dr.botzo/modules/Pi.py

"""
Pi - calculate pi over time via the monte carlo method. idea borrowed from #linode
Copyright (C) 2010  Brian S. Stephan

This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.

This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
GNU General Public License for more details.

You should have received a copy of the GNU General Public License
along with this program.  If not, see <http://www.gnu.org/licenses/>.
"""

from ConfigParser import NoOptionError, NoSectionError
import math
import random

from extlib import irclib

from Module import Module

class Pi(Module):
    """
    Use the Monte Carlo method to approximate pi. Each time this method is called,
    it calculates a random point inside a square on the xy plane. If that point also
    falls within a circle bound within that square, it is added to the count of points
    inside. Over time, 4 * count_inside / count approaches pi.

    Idea from #linode on OFTC. Code from http://www.eveandersson.com/pi/monte-carlo-circle
    """

    def do(self, connection, event, nick, userhost, replypath, what, admin_unlocked):
        if what == "pi":
            try:
                if not self.config.has_section(self.__class__.__name__):
                    self.config.add_section(self.__class__.__name__)

                # set default values if unset
                if not self.config.has_option(self.__class__.__name__, "count_inside"):
                    self.config.set(self.__class__.__name__, "count_inside", "0")
                if not self.config.has_option(self.__class__.__name__, "count"):
                    self.config.set(self.__class__.__name__, "count", "0")

                # load values from config
                count_inside    = self.config.getint(self.__class__.__name__, "count_inside")
                count           = self.config.getint(self.__class__.__name__, "count")

                x = random.random()
                y = random.random()
                inside = False
                d = math.hypot(x,y)
                if d < 1:
                    inside = True
                    count_inside += 1
                count += 1
                pi = 4.0 * count_inside / count

                self.config.set(self.__class__.__name__, "count_inside", str(count_inside))
                self.config.set(self.__class__.__name__, "count", str(count))

                return self.reply(connection, replypath, "({0:.10f}, {1:.10f}) is {2}within the circle. pi is {5:.10f} ({3:d}/{4:d}).".format(x, y, "" if inside else "not ", count_inside, count, pi));
            except NoOptionError, NoSectionError: pass

# vi:tabstop=4:expandtab:autoindent
# kate: indent-mode python;indent-width 4;replace-tabs on;
module to calculate pi over time, via the monte carlo method. idea pinched from #linode. 2010-10-18 22:48:51 -05:00			`"""`
			`Pi - calculate pi over time via the monte carlo method. idea borrowed from #linode`
			`Copyright (C) 2010 Brian S. Stephan`

			`This program is free software: you can redistribute it and/or modify`
			`it under the terms of the GNU General Public License as published by`
			`the Free Software Foundation, either version 3 of the License, or`
			`(at your option) any later version.`

			`This program is distributed in the hope that it will be useful,`
			`but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
			`GNU General Public License for more details.`

			`You should have received a copy of the GNU General Public License`
			`along with this program. If not, see <http://www.gnu.org/licenses/>.`
			`"""`

			`from ConfigParser import NoOptionError, NoSectionError`
			`import math`
			`import random`

			`from extlib import irclib`

			`from Module import Module`

			`class Pi(Module):`
			`"""`
			`Use the Monte Carlo method to approximate pi. Each time this method is called,`
			`it calculates a random point inside a square on the xy plane. If that point also`
			`falls within a circle bound within that square, it is added to the count of points`
			`inside. Over time, 4 * count_inside / count approaches pi.`

			`Idea from #linode on OFTC. Code from http://www.eveandersson.com/pi/monte-carlo-circle`
			`"""`

			`def do(self, connection, event, nick, userhost, replypath, what, admin_unlocked):`
			`if what == "pi":`
			`try:`
			`if not self.config.has_section(self.__class__.__name__):`
			`self.config.add_section(self.__class__.__name__)`

			`# set default values if unset`
			`if not self.config.has_option(self.__class__.__name__, "count_inside"):`
			`self.config.set(self.__class__.__name__, "count_inside", "0")`
			`if not self.config.has_option(self.__class__.__name__, "count"):`
			`self.config.set(self.__class__.__name__, "count", "0")`

			`# load values from config`
			`count_inside = self.config.getint(self.__class__.__name__, "count_inside")`
			`count = self.config.getint(self.__class__.__name__, "count")`

			`x = random.random()`
			`y = random.random()`
			`inside = False`
			`d = math.hypot(x,y)`
			`if d < 1:`
			`inside = True`
			`count_inside += 1`
			`count += 1`
			`pi = 4.0 * count_inside / count`

			`self.config.set(self.__class__.__name__, "count_inside", str(count_inside))`
			`self.config.set(self.__class__.__name__, "count", str(count))`

Pi -> pi, fixing what I'm going to claim is a typo. 2010-10-20 11:57:31 -05:00			`return self.reply(connection, replypath, "({0:.10f}, {1:.10f}) is {2}within the circle. pi is {5:.10f} ({3:d}/{4:d}).".format(x, y, "" if inside else "not ", count_inside, count, pi));`
module to calculate pi over time, via the monte carlo method. idea pinched from #linode. 2010-10-18 22:48:51 -05:00			`except NoOptionError, NoSectionError: pass`

			`# vi:tabstop=4:expandtab:autoindent`
			`# kate: indent-mode python;indent-width 4;replace-tabs on;`