# algorithm for a random space bordered by elements of equal length

I am an architecture student trying to solve a spatial problem with C# in Grasshopper for Rhino.

The space I am trying to create is an exhibition space in an airport. The space will be made up of elements of similar length. The idea is to connect them with a hinge and thereby allow them to create spaces of different layout and size according to how many elements are used.

As you can see from the illustration I would like the space to end with an opening an element length away from the starting point.

My first attempt has been to create equilateral triangles depending on the number of segments (walls) needed. In short, from the starting point, triangles are created, and then the sides of the triangle that form the outer border are added to a list of points. This point list is returned to the Grasshopper application, which draws lines between the points. A little point is that I made the creation of the next triangle randomly either from the side AC or BC from the last triangle.

Here is an example of the spaces created (for 12 - 8 - 14 - 20 elements):

Here is the source code that creates these point lists:

``````private void RunScript(double radius, int walls, ref object A)
{

//
List<Point3d> pointList = new List<Point3d>();
List<Point3d> lastList = new List<Point3d>();

bool alternate = true;
bool swapped = false;
Random turn = new Random();

// set up the first part of the triangle
Point3d point1 = new Point3d(0, 0, 0);
Point3d point2 = new Point3d(0, radius, 0);
Point3d calcPoint;

for(int i = 0; i < walls - 1; i++) // walls - 1, is because I need one less triangle to get to the amount of walls
{
// use the method to create two similar circles and return the intersection point
// in order to create an equilateral triangle
calcPoint = FindCircleIntersections(point1.X, point1.Y, point2.X, point2.Y, radius, alternate);

// random generator: will decide if the new triangle should be created from side BC or AC
bool rotate = turn.Next(2) != 0;
Print("\n" + rotate);

// set the 2nd and 3rd point as 1st and 2nd - depending on random generator.
if(rotate)
{
point1 = point2;
if(swapped == true)
swapped = false;
else
swapped = true;
}

// if the direction is swapped, the next point created will not be a part of the outer border
if(swapped)
else

point2 = calcPoint;

// swap direction of intersection
if(rotate)
{
if(alternate)
alternate = false;
else
alternate = true;
}

}

lastList.Reverse();

foreach (Point3d value in lastList)
{
}

A = pointList;

}

// Find the points where the two circles intersect.
private Point3d FindCircleIntersections(
double cx0, double cy0, double cx1, double cy1, double rad, bool alternate)
{
// Find the distance between the centers.
double dx = cx0 - cx1;
double dy = cy0 - cy1;
double dist = Math.Sqrt(dx * dx + dy * dy);

// Find a and h.

// Find P2.
double cx2 = cx0 + a * (cx1 - cx0) / dist;
double cy2 = cy0 + a * (cy1 - cy0) / dist;

// Get the points P3.
if(alternate)
return new Point3d((double) (cx2 + h * (cy1 - cy0) / dist), (double) (cy2 - h * (cx1 - cx0) / dist), 0);
else
return new Point3d((double) (cx2 - h * (cy1 - cy0) / dist), (double) (cy2 + h * (cx1 - cx0) / dist), 0);
}
``````

What I would like to do, is to vary the creation of these shapes, so that they are not only corridors, but resemble my initial sketches. I would like an algorithm to take an input of segments (number and length) and then propose different space layouts which are possible to create with this number of segments. I guess because of tesselation the space would have to be created with triangles, squares or hexagons? Do you think I should look into this "maximum area" algorithm : Covering an arbitrary area with circles of equal radius here on stackoverflow?

I would greatly appreciate any help on this algorithm. Cheers, Eirik

-
You have explained what are you trying to DO. But, what is it that you actually and basically WANT? –  Dialecticus Dec 11 '10 at 14:53
There are an exponentially large number of significantly different shapes that an algorithm could propose, because you are only providing constraints. You also need to provide some parameters/goals/metrics to distinguish/rank desirable vs undesirable shapes. –  RBarryYoung Dec 11 '10 at 15:41
Thanks for your comments Dialecticus and RBarryYoung. I think what I want can be answered by responding to the request for parameters/goals. One alternative is to create the maximum area with the provided numer_of_segments. If I were to add a second parameter; number_of_rooms, one could imagine that the segments form a line that borders several spaces that are equal in size and connected with a corridor. In this scenario I want an algorithm that can create the maximum closed space with a number_of_segments. –  Eirik Dec 12 '10 at 9:23
Maybe if number_of_rooms > 1, the max space algorithm could be used on the number_of_segments (minus the elements for corridors) divided by the number_of_rooms, the resulting form could resemble a molecule model? postimage.org/image/10macr3dw –  Eirik Dec 12 '10 at 10:02