Angular movement in pygame

I've made a function which allowes me to move object diagonal:

``````    if(myX > targetX):
dx = myX - targetX
else:
dx = targetX - myX
if(myY > targetY):
dy = myY - targetY
else:
dy = targetY - myY

if(dy == 0):
dy = 1
if(dx == 0):
dx = 1

#Calc Movement
if(dx < dy):
Speedy = dy/dx
Speedx = 1
if(dx > dy):
Speedy = 1
Speedx = dx/dy
elif(dx == dy):
Speedx = 1
Speedy = 1

if(myX < targetX):
Speedx = Speedx * -1
if(myY < targetY):
Speedy = Speedy * -1

return Speedx,Speedy
``````

The code perfectly, the problem is that it dosen't work like I want it to. Right now the object speeds up if I move closer to it, which looks rather odd. I am very aware why it does this, but is there an easy way to fix the speed to be constant, but not the direction?

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Time to learn some trig! You can calculate the angle it needs to travel in, and then get the x and y with sin and cos. From here you can multiply by the speed you want to go. – placeybordeaux Feb 16 '13 at 16:46
@placeybordeaux: While trigonometry would work, it's not a requirement. – martineau Feb 16 '13 at 18:25

If you do it this way dx and dy are scalars of a vector that points from your guy to the target. Then you divide by the magnitude of both of them, here it is represented as dz. Now dx and dy represent a unit vector. Once you multiply them by speed you will get your object moving at a constant speed, but varrying direction.

``````import math

#set speed to how fast you want your guy to move
speed = 1
dx = myX - targetX
dy = myY - targetY

dz = math.sqrt(dx**2 + dy**2)

speedx = dx/dz * speed
speedy = dy/dz * speed
``````
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Alternatively, if you want to get from point `My` to `target` in `num_steps`, just use `speedx = float(dx) / num_steps` and `speedy = float(dy) / num_steps`. – martineau Feb 16 '13 at 18:22
Tried this, didn't work though so I tried the trignomical version instead. Didn't work either. Turns out I need the speed to be above 1 otherwise it won't move :S Got it to work tho, thanks for the help! – Tobias Laving Feb 17 '13 at 9:39