Metadata-Version: 1.0
Name: mcint
Version: 0.1dev2
Summary: 
    A simple tool to perform numerical integration using Monte Carlo techniques.
    
Home-page: http://pypi.python.org/pypi/Monte Carlo integrator/
Author: Tristan Snowsill
Author-email: tristan.snowsill@googlemail.com
License: Creative Commons Attribution-Noncommercial-Share Alike license
Description: ﻿========================
         Monte Carlo integrator
        ========================
        
        This package provides a Monte Carlo integrator which can be used to evaluate
        multi-dimensional integrals. The results are numerical approximations which are
        dependent on the use of random number generation.
        
        Example 1 (computing :math:`\int_0^1 x^2 dx`)::
        
            import mcint
            import random
            
            def integrand(x): # Describe the function being integrated
                return (x**2)
            
            def sampler(): # Describe how Monte Carlo samples are taken
                while True:
                    yield random.random()
            
            result, error = mcint.integrate(integrand, sampler, measure=1.0, n=100)
            
            print "The integral of x**2 between 0 and 1 is approximately", result
        
        Example 2 (computing :math:`\int_0^1 \int_0^\sqrt{1-y^2} x^2+y^2 dx dy`)::
        
            import mcint
            import random
            import math
            
            def integrand(x):
                return (x[0]**2 + x[1]**2)
            
            def sampler():
                while True:
                    y = random.random()
                    x = random.random()
                    if x**2+y**2 <= 1:
                        yield (x,y)
            
            result, error = mcint.integrate(integrand, sampler, measure=math.pi/4)
        
Platform: UNKNOWN
