# Distance to the closest “wall”

For a robotics project, I need to calculate - using Python - the distance between my car (represented by a point + a heading angle) and the wall it's facing, as our (real) car will make the same measurement, and the theoretical and real measurements will be compared later (to localize the car)

The map is imported from a .SVG (with a parser I've coded myself, as I haven't found any well documented one). So I have a list of shapes (polylines, rectangles, ellipses, etc.)

I have a couple of problems to calculate the wanted distance :

1) Sympy doesn't come with any "polyline" or "rectangle" class, so do I need to implement them myself or am I missing something ?

2) What's the most efficient way to do that ? (knowing that I have a point + heading angle, and a list of 'obstacles' : lines, circles, etc.)

I'd prefer to use SymPy because I'll be using it for other applications anyway (probabilities), but if there's another library that could do this it'd be cool. (I already found Shapely but It doesn't have a class for 'rays' ...) ; Also, just FYI, I'm using Qt for the graphical part. (but that doesn't really matter I guess)

EDIT :

Implemented a naive way of doing this (with Sympy), and it seems quite slow and give incoherent results :

``````    def RayDistance(self, x, y, headingAngle):
minDist = None
for shape in self.shapes:
intersections = ray.intersection(shape)
for intersection in intersections:
distance = intersection.distance(ray.source)
print "Shape {} ; Distance {}".format(shape, distance)
if not minDist:
minDist = distance
elif distance < minDist:
minDist = distance
return distance
``````

Update : After contacting Sympy devs (because the code was REALLY slow and gave incoherent results), it seems like Sympy isn't made to do this kind of calculations (that really was their answer).

So ... my question is still open : how to do this without having 1 Frame Per Second (knowing that I won't have more than 50 shapes maximum) ? Any good library ? (shapely gives info about collisions but it doesn't have any classes for ellipses and other shapes)

-
1) List all the component lines of your obstacles 2) Compute the intersections of your heading and each of those lines 3) Throw out any intersections that are outside of the edges of the obstacles 4) find the distance between your position and each remaining intersection 5) Choose the smallest distance. If you need more specific help, code something up and ask a more specific question. –  Wilduck Feb 4 '13 at 19:42
I already thought of this and it's a "naive" way of seeing ray / line collision. I'm asking if there isn't a more optimised way of doing it + if it's possible to use SymPy for this (even if it seem to lack a 'polyline' class for instance) –  halflings Feb 4 '13 at 19:50
If you need it to be faster, you can use a quadtree to narrow down the total amount of collisions to check. –  ninMonkey Feb 4 '13 at 20:12
I'm sure it's possible to use SymPy for steps (2) and (3) that I listed. Unless you want to try to appropriate ray tracing code that is used for graphics/games programming, you're probably going to have to roll your own to some extent. If you have relatively few objects, the naive approach should be fine from a performance standpoint. I'd build it first, and then profile. If you need more performance, monkey has given you the standard suggestion for an improvement. –  Wilduck Feb 4 '13 at 20:50
I implemented this "naive" algorithm and incorporated it in my program but it's giving me some really incoherent results... (random collisions, etc.) ; Sympy seem to work with radians, in ccw, but what is considered to be angle 0 ? –  halflings Feb 4 '13 at 21:24