Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I have a collection that contains geometries (usually (Poly)Lines). Now I want to implement a hashCode for these geometries in order to put them into the collection. But the geometry itself may change during the store-time so I need some constant values for hashing the geometries. There are exactly two properties that are constant on these geometry: the type of geometry (here (Poly)line) which is therefor not really a good hash-base and the from- and toPoint of my lines (which will never change rather then all the other points within the geometries). So I wrote the following hash-function:

// hence a hashcode should always return the same integer on the same object (even if the object is mutable) we can only access immutable values for our hashCode.
// There are only three values within every geometry that are always constant (at least within our application): 
//      1. the type of geometry
//      2. the from- and
//      3. the toPoint
//  (Point 2 and 3 are defined by the predefinitions of this application as every candidate has the same from- and toPoint as its masterFeature it relates to)
// This is why we had to chose a better implementation as the former one used the BBOX of the geometry which may change during our application (because we may 
// reshape the geometry itself, excluding from- and toPoint)

int hash = 17;

// this hascode-implementation uses the geometry-type and the from- and toPoints of the geometry

hash = hash * 31 + this.Geometry.GeometryType.GetHashCode();
hash = hash * 31 + this.Geometry.FromPoint.X.GetHashCode();
hash = hash * 31 + this.Geometry.FromPoint.Y.GetHashCode();
hash = hash * 31 + this.Geometry.ToPoint.X.GetHashCode();
hash = hash * 31 + this.Geometry.ToPoint.Y.GetHashCode();

Now we have another prerequisite within our application which makes it impossible to me to write a hash-function: two geometries is also considered equal when they are contrary. Since every actual equal object MUST have the same hashCode I have to change the implementation so it allows diagonal collisions.

This means the following:

when fromPoint of geometry 1 equals toPoint from geometry 2 (and vice versa) also their hashCodes must be equal.

Which of the factors do I have to change in my implementation to enable diagonal collisions or am I totally whrong with my implementation /is there a better way to do this)?

share|improve this question
up vote 0 down vote accepted

For the swapped points to yield the same result, you need a mathematical operation where A op B == B op A and you need to apply it to both coordinates before adding the result to the hash.

I would try this:

hash = hash * 31 + (
       + this.Geometry.ToPoint.X.GetHashCode

This line returns the same result, no matter in which order you pass the X coordinate.

Note: If you add/remove lines of the polygon or move end points, then the hash code changes. So you must make sure that the geometry doesn't change as long as such an object is stored in a hash map/set.

If you need to change the geometry, you first have to remove the object from the hash map/set, change the geometry and add it again.

PS: The X in the last line of your code should be Y.

share|improve this answer
Yeap, that was it, simple maths, and thanks for your edit-suggest :D – HimBromBeere Mar 3 '14 at 11:37

I haven't really understood the geometrical aspects of the problem you are describing, but here are a few thoughts:

  • how many objects do you have? If it's something that fits into not too many, it might be acceptable to not worry too much about the hashcode implementation, just make it constant

  • if the equals operation of any two geometries is non-trivial, what about wrapping them into an object where you have less problems talking about equality? e.g. new MyGeometry("an Id", aGeometry)? Implementing hashCode / equals should be trivial then.

share|improve this answer
I also had your second approach, but here is the problem: how do I generate these IDs when two geometries are equal? I have to detect if they are equal, so I can give them the same ID, don´t I? Btw.: the question is not related to JAVA (only), since other languages have hashCodes as well. So I did not tag it with JAVA... – HimBromBeere Mar 3 '14 at 11:34
Well, depends on what you need the equals operation for. It's certainly acceptable to have a collection of MyGeometry and manually implement operations like insert (do I have to remove something or not?). – jan groth Mar 3 '14 at 11:40
@HimBromBeere: What jan groth means is that you are allowed to return the a constant value (say, 5) from hashCode(). equals() will then be used to distinguish the objects. But that will be slow if you have many objects. – Aaron Digulla Mar 3 '14 at 11:43
Yeap, I already knew about this, but the number of objects may vary in an unpredictable manner (according to the data retrieved), unfortunately, so I cannot assume having such less objects... – HimBromBeere Mar 3 '14 at 11:47

Your Answer


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.