问题
I'm trying to continue on my previous question in which I'm trying to calculate Fibonacci numbers using Benet's algorithm. To work with arbitrary precision I found mpmath
. However the implementation seems to fail above certain value. For instance the 99th value gives:
218922995834555891712
This should be (ref):
218922995834555169026
Here is my code:
from mpmath import * def Phi(): return (1 + sqrt(5)) / 2 def phi(): return (1 - sqrt(5)) / 2 def F(n): return (power(Phi(), n) - power(phi(), n)) / sqrt(5) start = 99 end = 100 for x in range(start, end): print(x, int(F(x)))
回答1:
mpmath
provides arbitrary precision (as set in mpmath.mp.dps
), but still inaccuate calculation. For example, mpmath.sqrt(5)
is not accurate, so any calculation based on that will also be inaccurate.
To get an accurate result for sqrt(5)
, you have to use a library which supports abstract calculation, e.g. http://sympy.org/ .
To get an accurate result for Fibonacci numbers, probably the simplest way is using an algorithm which does only integer arithmetics. For example:
def fib(n):
if n < 0:
raise ValueError
def fib_rec(n):
if n == 0:
return 0, 1
else:
a, b = fib_rec(n >> 1)
c = a * ((b << 1) - a)
d = b * b + a * a
if n & 1:
return d, c + d
else:
return c, d
return fib_rec(n)[0]
回答2:
mpmath does do arbitrary precision math, and it does do it accurately to any precision (as described above) if you are using the arbitrary precision math module and not the default behavior.
mpmath has more than one module which determines the accuracy and speed of the results (to be chosen depending on what you need), and by default it uses Python floats, which is what I believe you saw above.
If you call mpmath's fib( ) having set mp.dps high enough, you will get the correct answer as stated above.
>>> from mpmath import mp
>>> mp.dps = 25
>>> mp.nprint( mp.fib( 99 ), 25 )
218922995834555169026.0
>>> mp.nprint( mpmath.fib( 99 ), 25 )
218922995834555169026.0
Whereas, if you don't use the mp module, you will only get results as accurate as a Python double.
>>> import mpmath
>>> mpmath.dps = 25
>>> mpmath.nprint( mpmath.fib( 99 ), 25
218922995834555170816.0
回答3:
Actually mpmath's default precision is 15 which I think is not enough if you want to get the result of up to 21-digit precision.
One thing you can do is set the precision to be a higher value and use mpmath's defined arithmetic functions for addition, subtraction, etc.
from mpmath import mp
mp.dps = 50
sqrt5 = mp.sqrt(5)
def Phi():
return 0.5*mp.fadd(1, sqrt5)
def phi():
return 0.5*mp.fsub(1, sqrt5)
def F(n):
return mp.fdiv(mp.power(Phi(), n) - mp.power(phi(), n), sqrt5)
print int(F(99))
This will give you
218922995834555169026L
来源:https://stackoverflow.com/questions/25714830/python-mpmath-not-arbitrary-precision