Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm trying to animate smooth motion between two points on the screen. At the moment, I am using the following python generator function to determine the point at which to draw the image:

#indexes (just for readability)
X=0
Y=1

def followLine(pointA, pointB, speed):
    x1, y1 = pointA
    x2, y2 = pointB
    movement=[0, 0]
    pos=list(pointA)
    diffY=y2-y1
    diffX=x2-x1
    if abs(diffY) > abs(diffX):
        #Y distance is greater than x distace
        movement[Y]=speed
        numFrames=abs(diffY)//speed
        if numFrames==0:
            movement[X]=0
        else:
            movement[X]=abs(diffX)//numFrames
    elif abs(diffY) < abs(diffX):
        #Y distance is less than x distace
        movement[X]=speed
        numFrames=abs(diffX)//speed
        if numFrames==0:
            movement[Y]=0
        else:
            movement[Y]=abs(diffY)//numFrames
    else: #Equal
        movement=[speed]*2

    if diffY < 0:
        #is negative
        movement[Y] *= -1
    if diffX < 0:
        movement[X] *= -1

    yield pointA
    while (abs(pos[X]-x2) > speed)or(abs(pos[Y]-y2) > speed):
        pos[X] += movement[X]
        pos[Y] += movement[Y]
        yield pos
    yield pointB

However, this has 2 problems:

  • First, my main concern is that if pointA and pointB are very far apart, or if the speed is too low, the animation will pass right by pointB, and will keep going for infinity;

  • The other problem is that, at the end of the animation, there is a sort of jolt as the image snaps into place. This jolt is usually fairly imperceptible, but I'd like to try and make the animation smoother.

How can I do this? I've been looking into the use of trig functions and that seems promising, but I'm not much of a math person, so I'm having trouble understanding exactly how I might implement it using trig.

Also, for what it's worth I'm using Python 3.2.

share|improve this question
add comment

1 Answer

up vote 0 down vote accepted

There's missing information, I think. Seems like you need to either substitute a numFrames arg for speed, or add a time arg in addition to speed. Assuming the former, how about this. Note this generates numFrames+1 points so that pointA and pointB are always the first and last point, respectively, but that's trivial to change if that's not the behavior you want:

def followLine(pointA, pointB, numFrames):
    x1, y1 = pointA
    x2, y2 = pointB
    diffY = float(y2 - y1) /    numFrames
    diffX = float(x2 - x1) /    numFrames

    yield(pointA)
    for f in range(1,numFrames):
    point = (x1 + f * diffX, y1 + f * diffY)
        yield(point)
    yield(pointB)

points = followLine((0,0), (1,1), 10)

# then iterate over the points and do whatever                                                                                                
for p in points:
    print str(p)
share|improve this answer
    
Time is actually managed by another part of the program which calls next() on the generator once per frame, and speed was meant to be more along the lines of distance traveled per frame. But thanks, you got me going on the right track. I changed the arg back to speed and calculated numFrames with int(max((abs(y2-y1), abs(x2-x1)))/speed, and rounded the output (As I needed it in int form), indented the first line of thar for loop, and it worked beautifully. –  user1941632 Jan 16 '13 at 3:22
add comment

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.