I'm trying to create a graph using matplotlib that will have dates - pulled from files - as a major tick and hours as minor ticks. The code I have so far has this even though the text is all bunched up - I'm not concerned about that right now. My issue is that if I were to zoom or pan, the ticks and their respective values do not update. For instance, if I were to zoom into a single day, all of the days are still displayed on the x-axis. I'm using Spyder as my IDE and Python 2.7. Also, I should just throw this out: I'm new to both Python and programming in general.

```
hticks = []
tickcnt = 0
for i in range(len(MBTempvalue)):
mcnt = mcnt + 1
cnt = cnt + 1
if mcnt == 60:
mcnt = 0
harray.append(str(hcnt))
hcnt = hcnt + 1
tickcnt = tickcnt + 1
hticks.append(tickcnt)
if hcnt == 24:
hcnt = 0
if cnt == 1375:
cnt = 0
days = days + 1
hours = days * 24
fig = plt.figure(figsize = (8,6))
ax = fig.add_subplot(211)
xmax = float(len(PS0AmbientTempvalue))
dx = hours/xmax
y = PS0AmbientTempvalue
y2 = PS1AmbientTempvalue
x = np.arange(0,hours, dx)
plt.xticks(darray,date)
ax.xaxis.set_major_locator(LinearLocator(len(darray)))
minorLocator = AutoMinorLocator(23)
ax.xaxis.set_minor_locator(minorLocator)
minorformatter = FixedFormatter(harray)
ax.xaxis.set_minor_formatter(minorformatter)
l1, l2, l3, l4 = ax.plot(x,y, 'b', x, PS0AmbientTempavgline, 'r', x, y2, 'y', x, PS1AmbientTempavgline, 'g')
#plt.xlabel('Hours')
plt.ylabel('Temp - C')
plt.title(' PS0/T_AMB and PS1/T_AMB')
plt.axis([0, hours, (minscale1-5), (maxscale1+5)])
plt.grid(True)
fig.legend((l1,l2,l3,l4), ('PS0 Act', 'PS0 Avg', 'PS1 Act', 'PS1 Avg'), 'upper right')
plt.annotate(('PS0 Max = ' + PS0AmbientTempstrmax), (0,0), (0, -70), xycoords = 'axes fraction', textcoords = 'offset points', va ='bottom')
plt.annotate(('PS0 Min = ' + PS0AmbientTempstrmin), (0,0), (0, -90), xycoords = 'axes fraction', textcoords = 'offset points', va = 'bottom')
plt.annotate(('PS0 Avg = ' + PS0AmbientTempstravg), (0,0), (0, -110), xycoords = 'axes fraction', textcoords = 'offset points', va ='bottom')
plt.annotate(('PS0 Stand Dev = ' + PS0AmbientTempstrstandev), (0,0), (0, -130), xycoords = 'axes fraction', textcoords = 'offset points', va ='bottom')
plt.annotate(('PS 1Max = '+ PS1AmbientTempstrmax), (0,0), (8*hours, -70), xycoords = 'axes fraction', textcoords = 'offset points', va = 'bottom')
plt.annotate(('PS1 Min = ' + PS1AmbientTempstrmin), (0,0), (8*hours, -90), xycoords = 'axes fraction', textcoords = 'offset points', va = 'bottom')
plt.annotate(('PS1 Avg = ' + PS1AmbientTempstravg), (0,0), (8*hours, -110), xycoords = 'axes fraction', textcoords = 'offset points', va = 'bottom')
plt.annotate(('PS1 Stand Dev = ' + PS1AmbientTempstrstandev), (0,0), (8*hours, -130), xycoords = 'axes fraction', textcoords = 'offset points', va = 'bottom')
```

Any help will be GREATLY appreciated. Thanks! Chris