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Can someone give me an algorithm that finds the position of all four corners of a rectangle if I know its center point(in global coordinate space), width and height, and its rotation around that center point?

clarification edit: The width and height I am referring to is the length of the sides of the rectangle.

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  • This is 2D vector transformation using the standard rotation matrix [ { c s } { -s c } ] where c = cos(angle) and s = sin(angle)
    – duffymo
    Jan 27, 2017 at 17:01

4 Answers 4

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Top right corner has coordinates w/2, h/2 relative to the center. After rotation its absolute coordinates are

 x = cx + w/2 * Cos(Phi) - h/2 * Sin(Phi)
 y = cy + w/2 * Sin(Phi) + h/2 * Cos(Phi)
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  • Just tried this, and this works if the rectangle isn't rotated. Where in this can I factor in the angle the rectangle is rotated at? Jan 27, 2017 at 17:15
  • This formula gives coordinates of corners of rectangle, rotated by angle Phi.
    – MBo
    Jan 27, 2017 at 17:30
  • Ah okay, I was just plugging in the actual value of Phi. Thanks! Jan 27, 2017 at 17:59
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The coordinates of each vertices:

 Center point = (center.x, center.y)
 Angle        = angle
 Height       = height
 Width        = width      



TOP RIGHT VERTEX:
Top_Right.x = center.x + ((width / 2) * cos(angle)) - ((height / 2) * sin(angle))
Top_Right.y = center.y + ((width / 2) * sin(angle)) + ((height / 2) * cos(angle))



TOP LEFT VERTEX:
Top_Left.x = center.x - ((width / 2) * cos(angle)) - ((height / 2) * sin(angle))
Top_Left.y = center.y - ((width / 2) * sin(angle)) + ((height / 2) * cos(angle))



BOTTOM LEFT VERTEX:
Bot_Left.x = center.x - ((width / 2) * cos(angle)) + ((height / 2) * sin(angle))
Bot_Left.y = center.y - ((width / 2) * sin(angle)) - ((height / 2) * cos(angle))



BOTTOM RIGHT VERTEX:
Bot_Right.x = center.x + ((width / 2) * cos(angle)) + ((height / 2) * sin(angle))
Bot_Right.y = center.y + ((width / 2) * sin(angle)) - ((height / 2) * cos(angle))

This algorithm is a compressed version of these 3 steps:

Step 1: Center your rectangle around the origin

Step 2: Apply the rotation matrix to each vertex

Step 3: Move the rotated rectangle to the correct position, by adding the center point to each coordinate

This is explained in more depth here https://math.stackexchange.com/questions/126967/rotating-a-rectangle-via-a-rotation-matrix

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  • Hi. is it possible for you to add middle points? the rectangle has 9 points. 4 corner points nad 4 middle points (top middle, botom middle, right middle, left middle).
    – chitgoks
    Mar 2, 2021 at 9:10
  • @chitgoks if I understand this correctly, I think the easiest way to get the middle points of the side of the rectangle is to use the midpoint formula on each of the rotated corner points. purplemath.com/modules/midpoint.htm Mar 3, 2021 at 13:39
  • is the angle result from using Math.atan2?
    – chitgoks
    Mar 8, 2021 at 7:16
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If you need all of the corners, it just might be faster to create two perpendicular vectors from the center of the rectangle to both of its sides, and then to add/subtract these vectors to/from the center of the rectangle to form the points.

This might be faster, since you don't need to repeatedly call sin() and cos() functions (you do so only once for each).

Assuming we have a Vector library (for cleaner code - only helps with vector arithmetic), here is the code in Python:

def get_corners_from_rectangle(center: Vector, angle: float, dimensions: Vector):
   # create the (normalized) perpendicular vectors
   v1 = Vector(cos(angle), sin(angle))
   v2 = Vector(-v1[1], v1[0])  # rotate by 90

   # scale them appropriately by the dimensions
   v1 *= dimensions[0] / 2
   v2 *= dimensions[1] / 2

   # return the corners by moving the center of the rectangle by the vectors
   return [
      center + v1 + v2,
      center - v1 + v2,
      center - v1 - v2,
      center + v1 - v2,
   ]
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Code Python with matrices :

import numpy as np
import math
import matplotlib.pyplot as plt
from matplotlib.patches import Rectangle, Circle

#center of rectangle
X = 2698.77 
Y = 1283.01
center = np.array([[X],[Y]])

angle_deg = 83.5694 #angle rectangle
angle = math.radians(angle_deg)

# rectangle's dimension
width = 2022.23
height = 1978.78

R_lt = np.array([[np.cos(angle),-np.sin(angle)],[-np.sin(angle),-np.cos(angle)]])
A = np.dot(R_lt,np.array([[width/2], [height/2]])) + center

R_rt = np.array([[np.cos(angle),np.sin(angle)],[-np.sin(angle),np.cos(angle)]])
B = np.dot(R_rt,np.array([[width/2], [height/2]])) + center

R_rb = np.array([[-np.cos(angle),np.sin(angle)],[np.sin(angle),np.cos(angle)]])
C = np.dot(R_rb,np.array([[width/2], [height/2]])) + center

R_lb = np.array([[-np.cos(angle),-np.sin(angle)],[np.sin(angle),-np.cos(angle)]])
D = np.dot(R_lb,np.array([[width/2], [height/2]])) + center

corners = [A,B,C,D]

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