# Make a sprite move to the mouse click position step by step

I'm writing a little pirate game in Pygame. If you played sea battles in Empires Total War, you have an idea of what I would like to achieve:

The ship's sprite is at position `(x1|y1)`. The player now clicks at position `(x2|y2)` on the screen. The sprite is now supposed to take `(x2|y2)` as its new position - by going there step by step, not by beaming there instantly.

I figured out that it has something to do with the diagonal of the rectangle `(x1|y1)`,`(x1|y2)`,`(x2|y2)`,`(x2|y1)` but I just can't figure it out, especially not with keeping the speed the same no matter what angle that diagonal has and considering that the `x` and `y` values of either (ship or click) might be bigger or smaller than the respective other.

This little snippet is my last try to write a working function:

``````def update(self, new_x, new_y, speed, screen, clicked):

if clicked:
self.xshift = (self.x - new_x)
self.yshift = ((self.y - new_y) / (self.x - new_x))

if self.x > (new_x + 10):
self.x -= 1
self.y -= self.yshift
elif self.x > new_x and self.x < (new_x + 10):
self.x -= 1
self.y -= self.yshift
elif self.x < (new_x - 10):
self.x += 1
self.y += self.yshift
elif self.x < new_x and self.x < (new_x - 10):
self.x += 1
self.y += self.yshift
else:
self.x += 0
self.y += 0

screen.set_at((self.x, self.y), (255, 0, 255))
``````

The "ship" is just a pink pixel here. The reaction it shows upon my clicks onto the screen is to move roughly towards my click but to stop at a seemingly random distance of the point I clicked.

The variables are:

`new_x`, `new_y` = position of mouseclick
`speed` = constant speed depending on ship types
`clicked` = set `true` by the `MOUSEBUTTONDOWN` event, to ensure that the xshift and yshift of self are only defined when the player clicked and not each frame again.

How can I make the ship move smoothly from its current position to the point the player clicked?

Say the current position is `pos`, and the point the player clicked is `target_pos`, then take the vector between `pos` and `target_pos`.

Now you know how to get from `pos` to `target_pos`, but to move in constant speed (and not the entire distance at once), you have to normalize the vector, and apply a speed constant by scalar multiplication.

That's it.

Complete example: (the relevant code is in the `Ship.update` method)

``````import pygame

class Ship(pygame.sprite.Sprite):

def __init__(self, speed, color):
super().__init__()
self.image = pygame.Surface((10, 10))
self.image.set_colorkey((12,34,56))
self.image.fill((12,34,56))
pygame.draw.circle(self.image, color, (5, 5), 3)
self.rect = self.image.get_rect()

self.pos = pygame.Vector2(0, 0)
self.set_target((0, 0))
self.speed = speed

def set_target(self, pos):
self.target = pygame.Vector2(pos)

def update(self):
move = self.target - self.pos
move_length = move.length()

if move_length < self.speed:
self.pos = self.target
elif move_length != 0:
move.normalize_ip()
move = move * self.speed
self.pos += move

self.rect.topleft = list(int(v) for v in self.pos)

def main():
pygame.init()
quit = False
screen = pygame.display.set_mode((300, 300))
clock = pygame.time.Clock()

group = pygame.sprite.Group(
Ship(1.5, pygame.Color('white')),
Ship(3.0, pygame.Color('orange')),
Ship(4.5, pygame.Color('dodgerblue')))

while not quit:
for event in pygame.event.get():
if event.type == pygame.QUIT:
return
if event.type == pygame.MOUSEBUTTONDOWN:
for ship in group.sprites():
ship.set_target(pygame.mouse.get_pos())

group.update()
screen.fill((20, 20, 20))
group.draw(screen)
pygame.display.flip()
clock.tick(60)

if __name__ == '__main__':
main()
``````