I want to plot the region between two curves with different colors whether one of the line is positive or negative. I got edge effect with non-continuous coloring of the region when the curve changes of sign. Setting interpolate=True
does not really help.
The edge effect is related to the resolution (voluntarily coarse in the basic example below) - enhancing it is not really what I want. Any better solution to make smooth transitions? Thanks.
import matplotlib.pyplot as plt
import numpy
plt.figure()
x=numpy.arange(0.,1.05,0.05)
y1=numpy.sin(2*numpy.pi*x)
y2=y1+0.2
y1positive=y1>0
y1negative=y1<=0
plt.plot(x,y1,'r',label='y1')
plt.plot(x,y2,'g',label='y2')
plt.plot(x,x*0,'--k')
plt.fill_between(x,y2,y1,where=y1positive,color='green',alpha=0.5)
plt.fill_between(x,y2,y1,where=y1negative,color='red',alpha=0.5,interpolate=True)
plt.legend()
https://i.stack.imgur.com/9Q9Ff.png
** EDIT ** based on pyHazard's answer which is properly addressing the problem above, but I still encounter difficulties:
Revised case (see code) - I need to fill the area between two summed curves if they have the same sign, and between one of them and zero otherwize. The filled area must be continuous when the where=
condition changes. Including a tiny margin indeed helps, but does not totally resolve the problem (filled surface still interrupted). What is needed there is really a fill_between
where y1=0
, which is a condition with no width... I would then just need a kind of condition where y1-eta<=0<=y1+eta
but I am foolishly blocked there now. Any idea to make the filled area totally continuous? Thanks!
plt.figure()
x=numpy.arange(0.,3.05,0.05)
y1=numpy.sin(2*numpy.pi*x)
y2=[2.]*len(y1)
y3=[-2.]*len(y1)
eta=1e-6
y1positive=y1+eta>=0
y1negative=y1-eta<=0
plt.plot(x,x*0,'--k')
plt.plot(x,y1,'.-k',label='y1')
plt.plot(x,y2,'.-g',label='y2')
plt.plot(x,y3,'.-r',label='y3')
plt.fill_between(x,y2+y1,y1,where=y1positive,color='green',alpha=0.5,linewidth=0)
plt.fill_between(x,y2,0,where=y1negative,color='green',alpha=0.5,linewidth=0)
plt.fill_between(x,y3+y1,y1,where=y1negative,color='red',alpha=0.5,linewidth=0)
plt.fill_between(x,y3,0,where=y1positive,color='red',alpha=0.5,linewidth=0)
plt.legend()
To make it clearer, here is the original plot (with eta=0.
in the code above). Everything is fine there, except those vertical interruptions in the green and red areas. The blank areas between the sine curve and zero are fine. The problematic vertical interruptions come from the definition of the filled areas: between the sine and the horizontal curve if they have the same sign, or between the horizontal curve and zero if the sine and the horizontal curve have opposite signs. So there is a switch in the conditions for filled areas, the blank vertical zones are the undesirable edge effects...
* FINAL EDIT * [with solution]
Because I cannot find a solution within fill_between
, one solution (based on pyHazard's answer) is to recalculate the upper and lower limit of the filled areas to make sure to have them continuous (no more swith in fill_between
condition).
plt.figure()
x=numpy.arange(0.,3.05,0.05)
y1=numpy.sin(2*numpy.pi*x)
y2=[2.]*len(y1)
y3=[-2.]*len(y1)
y1positive=y1>=0
y1negative=y1<=0
plt.plot(x,x*0,'--k')
plt.plot(x,y1,'.-k',label='y1')
plt.plot(x,y2,'.-g',label='y2')
plt.plot(x,y3,'.-r',label='y3')
#Solution: recalculate the upper and lower limit of filled areas
# to have each of them as one continuous line
y0=[0.]*len(y1)
y1pos=numpy.amax(numpy.vstack((y1,y0)),axis=0.)
y1neg=numpy.amin(numpy.vstack((y1,y0)),axis=0.)
y21=y2+y1pos
y31=y3+y1neg
plt.fill_between(x,y21,y1pos,color='green',alpha=0.5,linewidth=0)
plt.fill_between(x,y31,y1neg,color='red',alpha=0.5,linewidth=0)
plt.legend()