The best way to answer was, for me, to experiment with this topic, as it interests me.

I used Processing for the visual part (and its PVector, but it is trivial in its use here). Basically, it is Java code. I used Wikipedia's Line-line intersection article's formula.

```
int MARGIN = 10;
int POINT_SIZE = 7;
// Definition of the bouding box
float xMin, xMax;
float yMin, yMax;
// The two points inside the bounding box
// A PVector is just a pair of x and y coordinates
PVector pointA = new PVector();
PVector pointB = new PVector();
// The intersection points
PVector[] pointsI = new PVector[2];
void setup()
{
size(800, 800);
MakeBB();
SetPoints();
FindIntersections();
}
void draw()
{
background(#DDFFFF);
stroke(#FFFF00);
fill(#8000FF);
rect(xMin, yMin, xMax - xMin, yMax - yMin);
noStroke();
fill(#FF8000);
ellipse(pointA.x, pointA.y, POINT_SIZE, POINT_SIZE);
fill(#FF8000);
ellipse(pointB.x, pointB.y, POINT_SIZE, POINT_SIZE);
stroke(#FFFF00);
strokeWeight(5);
line(pointA.x, pointA.y, pointB.x, pointB.y);
noStroke();
fill(#FF0000);
ellipse(pointsI[0].x, pointsI[0].y, POINT_SIZE * 2, POINT_SIZE * 2);
fill(#FF0000);
ellipse(pointsI[1].x, pointsI[1].y, POINT_SIZE * 2, POINT_SIZE * 2);
stroke(#FF8000);
strokeWeight(1);
line(pointsI[0].x, pointsI[0].y, pointsI[1].x, pointsI[1].y);
}
void keyPressed()
{
MakeBB();
SetPoints();
FindIntersections();
}
// Make bounding box
void MakeBB()
{
xMin = (int) random(MARGIN, width/2);
xMax = (int) random(width/2, width - MARGIN);
yMin = (int) random(MARGIN, height/2);
yMax = (int) random(height/2, height - MARGIN);
}
void SetPoints()
{
pointA.x = (int) random(xMin, xMax);
pointA.y = (int) random(yMin, yMax);
pointB.x = (int) random(xMin, xMax);
pointB.y = (int) random(yMin, yMax);
}
void FindIntersections()
{
// The corners of the BB
PVector pTL = new PVector(xMin, yMin);
PVector pBL = new PVector(xMin, yMax);
PVector pTR = new PVector(xMax, yMin);
PVector pBR = new PVector(xMax, yMax);
// The sides of the BB
PVector pT = IntersectLines(pTL, pTR);
PVector pB = IntersectLines(pBL, pBR);
PVector pL = IntersectLines(pTL, pBL);
PVector pR = IntersectLines(pTR, pBR);
int i = 0;
// Eliminates the intersection points out of the segments
if (pT != null && pT.x >= xMin && pT.x <= xMax) pointsI[i++] = pT;
if (pB != null && pB.x >= xMin && pB.x <= xMax) pointsI[i++] = pB;
if (pL != null && pL.y >= yMin && pL.y <= yMax) pointsI[i++] = pL;
if (pR != null && pR.y >= yMin && pR.y <= yMax) pointsI[i++] = pR;
}
// Compute intersection of the line made of pointA and pointB
// with the given line defined by two points
PVector IntersectLines(PVector p1, PVector p2)
{
PVector pRes = new PVector();
float v1 = pointA.x * pointB.y - pointA.y * pointB.x;
float v2 = p1.x * p2.y - p1.y * p2.x;
float d = (pointA.x - pointB.x) * (p1.y - p2.y) -
(pointA.y - pointB.y) * (p1.x - p2.x);
if (d == 0)
{
println("Ouch!");
return null;
}
pRes.x = (v1 * (p1.x - p2.x) - (pointA.x - pointB.x) * v2) / d;
pRes.y = (v1 * (p1.y - p2.y) - (pointA.y - pointB.y) * v2) / d;
return pRes;
}
```

It is a quick hack, not optimized and all. But it works... :-)