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Let's say we want to make a function which calculates the intersection point of two lines. The intersection point is't always defined or unique. How to reflect that in the function's signature?

I have come up with these options:

  1. bool getIntersectionPoint ( Line& a, Line& b , Point& result );

    Returns false if lines are parallel. Otherwise returns true and writes result to the variable.

  2. Point getIntersectionPoint ( Line& a, Line& b );

    Throws an exception if lines are parallel.

If we make 2 functions bool doLinesIntersect(const Line&, const Line&); and Point twoLinesIntersection(const Line&, const Line&); the second one can still be called after the first returns false.

share|improve this question
I highly doubt you want to throw an exception for this. – Rob Mar 26 '13 at 9:43
I think throwing an exception would be wrong – since two lines being parallel and therefor not having an intersection is not an “error”, but a normal result. – CBroe Mar 26 '13 at 9:44
There is no "best" way. There can be arguments for both approaches (especially since you provide no context). – NPE Mar 26 '13 at 9:44
Make sure that you're not returning a reference to a local Point! – chrisw Mar 26 '13 at 9:45
If you choose the first solution (the one I prefer), your method should probably be called something like calculateIntersectionPoint. There also is a third possibility: returning a special value that means that no intersection exists. In Java, you could just return null. In C++, it could be a std::pair<bool,Point> (I wouldn't return a pointer in C++). – Axel Mar 26 '13 at 9:54
up vote 4 down vote accepted

IMHO, line intersection yields object, that's why it would be honest to have

boost::variant<Empty, Point, Line> intersect(Line const & l1, Line const & l2)

and helper functions, like

boost::optional<Point> getIntersectionPoint(Line const & l1, Line const & l2)

bool isParallel(Line const & l1, Line const & l2)

Edit: If you do not want to use boost library you can easily create simple analogues:

struct intersection_result_t
  enum isec_t
    isec_empty, isec_point, isec_line

    : type_(isec_empty)
    new (storage_) Empty();

  intersection_result_t(Empty const & e)
    : type_(isec_empty)
    new (storage_) Empty(e);
  intersection_result_t(Point const & p)
    : type_(isec_point)
    new (storage_) Point(p);
  intersection_result_t(intersection_result_t & ir)
    : type_(ir.type_)
      case isec_empty:
        new (storage_) Empty(*static_cast<Empty*>(ir.storage_));
      case ....
  void destroy()
      case isec_empty:
        operator delete (static_cast<Empty*>(storage_), storage_);
      case ....
  char storage_[MAX(sizeof(Empty), sizeof(Point), sizeof(Line))];
  isec_t type_;

etc, etc some more switches needed. Or you can use templates. For optional just use initialized_ instead of type_ to track construction state.

share|improve this answer
Can you (easily) do something like this without the boost library? – Dennis May 3 '13 at 1:20
@Dennis see edit – kassak May 6 '13 at 7:47
The edit is not sufficient. There is no guarantee that the storage_ will be aligned correctly. Use std::aligned_storage. – Mankarse May 6 '13 at 7:52

As suggested by ulidtko, it would be good to return an object that "may be a Point". In C++ you can use boost::optional

boost::optional<Point> getIntersectionPoint(const Line& a, const Line& b) {
    // ...
    if (there_is_zero_or_inifinty_points_of_intersection)
        return boost::optional<Point>();
        return boost::optional<Point>(the_point_of_intersection);

You can think of boost::optional<Point> as if it was a Point*. In particular, a client can query if the intersection returned is a proper point or not in this way:

boost::optional<Point> point = getIntersectionPoint(a, b);
if (point)
    // point "points to" a proper Point which can be retrieved as *point
    // point is "NULL", that is, there's no unique point of intersection

Funnily enough, the motivating example of boost::optional is also a geometric problem. This is not a coincidence since the boost::optional author, I believe, writes geometric software. ;-)

It's worth mentioning that there's a proposal to include optional to the STL in the next revision of the C++ standard.

share|improve this answer
It is a pity though that you'll have to surround each and every usage of such a value with if () {} else {}, which could become a bit of annoyance. As we have no monads in C++, an exception-throwing approach might win in some cases with its code clarity. – ulidtko Mar 26 '13 at 10:55

Parallel lines are not an error, or unexpected. Therefore throwing an exception is not appropriate.

BTW this is preferable as a function signature.

bool getIntersectionPoint(const Line& a, const Line& b, Point& result);

Specifying const makes it clear that the function does not modify it's first two arguments, and also allows you to call the function with temporaries.

share|improve this answer
The method is called getIntersectionPoint(), so not being able to calculate one (since the lines are parallel) could be treated as error – Andreas Fester Mar 26 '13 at 9:45
That parallel lines do not intersect is well known. So I think anyone calling getIntersectionPoint would understand that they have to look out for them and that the function is not providing any guarantees that an intersection point will be found. – john Mar 26 '13 at 9:52
To be fair the original question called the function getIntersectionPoint so its somewhat unfair to mark this down based upon that. – Pete Mar 26 '13 at 10:52

Your second function should probably not return a Point& but a Point value (who owns it?)

Alternatively, there is a 3rd option:

Point getIntersectionPoint ( Line& a, Line& b, bool* ok );

If you provide a NULL pointer for 'ok', throw if there is no intersection otherwise return false in the value of 'ok'.

I would suggest that for a function like this, it is better to avoid exceptions entirely. A non-intersection is not really all that exceptional and exceptions should really be reserved fro stuff that is unexpected. You can expect non-intersecting lines.

Use the version that returns bool, or the version with a bool argument but don't throw.

EDIT A fourth option that is often used:

std::pair<bool, Point> getIntersectionPoint ( Line& a, Line& b );
share|improve this answer

This question is a very good motivation for easier sum types in C++.

In a language like Haskell your function would've had the following signature:

getIntersectionPoint :: Line -> Line -> Maybe Point

where Maybe Point (the return type of the function) essentially means a type which can have two values: Nothing or Just p, where p is a Point.

Availability of such easy sum types actually would've made the question unnessesary at all, because all approaches would've merge into a single one.

Edit: this answer demonstrates neatly that Boost offers easy sum types facilities. There are boost::optional and boost::variant. Sweet.

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From the abstraction (API) perspective, you have two unrelated functions:

bool doLinesIntersect(const Line&, const Line&);


Point twoLinesIntersection(const Line&, const Line&);

The second function must assume that the lines do actually intersect (and aren't collinear). If you don't trust your callers, you may want to throw an exception indicating that preconditions aren't met.

share|improve this answer
This is certainly a valid third way. It has some upside. However, the downside is that you may end up performing the same work twice. – NPE Mar 26 '13 at 9:48
This approach is not good IMHO. What would twoLinesIntersection do if it can not find the result? E.g. if I still call it after doLinesIntersect returns false. – Kolyunya Mar 26 '13 at 9:49

Without given the context people will discuss without end.

Supouse you want to use the function inside some

fillWithColor(color c, set_of lines& figure);

and somehow you use getLinesIntersection to do that. If you need to check each call not only will your code a mess, but you don’t know what to do with the error. Simple use the function and let the caller catch the exception.

In other context you can implement:

bool doLinesIntersect(const Line&, const Line2&, Point &p);
Point getLinesIntersection(const Line&, const Line2&)
   Point p;
   If (! doLinesIntersect(Line, Line2,p) throw …;
   return p;

Both aproach are very valid !!!

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