I don't use C# so you will have to translate the code. The following code is in Java. I tested it with the included test case. I don't know how to add attachment to stackoverflow yet, so I am including the actual code here.

There are four classes (ShapeFinder, Line, Point, and Quadrilateral) and one test class (ShapeFinderTest):

ShapeFinder class:

```
package stackoverflow;
import java.util.ArrayList;
import java.util.List;
public class ShapeFinder {
private List<Line> lines;
private List<Quadrilateral> allQuadrilaterals;
/*
* I am assuming your segments are in a list of arrays:
* [{{x1,y1,},{x2,y2}}, {{x1,y1,},{x2,y2}}, {{x1,y1,},{x2,y2}}]
* You can change this.
*
* So basically you call ShapeFinder with a list of your line segments.
*/
public ShapeFinder(List<Double[][]> allSegments) {
lines = new ArrayList<Line>(allSegments.size());
allQuadrilaterals = new ArrayList<Quadrilateral>();
for (Double[][] segment : allSegments) {
addSlopeInterceptForm(segment);
}
}
/**
* You call this function to compute all possible quadrilaterals for you.
*/
public List<Quadrilateral> completeQuadrilaterals() {
for (int w = 0; w < lines.size(); w++) {
for (int x = w + 1; x < lines.size(); x++) {
for (int y = x + 1; y < lines.size(); y++) {
for (int z = y + 1; z < lines.size(); z++) {
addQuadrilateral(w, x, y, z);
}
}
}
}
return allQuadrilaterals;
}
//assume {{x1,y1,},{x2,y2}}
private void addSlopeInterceptForm(Double[][] s) {
double x1 = s[0][0];
double y1 = s[0][1];
double x2 = s[1][0];
double y2 = s[1][1];
double m = (y1 - y2) / (x1 - x2);
double b = y2 - m * x2;
if (isInfinityOrNaN(m)) {
m = Double.NaN;
b = x1;
}
lines.add(new Line(m, b));
}
/*
* Given four lines, this function creates a quadrilateral if possible
*/
private void addQuadrilateral(int w, int x, int y, int z) {
Point wx = intersect(w, x);
Point wy = intersect(w, y);
Point wz = intersect(w, z);
Point xy = intersect(x, y);
Point xz = intersect(x, z);
Point yz = intersect(y, z);
if (notNull(wx) && notNull(xy) && notNull(yz) && notNull(wz) && isNull(wy) && isNull(xz)) {
allQuadrilaterals.add(new Quadrilateral(wx, xy, yz, wz));
}
}
private Point intersect(int c, int d) {
double m1 = lines.get(c).slope;
double b1 = lines.get(c).intercept;
double m2 = lines.get(d).slope;
double b2 = lines.get(d).intercept;
double xCor, yCor;
if ((isInfinityOrNaN(m1) && !isInfinityOrNaN(m2)) || (!isInfinityOrNaN(m1) && isInfinityOrNaN(m2))) {
xCor = isInfinityOrNaN(m1) ? b1 : b2;
yCor = isInfinityOrNaN(m1) ? m2 * xCor + b2 : m1 * xCor + b1;;
} else {
xCor = (b2 - b1) / (m1 - m2);
yCor = m1 * xCor + b1;
}
if (isInfinityOrNaN(xCor) || isInfinityOrNaN(yCor)) {
return null;
}
return new Point(xCor, yCor);
}
private boolean isInfinityOrNaN(double d){
return Double.isInfinite(d)||Double.isNaN(d);
}
private boolean notNull(Point p) {
return null != p;
}
private boolean isNull(Point p) {
return null == p;
}
}
```

Line class:

```
package stackoverflow;
public class Line {
double slope;
double intercept;
public Line(double slope, double intercept) {
this.slope = slope;
this.intercept = intercept;
}
}
```

Point class:

```
package stackoverflow;
class Point {
double xCor;
double yCor;
public Point(double xCor, double yCor) {
this.xCor = xCor;
this.yCor = yCor;
}
public String toString(){
return "("+xCor+","+yCor+")";
}
}
```

Quadrilateral class:

```
package stackoverflow;
public class Quadrilateral {
private Point w, x, y, z;
public Quadrilateral(Point w, Point x, Point y, Point z) {
this.w = w;
this.x = x;
this.y = y;
this.z = z;
}
public String toString() {
return "[" + w.toString() + ", " + x.toString() + ", " + y.toString() + ", " + z.toString() + "]";
}
}
```

UNIT TEST:

```
package stackoverflow;
import java.util.ArrayList;
import java.util.List;
import org.junit.Test;
public class ShapeFinderTest {
@Test
public void testCompleteQuadrilaterals() {
List<Double[][]> lines = new ArrayList<>();
lines.add(new Double[][]{{2., 5.}, {6., 5.}});
lines.add(new Double[][]{{2., 1.}, {2., 5.}});
lines.add(new Double[][]{{2., 1.}, {6., 1.}});
lines.add(new Double[][]{{6., 5.}, {6., 1.}});
lines.add(new Double[][]{{0., 0.}, {5., 1.}});
lines.add(new Double[][]{{5., 5.}, {10., 25.}});
ShapeFinder instance = new ShapeFinder(lines);
List<Quadrilateral> result = instance.completeQuadrilaterals();
for (Quadrilateral q : result) {
System.out.println(q.toString());
}
}
}
```