# How to rotate an image around its center while its scale is getting larger(in Pygame)

I loaded an image and I want it to rotate around its center, while its scale is getting larger. I know how to rotate an image around its center originally, but it's hard for me to calculate the position if the scale is getting larger. I tried it, but the image just 'dances', not staying in the center.

• I don't understand very well what your problem is, could we have any code. Jan 31, 2019 at 19:40
• As @Guydangerous99 suggests, if you provide a minimal reproducible example showing what you've tried, it will be easier to assist you. There is a function pygame.transform.rotozoom that should do what you need in one step. Feb 1, 2019 at 1:28

Store the center of the source image rectangle and update the center of the rotated and zoomed image rectangle after the rotation and zoom operation, by the stored center position. Rotate and zoom the image by `pygame.transform.rotozoom()`:

``````def blitRotateCenter(surf, image, topleft, angle, scale):

center = image.get_rect(topleft = topleft).center
rotated_image = pygame.transform.rotozoom(image, angle, scale)
new_rect = rotated_image.get_rect(center = center)

surf.blit(rotated_image, new_rect.topleft)
``````

An image (`pygame.Surface`) can be rotated by `pygame.transform.rotate`.

If that is done progressively in a loop, then the image gets distorted and rapidly increases:

``````while not done:

# [...]

image = pygame.transform.rotate(image, 1)
screen.blit(image, pos)
pygame.display.flip()
``````

This is cause, because the bounding rectangle of a rotated image is always greater than the bounding rectangle of the original image (except some rotations by multiples of 90 degrees).
The image gets distort because of the multiply copies. Each rotation generates a small error (inaccuracy). The sum of the errors is growing and the images decays.

That can be fixed by keeping the original image and "blit" an image which was generated by a single rotation operation form the original image.

``````angle = 0
while not done:

# [...]

rotated_image = pygame.transform.rotate(image, angle)
angle += 1

screen.blit(rotated_image, pos)
pygame.display.flip()
``````

Now the image seems to arbitrary change its position, because the size of the image changes by the rotation and origin is always the top left of the bounding rectangle of the image.

This can be compensated by comparing the axis aligned bounding box of the image before the rotation and after the rotation.
For the following math `pygame.math.Vector2` is used. Note in screen coordinates the y points down the screen, but the mathematical y axis points form the bottom to the top. This causes that the y axis has to be "flipped" during calculations

Set up a list with the 4 corner points of the bounding box:

``````w, h = image.get_size()
box = [pygame.math.Vector2(p) for p in [(0, 0), (w, 0), (w, -h), (0, -h)]]
``````

Rotate the vectors to the corner points by `pygame.math.Vector2.rotate`:

``````box_rotate = [p.rotate(angle) for p in box]
``````

Get the minimum and the maximum of the rotated points:

``````min_box = (min(box_rotate, key=lambda p: p[0])[0], min(box_rotate, key=lambda p: p[1])[1])
max_box = (max(box_rotate, key=lambda p: p[0])[0], max(box_rotate, key=lambda p: p[1])[1])
``````

Calculate the "compensated" origin of the upper left point of the image by adding the minimum of the rotated box to the position. For the y coordinate `max_box[1]` is the minimum, because of the "flipping" along the y axis:

``````origin = (pos[0] + min_box[0], pos[1] - max_box[1])

rotated_image = pygame.transform.rotate(image, angle)
screen.blit(rotated_image, origin)
``````

To define a pivot on the original image, the "translation" of the pivot in relation to the upper left of the image has to be calculated and the "blit" position of the image has to be displaced by the translation.

Define a pivot e.g. in the center of the image:

``````pivot = pygame.math.Vector2(w/2, -h/2)
``````

Calculate the translation of the rotated pivot:

``````pivot_rotate = pivot.rotate(angle)
pivot_move   = pivot_rotate - pivot
``````

Finally calculate the origin of the rotated image:

``````origin = (pos[0] + min_box[0] - pivot_move[0], pos[1] - max_box[1] + pivot_move[1])

rotated_image = pygame.transform.rotate(image, angle)
screen.blit(rotated_image, origin)
``````

If the image has to be additionally zoomed, then the zoom has to be taken into account when the origin of the image is calculated:

``````move   = (-pivot[0] + min_box[0] - pivot_move[0], pivot[1] - max_box[1] + pivot_move[1])
origin = (pos[0] + zoom * move[0], pos[1] + zoom * move[1])

rotozoom_image = pygame.transform.rotozoom(image, angle, zoom)
screen.blit(rotozoom_image, origin)
``````

In the following example program, the function `blitRotate` does all the above steps and "blit" a rotated image to a surface. `pos` is the position of the image. `originPos` is the point on the image which is placed on `pos` and the pivot.

Minimal example: repl.it/@Rabbid76/PyGame-RotateAroundPivotAndZoom

``````import pygame

pygame.init()
screen = pygame.display.set_mode((300, 300))
clock = pygame.time.Clock()

def blitRotate(surf, image, pos, originPos, angle, zoom):

# calcaulate the axis aligned bounding box of the rotated image
w, h       = image.get_size()
box        = [pygame.math.Vector2(p) for p in [(0, 0), (w, 0), (w, -h), (0, -h)]]
box_rotate = [p.rotate(angle) for p in box]
min_box    = (min(box_rotate, key=lambda p: p[0])[0], min(box_rotate, key=lambda p: p[1])[1])
max_box    = (max(box_rotate, key=lambda p: p[0])[0], max(box_rotate, key=lambda p: p[1])[1])

# calculate the translation of the pivot
pivot        = pygame.math.Vector2(originPos[0], -originPos[1])
pivot_rotate = pivot.rotate(angle)
pivot_move   = pivot_rotate - pivot

# calculate the upper left origin of the rotated image
move   = (-originPos[0] + min_box[0] - pivot_move[0], -originPos[1] - max_box[1] + pivot_move[1])
origin = (pos[0] + zoom * move[0], pos[1] + zoom * move[1])

# get a rotated image
rotozoom_image = pygame.transform.rotozoom(image, angle, zoom)

# rotate and blit the image
surf.blit(rotozoom_image, origin)

# draw rectangle around the image
pygame.draw.rect (surf, (255, 0, 0), (*origin, *rotozoom_image.get_size()),2)

try:
except:
text = pygame.font.SysFont('Times New Roman', 50).render('image', False, (255, 255, 0))
image = pygame.Surface((text.get_width()+1, text.get_height()+1))
pygame.draw.rect(image, (0, 0, 255), (1, 1, *text.get_size()))
image.blit(text, (1, 1))
w, h = image.get_size()

start = False
angle, zoom = 0, 1
done = False
while not done:
clock.tick(60)
for event in pygame.event.get():
if event.type == pygame.QUIT:
done = True
elif event.type == pygame.KEYDOWN or event.type == pygame.MOUSEBUTTONDOWN:
start = True

pos = (screen.get_width()/2, screen.get_height()/2)

screen.fill(0)
blitRotate(screen, image, pos, (w/2, h/2), angle, zoom)
if start:
angle += 1
zoom += 0.01
if zoom > 5:
zoom = 1

pygame.draw.line(screen, (0, 255, 0), (pos[0]-20, pos[1]), (pos[0]+20, pos[1]), 3)
pygame.draw.line(screen, (0, 255, 0), (pos[0], pos[1]-20), (pos[0], pos[1]+20), 3)
pygame.draw.circle(screen, (0, 255, 0), pos, 7, 0)

pygame.display.flip()

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

You need to re-set the image's centre after it is scaled (& rotated) as both of these can change the image size.

``````# rotate and zoom the sprite
self.image = pygame.transform.rotozoom(self.original_image, self.angle, self.scale)
# reset it back to original centre
self.rect = self.image.get_rect(center=self.rect.center)
``````

Another thing to consider is to ensure your image-content is centred within itself. (Imagine a rectangle with only content drawn to one-side) the rotation will be centred geometrically, but still look weird visually as it rotates.