't know this before. –  ahans Nov 19 '12 at 20:30
@ahans No problem - I remember seeing it for the first time and thinking 'Ah, figured there was a way to do that.' Have fun using it! –  RocketDonkey Nov 19 '12 at 20:31

Just add hits variable before the loop, initialize it to 0 and inside your if statement increment hits by one.
Finally you can calculate PI value using hits and n.

``````import math
import random
random.seed()

n = 10000
hits = 0  # initialize hits with 0

for i in range(n):
x = random.random()
y = random.random()
z = (x,y)

if x**2+y**2 <= 1:
hits += 1
else:
del z

# use hits and n to compute PI
``````
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