I made a post earlier related to this project I'm working on, but the information I received wasn't enough, so I'm just putting this all out there on the plate. The project I'm working on is a game very similar to the one at http://cursors.io. The player controls an in-game cursor, which follows the mouse. However, the cursor can't move beyond objects such as walls and blocks. enter image description here

the third approach, with the cursor getting stuck on an intersection


Cursor - The ingame object
Mouse  - The player's actual cursor

I tried several approaches to this.

Approach 1

I tried moving the cursor on top of the player's mouse every frame, and if it was inside the shape object of a collideable, it wouldn't move that frame. However, this caused problems for if the user paused the game, moved the mouse to another location on the screen, and unpaused. Or, even if the user moved the mouse fast enough to travel across the distance of an object within a single frame, they'd be able to 'glitch' through it.

Approach 2

The next approach I tried was moving the cursor a set amount of pixels every frame in the direction of the player's mouse, applying the same checking method as approach 1. This resulted in jerky, slow movements, with the worry that if the set pixel movement was too high it would still jump over very thin obstacles.

Approach 3

The final approach I tried was by using line segment intersections. I would define a main line from the cursor to the mouse, then the boundary lines of every collideable object. When the mouse moved, I would check to see if the main line segment intersected with any boundary lines, and if so record it. After all boundary lines were checked, the closest intersection would be the one kept. I would move the cursor to that intersection point and call it done. If no intersections happened, I would just move the cursor to the mouse. The problem with this though is that once the cursor was moved to an intersection point, it was stuck. The intersection point stayed at the new location of the cursor, since it was still right on top of the boundary line. As well, I couldn't think of a way to get the cursor to slide around on the boundary line, following the mouse's x or y movements while not passing through.

Some example code:

# ============
#  Approach 1
# ============
# Game loop {
if not any([i.contains(mousepos) for i in collideables]):
    cursorpos = mousepos
# }

# ============
#  Approach 2
# ============
speed = 5

# Game loop {
dx = copysign(1, mousepos[0]-cursorpos[0])
dy = copysign(1, mousepos[1]-cursorpos[1])
destx = dx*speed
desty = dy*speed
if not any([i.contains([destx, desty]) for i in collideables]):
    cursorpos = [destx, desty]
# }

# ============
#  Approach 3
# ============
def lineIntersection(line1, line2):
    # intersection code to determine x and y of intersection, as well
    # as the distance across line1 to the intersection
    if intersection:
        return [x, y, distance]
    return None

# Game loop {
closestIntersect = None
for collideable in collideables:
    for boundaryline in collideable:
        intersect = lineIntersection(mainline, boundaryline)
        if intersect:
            if not closestIntersect or intersect[2] < closestIntersect[2]:
                closestIntersect = intersect
if closestIntersect:
    cursorpos = intersect[0], intersect[1]
# }
  • Store the last "good" cursor point, and if the next check fails, revert to it? Pretty similar to approach #1. Otherwise, trying to push the cursor out of the object onto the nearest edge is a pain to do, especially if you have non-convex polygons.
    – AndyG
    Commented Feb 15, 2016 at 21:54
  • @AndyG Storing the last good cursor point wouldn't help at all. The user would still be able to 'glitch' through objects by skipping over them.
    – catsock
    Commented Feb 15, 2016 at 22:17
  • Such is life; physics engines oftentimes don't even bother with that case, as the timestep is often small enough to catch it. Thin obstacles and fast objects have always been a problem. Certainly you could attempt a mixture of techniques; set a cap on maximum velocity of the cursor, as well as apply your line intersection idea. I'd suggest a modification to the line intersection to compute the surface normal at the point of intersection, and "bump" the cursor back a little bit along that normal.
    – AndyG
    Commented Feb 15, 2016 at 22:22

2 Answers 2


I think the code for approach 3 is actually fine, but the intersect test in the game loop should filter out pseudo intersections that coincide with the mouse position. I.e. test if intersect and mouse_position != xy_from_intersect instead of if intersect.

  • that'll work for integer coordinates, but we could have some problems with float ones (I think so)
    – Eugene
    Commented Feb 15, 2016 at 22:45
  • But if you don't count the intersections that are right on top of the cursor, the next frame the cursor will jump through that boundary line.
    – catsock
    Commented Feb 15, 2016 at 22:55
  • @Eugene AFAICT the problem happens if and only if the mouse cursor happens to be exactly on the intersection, so integer vs. float shouldn't make a difference.
    – Toolforger
    Commented Feb 16, 2016 at 15:28
  • @Neon-Wizard The original code does not depend on intersections, it simply (and cleverly) takes the one line that comes out as having the least distance between intersection point and mouse cursor. I do not think there is really a reason to count intersections with that approach. What can happen is that if the lines have an off-by-one error and don't fully cover the corner point, that there's a gap that the mouse can sneak through. That's a question of level design though, just make sure the endpoints don't leave gaps.
    – Toolforger
    Commented Feb 16, 2016 at 15:32

Approach 3 is the correct one, but with one extra: I think you have to account for normals here. If dot product of edge normal and cursor moving direction is not negative, you can safely move your cursor. Here we assume, that shape's normals face outwards.

EDIT: About intersections - I think you could solve this by checking if at least one intersection's edges' normal dot product with cursor direction is not negative

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