# Best way to plot an angle between two lines in Matplotlib

I am fairly new to using matplotlib and cannot find any examples that show two lines with the angle between them plotted.

This is my current image: And this is an example of what I want to achieve: I usually take a look at the Matplotlib gallery to get an idea of how to perform certain tasks but there does not seem to be anything similar.

You could use `matplotlib.patches.Arc` to plot an arc of the corresponding angle measure.

To draw the angle arc:

Define a function that could take 2 `matplotlib.lines.Line2D` objects, calculate the angle and return a `matplotlib.patches.Arc` object, which you can add to your plot along with the lines.

``````def get_angle_plot(line1, line2, offset = 1, color = None, origin = [0,0], len_x_axis = 1, len_y_axis = 1):

l1xy = line1.get_xydata()

# Angle between line1 and x-axis
slope1 = (l1xy - l1xy) / float(l1xy - l1xy)
angle1 = abs(math.degrees(math.atan(slope1))) # Taking only the positive angle

l2xy = line2.get_xydata()

# Angle between line2 and x-axis
slope2 = (l2xy - l2xy) / float(l2xy - l2xy)
angle2 = abs(math.degrees(math.atan(slope2)))

theta1 = min(angle1, angle2)
theta2 = max(angle1, angle2)

angle = theta2 - theta1

if color is None:
color = line1.get_color() # Uses the color of line 1 if color parameter is not passed.

return Arc(origin, len_x_axis*offset, len_y_axis*offset, 0, theta1, theta2, color=color, label = str(angle)+u"\u00b0")
``````

To print the angle values :

Incase you want the angle value to be displayed inline, refer this SO Question for how to print inline labels in matplotlib. Note that you must print the label for the arc.

I made a small function which extracts the vertices of the arc and tries to compute the coordinate of the angle text.

This may not be optimal and may not work well with all angle values.

``````def get_angle_text(angle_plot):
angle = angle_plot.get_label()[:-1] # Excluding the degree symbol
angle = "%0.2f"%float(angle)+u"\u00b0" # Display angle upto 2 decimal places

# Get the vertices of the angle arc
vertices = angle_plot.get_verts()

# Get the midpoint of the arc extremes
x_width = (vertices + vertices[-1]) / 2.0
y_width = (vertices + vertices[-1]) / 2.0

#print x_width, y_width

``````

Or you could always precompute the label point manually and use `text` to display the angle value. You can get the angle value from the `label` of the `Arc` object using the `get_label()` method (Since we had set the label to the angle value + the unicode degree symbol).

Example usage of the above functions :

``````fig = plt.figure()

line_1 = Line2D([0,1], [0,4], linewidth=1, linestyle = "-", color="green")
line_2 = Line2D([0,4.5], [0,3], linewidth=1, linestyle = "-", color="red")

angle_plot = get_angle_plot(line_1, line_2, 1)
angle_text = get_angle_text(angle_plot)
# Gets the arguments to be passed to ax.text as a list to display the angle value besides the arc

ax.add_patch(angle_plot) # To display the angle arc
ax.text(*angle_text) # To display the angle value

ax.set_xlim(0,7)
ax.set_ylim(0,5)
``````

If you do not care about inline placement of the angle text. You could use `plt.legend()` to print the angle value.

Finally :

``````plt.legend()
plt.show()
`````` The `offset` parameter in the function `get_angle_plot` is used to specify a psudo-radius value to the arc.

This will be useful when angle arcs may overlap with each other.

( In this figure, like I said, my `get_angle_text` function is not very optimal in placing the text value, but should give you an idea on how to compute the point )

``````line_3 = Line2D([0,7], [0,1], linewidth=1, linestyle = "-", color="brown")
angle_plot = get_angle_plot(line_1, line_3, 2, color="red") # Second angle arc will be red in color
angle_text = get_angle_text(angle_plot)

ax.add_patch(angle_plot) # To display the 2nd angle arc
ax.text(*angle_text) # To display the 2nd angle value
`````` • Stupid, question, did the matplotlib API change? I get always an error that index 2 is out of bounds when calculating the slopes... – anki Feb 25 at 8:15

Taking idea from @user3197452 here is what I use. This version combines `text` and also takes care of in-proportional axis ratios.

``````def add_corner_arc(ax, line, radius=.7, color=None, text=None, text_radius=.5, text_rotatation=0, **kwargs):
''' display an arc for p0p1p2 angle
Inputs:
ax     - axis to add arc to
line   - MATPLOTLIB line consisting of 3 points of the corner
color  - color of the arc
text   - text to show on corner
text_rotatation - extra rotation for text
kwargs - other arguments to pass to Arc
'''

lxy = line.get_xydata()

if len(lxy) < 3:
raise ValueError('at least 3 points in line must be available')

p0 = lxy
p1 = lxy
p2 = lxy

width = np.ptp([p0, p1, p2])
height = np.ptp([p0, p1, p2])

n = np.array([width, height]) * 1.0
p0_ = (p0 - p1) / n
p1_ = (p1 - p1)
p2_ = (p2 - p1) / n

theta0 = -get_angle(p0_, p1_)
theta1 = -get_angle(p2_, p1_)

if color is None:
# Uses the color line if color parameter is not passed.
color = line.get_color()

if text:
v = p2_ / np.linalg.norm(p2_)
if theta0 < 0:
theta0 = theta0 + 360
if theta1 < 0:
theta1 = theta1 + 360
theta = (theta0 - theta1) / 2 + text_rotatation
pt = np.dot(rotation_transform(theta), v[:,None]).T * n * text_radius
pt = pt + p1
pt = pt.squeeze()
ax.text(pt, pt, text,
horizontalalignment='left',
verticalalignment='top',)

return arc
``````

`get_angle` function is what I have posted here, but copied again for completeness.

``````def get_angle(p0, p1=np.array([0,0]), p2=None):
''' compute angle (in degrees) for p0p1p2 corner
Inputs:
p0,p1,p2 - points in the form of [x,y]
'''
if p2 is None:
p2 = p1 + np.array([1, 0])
v0 = np.array(p0) - np.array(p1)
v1 = np.array(p2) - np.array(p1)

angle = np.math.atan2(np.linalg.det([v0,v1]),np.dot(v0,v1))
return np.degrees(angle)

def rotation_transform(theta):
''' rotation matrix given theta
Inputs:
theta    - theta (in degrees)
'''
``````ax = gca()