The code below is giving me a flat line for the line of best fit rather than a nice curve along the model of e^(-x) that would fit the data. Can anyone show me how to fix the code below so that it fits my data?

```
import numpy as np
import matplotlib.pyplot as plt
import scipy.optimize
def _eNegX_(p,x):
x0,y0,c,k=p
y = (c * np.exp(-k*(x-x0))) + y0
return y
def _eNegX_residuals(p,x,y):
return y - _eNegX_(p,x)
def Get_eNegX_Coefficients(x,y):
print 'x is: ',x
print 'y is: ',y
# Calculate p_guess for the vectors x,y. Note that p_guess is the
# starting estimate for the minimization.
p_guess=(np.median(x),np.min(y),np.max(y),.01)
# Calls the leastsq() function, which calls the residuals function with an initial
# guess for the parameters and with the x and y vectors. Note that the residuals
# function also calls the _eNegX_ function. This will return the parameters p that
# minimize the least squares error of the _eNegX_ function with respect to the original
# x and y coordinate vectors that are sent to it.
p, cov, infodict, mesg, ier = scipy.optimize.leastsq(
_eNegX_residuals,p_guess,args=(x,y),full_output=1,warning=True)
# Define the optimal values for each element of p that were returned by the leastsq() function.
x0,y0,c,k=p
print('''Reference data:\
x0 = {x0}
y0 = {y0}
c = {c}
k = {k}
'''.format(x0=x0,y0=y0,c=c,k=k))
print 'x.min() is: ',x.min()
print 'x.max() is: ',x.max()
# Create a numpy array of x-values
numPoints = np.floor((x.max()-x.min())*100)
xp = np.linspace(x.min(), x.max(), numPoints)
print 'numPoints is: ',numPoints
print 'xp is: ',xp
print 'p is: ',p
pxp=_eNegX_(p,xp)
print 'pxp is: ',pxp
# Plot the results
plt.plot(x, y, '>', xp, pxp, 'g-')
plt.xlabel('BPM%Rest')
plt.ylabel('LVET/BPM',rotation='vertical')
plt.xlim(0,3)
plt.ylim(0,4)
plt.grid(True)
plt.show()
return p
# Declare raw data for use in creating regression equation
x = np.array([1,1.425,1.736,2.178,2.518],dtype='float')
y = np.array([3.489,2.256,1.640,1.043,0.853],dtype='float')
p=Get_eNegX_Coefficients(x,y)
```