This creates a list of points and the sympy
solve() method should be returning the value of x. Instead it's returning yet another equation, and I'm not sure why. The
ravel() are creating a list of points in the plot and this is on Matplotlib, if that makes a difference but I don't think it should. It should be finding root(s) of the equation. I'm not sure what I'm doing wrong here that causes it to not return a value, but instead returns another equation:
from mpl_toolkits.axes_grid.axislines import SubplotZero from pylab import * import numpy as np import matplotlib.pyplot as plt from matplotlib.path import Path import matplotlib.patches as patches from matplotlib import rc import random from sympy.solvers import solve from sympy import * a = -2; b = 1 y, x = np.ogrid[-10:10:100j, -10:10:100j] xlist = x.ravel(); ylist = y.ravel() elliptic_curve = pow(y, 2) - pow(x, 3) - x * a - b plt.contour(xlist, ylist, elliptic_curve, ) randmid = random.randint(30,70) #y = ylist[randmid]; x = xlist[randmid] xsym, ysym = symbols('x ylist[randmid]') x_result = solve(pow(ysym, 2) - pow(xsym, 3) - xsym * a - b, xsym) # 11/5/13 needs to return a value
I'm teaching myself Python so this is probably something a junior programmer can help me out with, but if a pro sees this and can spare a moment to help that'd be great.
Returns a value for y roughly 3.xx where there's not 3 possible x-values: