This is my solution. The main advantages are:

- You can specify the axes (useful for twin axes or if working with multiple axes simultaneously)
- You can specify the axis (put ticks on x-axis or y-axis)
- You can easily add new ticks while keeping the automatic ones
- It automatically replaces if you add a tick that already exists.

Code:

```
#!/usr/bin/python
from __future__ import division
import matplotlib.pyplot as plt
import numpy as np
#Function to add ticks
def addticks(ax,newLocs,newLabels,pos='x'):
# Draw to get ticks
plt.draw()
# Get existing ticks
if pos=='x':
locs = ax.get_xticks().tolist()
labels=[x.get_text() for x in ax.get_xticklabels()]
elif pos =='y':
locs = ax.get_yticks().tolist()
labels=[x.get_text() for x in ax.get_yticklabels()]
else:
print("WRONG pos. Use 'x' or 'y'")
return
# Build dictionary of ticks
Dticks=dict(zip(locs,labels))
# Add/Replace new ticks
for Loc,Lab in zip(newLocs,newLabels):
Dticks[Loc]=Lab
# Get back tick lists
locs=list(Dticks.keys())
labels=list(Dticks.values())
# Generate new ticks
if pos=='x':
ax.set_xticks(locs)
ax.set_xticklabels(labels)
elif pos =='y':
ax.set_yticks(locs)
ax.set_yticklabels(labels)
#Get numpy arrays
x=np.linspace(0,2)
y=np.sin(4*x)
#Start figure
fig = plt.figure()
ax=fig.add_subplot(111)
#Plot Arrays
ax.plot(x,y)
#Add a twin axes
axr=ax.twinx()
#Add more ticks
addticks(ax,[1/3,0.75,1.0],['1/3','3/4','Replaced'])
addticks(axr,[0.5],['Miguel'],'y')
#Save figure
plt.savefig('MWE.pdf')
```