# How to know the angle between two vectors?

I am making small game with pygame and I have made a gun that rotates around its center. My problem is that I want the gun to rotate by itself to the enemy direction, but I couldn't do that because I can't find the angle between the gun and the enemy to make the gun rotate to it I have searched and I found that I have to use the `atan2` but I didn't find any working code so I hope someone could help me.

Here is my code:

``````import pygame
from pygame.locals import*
pygame.init()
height=650
width=650
screen=pygame.display.set_mode((height,width))
clock=pygame.time.Clock()
gun=pygame.transform.smoothscale(gun,(200,200)).convert_alpha()
angle=0
angle_change=0
RED=(255,0,0)
x=525
y=155
while True :
screen.fill((150,150,150))
for event in pygame.event.get():
if event.type==QUIT:
pygame.quit()
quit()
if event.type==KEYDOWN:
if event.key==K_a:
angle_change=+1
if event.key==K_d:
angle_change=-1
elif event.type==KEYUP:
angle_change=0
angle+=angle_change
if angle>360:
angle=0
if angle<0:
angle=360
pygame.draw.rect(screen,RED,(x,y,64,64))
position = (height/2,width/2)
gun_rotate=pygame.transform.rotate(gun,angle)
rotate_rect = gun_rotate.get_rect()
rotate_rect.center = position
screen.blit(gun_rotate, rotate_rect)
pygame.display.update()
clock.tick(60)
``````

And here is a picture trying to make it clear:

How do I solve the problem?

• you may want to plot out the math on paper first prior to implementing it in code. Feb 15, 2017 at 19:45
• There is no angle between two points... There is only an angle between three points... Feb 15, 2017 at 19:46
• The angle between two vectors is `angle = acos(v1•v2)` where `•` means "dot product"? It sounds like the two vectors here would be defined by the shooter's current location and direction the gun is currently pointing, plus the current location and the location of the enemy. Feb 15, 2017 at 20:00
• @martineau Since the gun and the target are defined relative to implicit x, y axes then `tangent = (y2-y1)/(x2-x1)` would be used. This allows atan2 to be used. Feb 15, 2017 at 20:15
• answer what he meant to ask, not what he asked. In this case I would assume he wants the angle to the next 90 degree split of the coordinate system. Apr 18, 2018 at 21:41

The tangent of the angle between two points is defined as delta y / delta x That is (y2 - y1)/(x2-x1). This means that `math.atan2(dy, dx)` give the angle between the two points assuming that you know the base axis that defines the co-ordinates.

Your gun is assumed to be the (0, 0) point of the axes in order to calculate the angle in radians. Once you have that angle, then you can use the angle for the remainder of your calculations.

Note that since the angle is in radians, you need to use the math.pi instead of 180 degrees within your code. Also your test for more than 360 degrees (2*math.pi) is not needed. The test for negative (< 0) is incorrect as you then force it to 0, which forces the target to be on the x axis in the positive direction.

Your code to calculate the angle between the gun and the target is thus

``````myradians = math.atan2(targetY-gunY, targetX-gunX)
``````

If you want to convert radians to degrees

``````mydegrees = math.degrees(myradians)
``````

To convert from degrees to radians

``````myradians = math.radians(mydegrees)
``````

Python ATAN2

The Python ATAN2 function is one of the Python Math function which is used to returns the angle (in radians) from the X -Axis to the specified point (y, x).

math.atan2()

Definition Returns the tangent(y,x) in radius.

Syntax
math.atan2(y,x)

Parameters
y,x=numbers

Examples
The return is:

``````>>> import math
>>> math.atan2(88,34)
1.202100424136847
>>>
``````
• thank you so much sir that was very useful in my code and helpful to understand more about the angles Feb 15, 2017 at 20:55
• @مهند عبد الجليل Thanks if you want you can accept it by checking the check mark on the side of the answer. Feb 15, 2017 at 21:04
• done sir :) sorry i didnt know that i have to do this when i get the answered iam new here Feb 15, 2017 at 21:06
• @مهند عبد الجليل You do not have to It is available to allow you to mark the accepted answer if you choose to. Feb 15, 2017 at 21:38
• For reference, this is the official and most updated documentation for math.atan2(): docs.python.org/3/library/math.html#math.atan2 May 29, 2021 at 22:49

In general, the angle of a vector (x, y) can be calculated by `math.atan2(y, x)`. The vector can be defined by 2 points (x1, y1) and (x2, y2) on a line. Therefore the angle of the line is `math.atan2(y2-y1, x2-x1)`. Be aware that the y-axis needs to be reversed (`-y` respectively `y1-y2`) because the y-axis is generally pointing up but in the PyGame coordinate system the y-axis is pointing down. The unit of the angle in the Python `math` module is Radian, but the unit of the angle in PyGame functions like `pygame.transform.rotate()` is Degree. Hence the angle has to be converted from Radians to Degrees by `math.degrees`:

``````import math

def angle_of_vector(x, y):
return math.degrees(math.atan2(-y, x))

def angle_of_line(x1, y1, x2, y2):
return math.degrees(math.atan2(-(y2-y1), x2-x1))
``````

This can be simplified by using the `angle_to` method of the `pygame.math.Vector2` object. This method computes the angle between 2 vectors in the PyGame coordinate system in degrees. Therefore it is not necessary to reverse the y-axis and convert from radians to degrees. Just calculate the angle between the vector and (1, 0):

``````def angle_of_vector(x, y):
return pygame.math.Vector2(x, y).angle_to((1, 0))

def angle_of_line(x1, y1, x2, y2):
return angle_of_vector(x2-x1, y2-y1)
``````

Minimale example:

``````import pygame
import math

def angle_of_vector(x, y):
#return math.degrees(math.atan2(-y, x))            # 1: with math.atan
return pygame.math.Vector2(x, y).angle_to((1, 0))  # 2: with pygame.math.Vector2.angle_to

def angle_of_line(x1, y1, x2, y2):
#return math.degrees(math.atan2(-y1-y2, x2-x1))    # 1: math.atan
return angle_of_vector(x2-x1, y2-y1)               # 2: pygame.math.Vector2.angle_to

pygame.init()
window = pygame.display.set_mode((400, 400))
clock = pygame.time.Clock()
font = pygame.font.SysFont(None, 50)

angle = 0

run = True
while run:
clock.tick(60)
for event in pygame.event.get():
if event.type == pygame.QUIT:
run = False

cpt = window.get_rect().center
pt = cpt[0] + vec[0], cpt[1] + vec[1]
angle = angle_of_vector(*vec)

window.fill((255, 255, 255))
pygame.draw.circle(window, (0, 0, 0), cpt, radius, 1)
pygame.draw.line(window, (0, 255, 0), cpt, (cpt[0] + radius, cpt[1]), 3)
pygame.draw.line(window, (255, 0, 0), cpt, pt, 3)
text_surf = font.render(str(round(angle/5)*5) + "°", True, (255, 0, 0))
text_surf.set_alpha(127)
window.blit(text_surf, text_surf.get_rect(bottomleft = (cpt[0]+20, cpt[1]-20)))
pygame.display.flip()

angle = (angle + 1) % 360

pygame.quit()
exit()
``````

`angle_to` can be used to calculate the angle between 2 vectors or lines:

``````def angle_between_vectors(x1, y1, x2, y2):
return pygame.math.Vector2(x1, y1).angle_to((x2, y2))
``````

Minimal example:

``````import pygame
import math

def angle_between_vectors(x1, y1, x2, y2):
return pygame.math.Vector2(x1, y1).angle_to((x2, y2))

def angle_of_vector(x, y):
return pygame.math.Vector2(x, y).angle_to((1, 0))

pygame.init()
window = pygame.display.set_mode((400, 400))
clock = pygame.time.Clock()
font = pygame.font.SysFont(None, 50)

angle = 0

run = True
while run:
clock.tick(60)
for event in pygame.event.get():
if event.type == pygame.QUIT:
run = False

cpt = window.get_rect().center
pt1 = cpt[0] + vec1[0], cpt[1] + vec1[1]
pt2 = cpt[0] + vec2[0], cpt[1] + vec2[1]
angle = angle_between_vectors(*vec2, *vec1)

window.fill((255, 255, 255))
pygame.draw.circle(window, (0, 0, 0), cpt, radius, 1)
pygame.draw.line(window, (0, 255, 0), cpt, pt1, 3)
pygame.draw.line(window, (255, 0, 0), cpt, pt2, 3)
text_surf = font.render(str(round(angle/5)*5) + "°", True, (255, 0, 0))
text_surf.set_alpha(127)
window.blit(text_surf, text_surf.get_rect(bottomleft = (cpt[0]+20, cpt[1]-20)))
pygame.display.flip()

angle1 = (angle_of_vector(*vec1) + 1/3) % 360
angle2 = (angle_of_vector(*vec2) + 1) % 360

pygame.quit()
exit()
``````

Specifically for working with `shapely linestring` objects, assuming your object (two points) is of the form `(min long, min lat, max long, max lat)`

``````from math import atan2,degrees
line = #Your-LineString-Object
lineList = list(line.coords)

def AngleBtw2Points(pointA, pointB):
changeInX = pointB[0] - pointA[0]
changeInY = pointB[1] - pointA[1]

AngleBtw2Points(lineList[0],lineList[1])
``````

I used following code.

``````import math

def get_angle(x1,y1,x2,y2):
return mydegrees

# it should return -90 degree
print(get_angle(0,0,0,100))
``````

As one commenter already said, there is only an angle between three points or between two intersecting vectors, that can be derived from this threee points. I assume you want the angle, that the gun and the target (vector 1) and the X-Axis (vector 2) has. Here is a link to a page, that explains how to calculate that angle. http://www.euclideanspace.com/maths/algebra/vectors/angleBetween/index.htm

Python example:

``````import math

def angle(vector1, vector2):
length1 = math.sqrt(vector1[0] * vector1[0] + vector1[1] * vector1[1])
length2 = math.sqrt(vector2[0] * vector2[0] + vector2[1] * vector2[1])
return math.acos((vector1[0] * vector2[0] + vector1[1] * vector2[1])/ (length1 * length2))

vector1 = [targetX - gunX, targetY - gunY] # Vector of aiming of the gun at the target
vector2 = [1,0] #vector of X-axis
print(angle(vector1, vector2))
``````
• Since the gun and the target are defined relative to implicit x, y axes then `tangent = (y2-y1)/(x2-x1)` would be used. This allows atan2 to be used. You do not need to calculate the (implicit) axis vector. Feb 15, 2017 at 20:20
• You right, atan2 is a possible shortcut. I showed the general mathematical formula for explanatory reasons.
– Alex
Feb 15, 2017 at 20:22
• In either case you do not need to use vector 2, since vector one allows you to do the calculations that you need. Feb 15, 2017 at 20:35

You can just use the `as_polar` method of Pygame's Vector2 class which returns the polar coordinates of the vector (radius and polar angle (in degrees)).

So just subtract the first point vector from the second and call the `as_polar` method of the resulting vector.

``````import pygame as pg
from pygame.math import Vector2

pg.init()
screen = pg.display.set_mode((640, 480))
clock = pg.time.Clock()
BG_COLOR = pg.Color('gray12')

point = Vector2(320, 240)
mouse_pos = Vector2(0, 0)
radius, angle = (mouse_pos - point).as_polar()

done = False
while not done:
for event in pg.event.get():
if event.type == pg.QUIT:
done = True
elif event.type == pg.MOUSEMOTION:
mouse_pos = event.pos
radius, angle = (mouse_pos - point).as_polar()

screen.fill(BG_COLOR)
pg.draw.line(screen, (0, 100, 255), point, mouse_pos)
pg.display.flip()
clock.tick(60)
``````

For anyone wanting a bit more information on this subject check out omnicalculator's break down of the subject: https://www.omnicalculator.com/math/angle-between-two-vectors

Extracted relevant information:

``````from math import acos, sqrt, degrees

# returns angle in radians between two points pt1, pt2 where pt1=(x1, y1) and pt2=(x2, y2)
angle = acos((x1 * x2 + y1 * y2)/(sqrt(x1**2 + y1**2) * sqrt(x2**2 + y2**2)))

# convert to degrees
deg_angle = degrees(angle)
``````