Collision detection & response
Axially aligned bounding box (AABB)
Closest Point in an AABB
if (x < minX) {
x = minX;
} else if (x > maxX) {
x = maxX;
}
if (y < minY) {
y = minY;
} else if (y > maxY) {
y = maxY;
}
if (z < minZ) {
z = minZ;
} else if (z > maxZ) {
z = maxZ;
}def cpbbox(
x,y,
xmin,ymin,xmax,ymax
)
if x<xmin
x=xmin
elsif x>=xmax
x=xmax-1
end
if y<ymin
y=ymin
elsif y>=ymax
y=ymax-1
end
return x,y
endThis is done by “pushing” into along each axis in turn. Notice that if the point is already inside the box, this code returns the original point.
Intersection of a Sphere and AABB
def circbbox(
x,y,r,
xmin,ymin,xmax,ymax
)
cx,cy=cpbbox(x,y,xmin,ymin,xmax,ymax)
(x-cx)**2+(y-cy)**2<=r**2
end
def circbbox2(
x,y,r,
bx,by,bw,bh
)
cx,cy=cpbbox(x,y,bx,by,bx+bw,by+bh)
(x-cx)**2+(y-cy)**2<=r**2
end... we first find the point on the box that is closest to the center of the sphere by using the... Closest Point in an AABB... We compute the distance from this point to the center of the sphere and compare this distance with the radius. (Actually, in practice we compare the distance squared against the radius squared to avoid the square root in the distance computation.) If the distance is smaller than the radius, then the sphere intersects the AABB.
Intersection of Two AABBs
bool aabbsOverlap(const AABB3 &a, const AABB3 &b) {
// Check for a separating axis.
if (a.min.x >= b.max.x) return false;
if (a.max.x <= b.min.x) return false;
if (a.min.y >= b.max.y) return false;
if (a.max.y <= b.min.y) return false;
if (a.min.z >= b.max.z) return false;
if (a.max.z <= b.min.z) return false;
// Overlap on all three axes, so their
// intersection must be non-empty
return true;
}def bboxbbox(
aminx,aminy,amaxx,amaxy,
bminx,bminy,bmaxx,bmaxy
)
not (
aminx>=bmaxx || amaxx<=bminx ||
aminy>=bmaxy || amaxy<=bminy
)
end
def bboxbbox2(
ax,ay,aw,ah,
bx,by,bw,bh
)
not (
ax>=bx+bw || ax+aw<=bx ||
ay>=by+bh || ay+ah<=by
)
endTest if left is on the right or right on the left or top below bottom or bottom above top (same front and back for 3D) - not overlapping.
There is a dynamic test described which tells interval of time when the two boxes overlap when the collision starts given velocity vector.
Dynamic intersection of Two AABBs
# Overlap of static segmetn with
# dynamic segment moving by v
# Returns [time enter, time leave]
# time enter:
# [0.0,1.0> - s and m will overlap
# next frame
# <0.0 - s is inside m
# >1.0 - s will overlap with m in
# time enter frames
def segseg_dyn(
smin,smax,
mmin,mmax,
v
)
if v!=0
te=(smin-mmax).to_f/v
tl=(smax-mmin).to_f/v
te,tl=tl,te if te>tl
return te,tl
else
# Not moving - static check
if not (smin>=mmax||smax<=mmin)
# Always overlaps
return -Float::INFINITY,Float::INFINITY
else
# Never overlaps
return Float::INFINITY,Float::INFINITY
end
end
end
# Stationary with moving bbox collision
# Returns same value as segseg_dyn but
# for 2 dimensions both overlapping
def bboxbbox_dyn_iv(
sminx,sminy,smaxx,smaxy,
mminx,mminy,mmaxx,mmaxy,
vx,vy
)
tex,tlx=segseg_dyn(
sminx,smaxx,
mminx,mmaxx,
vx
)
tey,tly=segseg_dyn(
sminy,smaxy,
mminy,mmaxy,
vy
)
te=[tex,tey].max
tl=[tlx,tly].min
if te>=tl
# No overlap - never collides
return Float::INFINITY,Float::INFINITY
else
return te,tl
end
end
# Stationary with moving bbox collision
# Returns multiplier value:
# nil - won't collide next frame
# [0,1> - will collide next frame
# <0 - collides already
def bboxbbox_dyn(
sminx,sminy,smaxx,smaxy,
mminx,mminy,mmaxx,mmaxy,
vx,vy
)
te,tl=bboxbbox_dyn_iv(
sminx,sminy,smaxx,smaxy,
mminx,mminy,mmaxx,mmaxy,
vx,vy
)
if te>=0.0&&te<1.0
# will collide in the next frame
te
elsif te<0.0&&tl>0.0
# collides
te
else
# won't collide
nil
end
end
# Stationary with moving bbox collision
# Returns pre-collision mminx and mminy
# Assuming integer coordinates
def bboxbbox_dyn_intresp(
sminx,sminy,smaxx,smaxy,
mminx,mminy,mmaxx,mmaxy,
vx,vy
)
v=bboxbbox_dyn(
sminx,sminy,smaxx,smaxy,
mminx,mminy,mmaxx,mmaxy,
vx,vy
)
if v
return mminx+(vx*v).to_i,mminy+(vy*v).to_i
else
return mminx,mminy
end
end