Fitting Gamma Distribution in Python with scalar factor

I have done optimization to minimize error of resulted model, however, the R-squared is still low. I try to multiply a scalar to the resulted model to obtain a better fit. The scalar will be generated by using optimization too.

I have done this in Excel using solver tools and obtain a favorable output but Python gives me a different result.

``````import numpy as np
import scipy.stats as stats
from scipy.optimize import leastsq
import sklearn.metrics as metrics

def my_res( params, yData ):
a, b = params
xList= range( 1, len(yData) + 1 )
th = np.fromiter( ( stats.gamma.pdf( x, a, loc=0, scale=b ) for x in  xList ), np.float )
diff = np.array(th) - np.array( yData )
return diff

data = [0.030235821,    0.039199333,    0.029218791,    0.017308671]

sol, err = leastsq( my_res, [.4, 1 ], args=( data, ) )

datath = [ stats.gamma.pdf( x, sol[0], loc=0, scale=sol[1]) for x in range(1,5) ]

### the result showed low R-squared
ll=[1,2,3,4,5,6,7,8,9,10]
plop=stats.gamma.pdf(ll, sol[0], loc=0, scale=sol[1])
print ('expected values:')
print(plop)
print(sol)
rscored=metrics.r2_score(data,np.array(plop[0:4]))
print("R-squared without scalar: ",rscored)
##############################################################################
#Code with scalar
def my_res( params, yData ):
a, b, c = params
xList= range( 1, len(yData) + 1 )
th = np.fromiter( ( stats.gamma.pdf( x, a, loc=0, scale=b ) for x in  xList ), np.float )
diff = np.array(th)*c - np.array( yData )
return diff

data = [0.030235821,    0.039199333,    0.029218791,    0.017308671]

sol, err = leastsq( my_res, [.4, 1, 0.1 ], args=( data, ) )

datath = [ stats.gamma.pdf( x, sol[0], loc=0, scale=sol[1]) for x in range(1,5) ]

### the result gives the expected answer
ll=[1,2,3,4,5,6,7,8,9,10]
plop=stats.gamma.pdf(ll, sol[0], loc=0, scale=sol[1])
print ('expected values:')
print(plop)
print(sol)
rscored=metrics.r2_score(data,np.array(plop[0:4]))
print("R-squared with scalar: ",rscored)
``````

Scalar 0.133922081 Alpha 2.928877362 Beta 0.928544745 R^2 0.999996716 Expected values: [0.030232481 0.039211057 0.029197912 0.0173232 0.009074871 0.004393961 0.002014991 0.000888009 0.000379637 0.000158458]