# plot qualitative data on matplotlib

I have three 1D arrays of same length. These are:

1. Temperature (F)
2. wind speed
3. wind direction

temperature and wind speed have all float values while wind direction has string values like 'south', 'north', 'northeast', 'west', etc. Now, I want to create a 3D scatterplot with these arrays..what is the possible way (since the wind direction array has string values)? Can some logic be applied to this scenario?

-
Did you try creating a dictionary with the directions as keys, and the contents being unit vectors in the appropriate direction? You could then loop through your string array and create a corresponding numerical array. –  DaveP Nov 22 '12 at 8:21
Are you saying that I can replace my array of wind direction with appropriate numerical values..like 1 = south, 2 = north, 3 = northwest, etc. etc.? –  khan Nov 22 '12 at 8:49

Like @pwagner, I would go for a polar plot, but for 3D one. Basically what you can do is re-map your winds to polar degrees, as in example below:

``````angles = {'east':0, 'northeast':np.pi/4, 'north':np.pi/2, 'northwest':3*np.pi/4,
'west':np.pi, 'southwest':5*np.pi/4, 'south':3*np.pi/2, 'southeast':7*np.pi/4}
wind_angle = np.array([angles[i] for i in wind])
``````

This will give you wind directions; then you can transform your (wind, speed) coordinates to cartesian and plot it by 3D scatter. You even can code your temperature in colormap, with full example shown below:

``````import numpy as np
from matplotlib import cm
from matplotlib import pyplot as plt

fig = plt.figure()

wind_dirs = ['east', 'northeast', 'north', 'northwest',
'west', 'southwest', 'south', 'southeast']
# data
speed = np.random.uniform(0,1.25,100)
temp = np.random.uniform(-10,20,100)
wind = [wind_dirs[i] for i in np.random.randint(8, size=100)]

#transform data to cartesian
angles = {'east':0, 'northeast':np.pi/4, 'north':np.pi/2, 'northwest':3*np.pi/4,
'west':np.pi, 'southwest':5*np.pi/4, 'south':3*np.pi/2, 'southeast':7*np.pi/4}
wind_angle = np.array([angles[i] for i in wind])
X,Y = speed*np.cos(wind_angle),speed*np.sin(wind_angle)

ax.scatter3D(X, Y, temp, c = temp, cmap=cm.bwr)
ax.set_zlabel('Temp')
plt.show()
``````

which results in a nice graph which can be rotated and zoomed at:

-
I have the array of corresponding wind directions. Can i replace it at wind = [wind_dirs[i] for i original_wind_direction_array]? I think that'll work..right? –  khan Nov 22 '12 at 9:14
Yes, it should. My initial `wind` array is also a list of wind directions, although random ones. You can check it by inserting `print wind` in the code. –  Andrey Sobolev Nov 22 '12 at 9:20
one last question Andrey..A part from south, north and other realistic directions, I have one reading in the wind direction array which says 'Variable'...:-). I am thinking to assign it '0' degrees..what do you think? Any better suggestion? –  khan Nov 22 '12 at 9:36
That's a good question... 0 degrees is east direction, so if you assign it to 0, you'll not be distinguishing variable and east winds. So here I see 3 approaches: 1. assign variable wind speed so some angle like `3*np.pi/8`, which is not in the list of 'physical' directions; 2. assume that variable wind speed on average equals 0, and plot all the variable points in the center (but you lose info on wind speed); 3. plot variable points as circles with radius equal to wind speed and height equal to temperature (if you have many such points the graph will be overloaded). –  Andrey Sobolev Nov 22 '12 at 9:57
I think I will go with the 3*np.pi/8 thing because this is what I had in my mind. I will create an exception on that because the 'Variable' entries aren't many. Thanks Andrey. :-) –  khan Nov 22 '12 at 10:01

You could define a dictionary angles that defines the angle between the x-axis (east direction) and the wind direction like:

``````angles = {'East': 0., 'North': math.pi/2., 'West': math.pi, 'South': 3.*math.pi/2.}
``````

Then you can calculate the velocity in x (east) and y (north) direction as in following example:

``````import math

angles = {'East': 0., 'North': math.pi/2., 'West': math.pi, 'South': 3.*math.pi/2.}

directions = ['East', 'North', 'West', 'South']
vtot = [1.5, 2., 0.5, 3.]
Temperature = [230., 250. , 200., 198.] # K

vx = [vtot[i]*math.cos(angles[directions[i]]) for i in range(len(directions))] # velocity in x-direction (East)
vy = [vtot[i]*math.sin(angles[directions[i]]) for i in range(len(directions))] # velocity in y-direction (North)

print (vx)
print (vy)
``````

Then you can plot `vx`, `vy`, and `Temperature` in any 3D plot of matplotlib.

-
yeah..I am going through a very same logic...but in a bit different way. –  khan Nov 22 '12 at 9:38

As I'm reading this question I must think of a polar plot (naturally for wind directions) and the temperature encoded as color. A quick search brought up an existing matplotlib example. Rewriting the example it could look like the following:

``````import numpy as np
import matplotlib.pyplot as plt
from matplotlib import cm

N = 150
r = 2.0 * np.random.randn(N)
theta = 2.0 * np.pi * np.random.randn(N)
area = 10.0 * r**2.0 * np.random.randn(N)
colors = theta
ax = plt.subplot(111, polar=True)
c = plt.scatter(theta, r, c=colors, cmap=cm.hsv)
c.set_alpha(0.75)

ticklocs = ax.xaxis.get_ticklocs()
ax.xaxis.set_ticklabels([chr(number + 65) for number in range(len(ticklocs))])

plt.show()
``````

I hope you can adopt the example even further to your needs.

-
This is interesting but what I am willing to have is a 3D scatterplot with its z axis as wind direction, x as temperature and y as wind speed. –  khan Nov 22 '12 at 9:03