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import csv
import numpy
from sympy import *
import numpy as np
from numpy import *
import json

print a 

b = []
for n in range(3):
print b
e = np.array(b)
f = e.astype(np.float)
print f

x = Symbol("x")
y = Symbol("y")

coeffs = f
F1 = numpy.poly1d(f[0])
F12 = np.polyder(F1)
print F12
F2 = numpy.poly1d(f[1])
F22 = np.polyder(F2)
print F22
F3 = numpy.poly1d(f[2])
F32 = np.polyder(F3) 
print F32

this is my coding and f is a array of numbers like this:[[ 9.68000000e-04 6.95000000e+00 7.49550000e+02] [ 7.38000000e-04 7.05100000e+00 1.28500000e+03] [ 1.04000000e-03 6.53100000e+00 1.53100000e+03]]. Basically, I want to assign the value of f to form polynomials, and then differentiate the polynomials. The results it like this 0.001936 x + 6.95 0.001476 x + 7.051 0.00208 x + 6.531 My question is how could write a loop for Fn if instead of 3 polynomials, I have n polynomials instead. How could I write a loop to obtain the differentiation for the n polynomials and can easy use the polynomials with different name of it. eg, F1 represent the first polynomial and F2 represent the second and so on. i tried sth like this, but it doesnt work

i = 1
if i < 3:
    i = i+1
share|improve this question
Is there a reason you're importing numpy 3 times? Use a single import numpy as np statement, and prefix all of the calls to that library with np.. It's bad form to use from lib_name import * for large, complex libraries like numpy and sympy (or, arguably, any library) into the current namespace, which is what you're doing with the original version. –  MattDMo Mar 10 '13 at 19:43

1 Answer 1

up vote 0 down vote accepted

You need to use a loop to deal with a variable number of polynomials and a data structure to store them. Try using a dictionary, iterating using a for loop.

numberPolynomials = 3
F = {}
for n in range(1, numberPolynomials+1):
    F[n] = np.poly1d(f[n-1])
    F[(n, 2)] = np.polyder(F[n])
    print F[(n, 2)]

Now you can refer to the polynomial not as F1, F2, etc. but as F[1], F[2], etc. For what you had called F12, F22, F32 would then be F[(1,2)], F[(2,2)], F[(3,2)]. Though, if you aren't going to be using the originals you should overwrite them and probably just use a list.

This is assuming, you change the 3x imports of numpy to:

import numpy as np
share|improve this answer
Thank you for your advice. However, after using your strategy, I could not use the equation represents by F[(1,2)], F[(2,2)], F[(3,2)] for further steps. for instance, when I print F[(1,2)], F[(2,2)], F[(3,2)] separately, it does not give the desired value. –  һ 刘 Mar 11 '13 at 0:58

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