Plotting a line from a coordinate with and angle

Question

I basically want to plot a line from a coordinate (x, y) with a given angle (calculating the tangent value).

With a simple line of code like this pl.plot([x1, x2], [y1, y2], 'k-', lw=1) I can plot a line between two points but for this I need to calculate (x2, y2) coordinate. My (x1, y1) coordinate is fixed and the angle is known. Calculating (x2, y2) causes a problem at some point so I just want to plot the line from (x1, y1) with an angle (and preferably with a length).

The simplest solution I came up with that was to use point-slope function which is y - y1 = m(x - X1). Interpreting thiss and searching a little I used this piece of code:

x1 = 10
y1 = -50
angle = 30

sl = tan(radians(angle))
x = np.array(range(-10,10))
y = sl*(x-x1) + y1

pl.plot(x,y)
pl.show

sl is here slope and x1 and y1 are the coordinates. I needed to explain myself since this found to be a poor question.

So now, any ideas on how I can do/solve that?

Answer 1

Update version 2023

I'm not really sure what exactly you want from the explanation, but I think this will do something close to what you asked for.

You should use trigonometry to get the new point if you know the angle and length of a line you want to use.

import numpy as np
import math
import matplotlib.pyplot as plt


def plot_point(point, angle, length):
     '''
     point - Tuple (x, y)
     angle - Angle you want your end point at in degrees.
     length - Length of the line you want to plot.

     Will plot the line on a 10 x 10 plot.
     '''

     # unpack the first point
     x, y = point

     # find the end point
     endy = y + length * math.sin(math.radians(angle))
     endx = x + length * math.cos(math.radians(angle))

     # plot the points
     fig = plt.figure()
     ax = plt.subplot(111)
     ax.set_ylim([0, 10])   # set the bounds to be 10, 10
     ax.set_xlim([0, 10])
     ax.plot([x, endx], [y, endy])

     fig.show()

Answer 2

Inspired by this website, given a WGS84 coordinate, a bearing (sometimes referred to as forward azimuth) and a distance, you can compute a resulting destination point with the following logic:

import math 

distance = 100 # kilometres
radius = 6371 # earth's radius in kilometres

lon, lat = -7.83197, 37.040893
bearing = 40

δ = distance / radius
θ = math.radians(bearing)

φ1 = math.radians(lat)
λ1 = math.radians(lon)

sinφ2 = math.sin(φ1) * math.cos(δ) + math.cos(φ1) * math.sin(δ) * math.cos(θ)
φ2 = math.asin(sinφ2)
y = math.sin(θ) * math.sin(δ) * math.cos(φ1)
x = math.cos(δ) - math.sin(φ1) * sinφ2
λ2 = λ1 + math.atan2(y, x)

lat2 = math.degrees(φ2)
lon2 = math.degrees(λ2)

Which will yield

>>> lon2, lat2
(-7.831861171142511, 37.04091627610624)

Answer 3

Standard module for complex numbers, cmath, makes it easy.

   import cmath

   pt = cmath.rect(r, angle)  
   x = pt.real  
   y = pt.imag

Given the length of the line (or radius), r, and the angle in radians, we can get the terminal point x and y coordinates (x, y) for the line starting from origin (0, 0).

• Not starting from origin: if line starts from any other point (x1, y1), simply add to get (x2, y2) as x2 = x1 + x and y2 = y1 + y

• Degrees to Radians: if angle is available in degrees, use math.radians(deg) to get the same in radians. Of course, remember to import math before use.

cmath.rect(r, phi) is the function you will call. It returns a complex number! Simply take its real and imaginary parts as the x and y values you need.

Answer 4

What you want is kind new and is called axline.

import numpy as np
import matplotlib.pyplot as plt

x1 = 10
y1 = -50
angle = 30

sl = np.tan(np.radians(angle))

x = np.arange(-10,10)
y = sl*(x-x1) + y1

plt.plot(x,y, 'o', label='manual')

plt.axline((x1,y1), slope=sl, color='red', label='axline')

plt.legend()
plt.grid()
plt.show()