Firstly, I got a 'maximum call stack size exceeded' error on some JavaScript code I'll be posting below, and I'm not sure where it's coming from. I don't think I'm calling anything recursively, and I couldn't find any other cause of the error from looking around. I'm using Chrome to execute the program, and the only details I can get out of the console are 'Vector Vector Vector Vector Vector Vector Vector...' etc. I think this means that the Vector function is recursively calling itself, but, again, I can't figure out where that's happening. So, firstly, here's the Vector function:

```
function Vector(top,left) { //a vector constructor, with all necessary vector operations
this.top = top; //the 'top' component, which points down
this.left = left; //the 'left' component, which points right
this.in = 0; //the 'in' component, which points out of the screen
this.magnitude = Math.sqrt(this.top*this.top+this.left*this.left); //the magnitude of the vector
this.reverse = new Vector(-this.top,-this.left); //the vector that points opposite of this vector
this.unit = this.Scale(1/this.magnitude); //the unit vector pointing in this vector's direction
this.Scale = Scale; //multiplying vectors by a constant
this.Add = Add; //easier vector addition
this.Subtract = Subtract; //and subtraction
this.Dot = Dot; //a dot product operation
this.Cross = Cross; //the cross product of two planar vectors; it returns the 'in' component of the resulting vector
this.Project = Project; //the projetion of the parameter vector onto this vector
function Scale(scalar) {return new Vector(scalar*this.top,scalar*this.left);}
function Add(vector) {return new Vector(this.top+vector.top,this.left+vector.left);}
function Subtract(vector) {return new Vector(this.top-vector.top,this.left-vector.left);} //the abovedescribed methods
function Dot(vector) {return this.top*vector.top+this.left*vector.left;}
function Cross(vector) {return this.top*vector.left-this.left*vector.top;}
function Project(vector) {return this.Scale(this.Dot(vector)/Math.pow(this.magnitude,2))}
}
var zeroVector = new Vector(0,0);
```

And here's the full code. Feel free to completely ignore it, though maybe something will be blatantly obvious to you which was impeccably hidden from me.

```
<!DOCTYPE html>
<html>
<head>
<title>temp</title>
</head>
<body>
<canvas
id="canvas"
height="768px"
width="1366px"
style="position:fixed;top:0px;left:0px;"
/>
</body>
<script>
/*------------------------------------------------------------Composition Center--------------------------------------------------*/ {
window.onload = run; //it'll start running as soon as it's started up
var interval; //the interval variable for the 'run' function
function run() {
interval = setInterval(function() {
for (i=0; i!=0; i++) {
var Point = point;
var vPrime = zeroVector;
var netForce = zeroVector;
for (j=0; j!=0; j++) {
var Edge = edge;
updateCollision(Point,Edge);
}
updatePosition(Point);
updateVelocity(Point);
draw();
}
},16);
}
/*---------------------------------------------------------------------------------------------------------------------------------*/ }
/*-------------------------------------------------------------Physics Engine------------------------------------------------------*/ {
//--Constructors--//
function PointObject(mass,top,left) { //a point object
this.mass = mass; //mass
this.position = new Vector(top,left); //position
this.velocity = zeroVector; //velocity
this.near = nullEdge; //a memory tool which stores the edge the point is close to
}
function Rectangle(top,left,height,width) { //a rectangle that'll be solid, but not affected by gravity or anything
this.position = new Vector(top,left);
this.height = height; //self-explanatory
this.width = width;
}
function Edge(start,end) {
this.start = start; //the start point (vector)
this.end = end; //end point (vector)
this.vector = end.Subtract(start); //the vector pointing from the start to the end point of the edge
this.RUN = new Vector(this.vector.left,-this.vector.top).unit; //the RIGHT pointing UNIT NORMAL vector to the edge vector
this.rightPermeable = false; //whether or not the edge can be passed through from the right to the left
this.leftPermeable = true; //or from the left to the right
}
//--Objects--//
var base = new Rectangle(3/4*768,33,768/4,1300); //the main base solid
var point = new PointObject(1,base.position.top-201,1366/2); //the point object at the center of this whole ordeal
var edge = new Edge(new Vector(base.position.top,base.position.left+base.width),base.position); //a test edge. they'll be auto-assembled later
var nullEdge = new Edge(zeroVector,zeroVector);
var deltaT = .01; //standard time interval
//--Loop o' Physics--//
//Update Collision
function updateCollision(Point,edge) { //check if any points are crossing edges and deal with that
var startToPoint = Point.position.Subtract(edge.start); //the vector from the start point of the edge to the tested point
if (edge.rightPermeable && edge.vector.Cross(startToPoint) < 0) {return "Negatory.";} //if it could only approach from a permeable side, stop testing
if (edge.leftPermeable && edge.vector.Cross(startToPoint) > 0) {return "Negatory.";}
var projection = edge.vector.Project(startToPoint); //the projection of that vector onto the edge vector
if (projection.Dot(edge.vector) < 0) {return "Negatory.";} //if it's not pointing in the same dircetion as the edge vector, it's not gonna hit the edge
var distance = startToPoint.Subtract(projection); //the normal vector to the edge that points to the Point
var velocity = distance.Project(Point.velocity); //the component of the point's velocity orthogonal to the edge
if (distance.Dot(velocity) >= 0) {return "Negatory.";} //if the orthogonal velocity component is pointing 'to the point,' it won't collide
var specificT = distance.magnitude/velocity.magnitude; //the time it'll take for the point to hit the edge, if it continues with it's current velocity
if (deltaT <= specificT) {return "Negatory.";} //if the point can't move far enough to cover the distance, it won't collide
//at this point, the collision will happen
Point.near = edge; //have the point remember that it collided with this edge, so it won't have to be totally re-tested for normal forces
Point.position = Point.position.Add(Point.velocity.Scale(specificT)).Add(distance.Scale(.0001)); //move the point just a wee bit away from the edge
vPrime = Point.velocity.Add(velocity.reverse); //impulse away the velocity orthogonal to the edge
Point.velocity = Point.velocity.Scale(0); //zero the current velocity
}
//Update Position
function updatePosition(Point) {Point.position = Point.position.Add(Point.velocity.Scale(deltaT));} //d=vt, essentially
//Update Velocity
function updateVelocity(Point) { //via forces
var gravity = new Vector(20,0); //gravity... hobviously
netForce = netForce.Add(gravity); //add up all the current forces to get the right normal force
if (Point.near != nullEdge) { //calculating normal force, so it needs to be near an edge
var startToPoint = Point.position.Subtract(Point.near.start);
var projection = Point.near.vector.Project(startToPoint); //same stuff as earlier
var distance = startToPoint.Subtract(projection);
if (distance.magnitude <= .01) { //if it's very near to the edge
normalForce = distance.Project(netForce.reverse); //exert enough force to cancel anything going into the edge
if (normalForce.Dot(distance) > 0) {netForce = netForce.Add(normalForce);} //if it is indeed going into the edge
} else if (distance.magnitude > 1) {Point.near = nullEdge;} //it's not near the edge any more
}
Point.velocity = Point.velocity.Add(netForce.Scale(deltaT/Point.mass)); //v=at, essentially
}
/*---------------------------------------------------------------------------------------------------------------------------------*/ }
/*----------------------------------------------------Graphics----------------------------------------------------------------------*/ {
var c = document.getElementById("canvas").getContext("2d"); //the means for drawing all this
PointObject.prototype.Draw = function() { //the draw method for point objects
c.fillStyle = "#000000"; //a black square with the point at its center pixel
c.fillRect(this.position.left-2,this.position.top-2,5,5);
}
Rectangle.prototype.Draw = function() { //draw method for rectangles
c.fillStyle = "#c0c0c0"; //a grey rectangle; the position is the top left corner
c.fillRect(this.position.left,this.position.top,this.width,this.height);
}
function draw() { //draws everything
c.clearRect(0,0,1366,768); //clear the screen
base.Draw(); //paint stuff
point.Draw();
}
/*----------------------------------------------------------------------------------------------------------------------------------*/ }
/*------------------------------------------------------------Math Tools-------------------------------------------------------------*/ {
//--Vector Tools--//
function Vector(top,left) { //a vector constructor, with all necessary vector operations
this.top = top; //the 'top' component, which points down
this.left = left; //the 'left' component, which points right
this.in = 0; //the 'in' component, which points out of the screen
this.magnitude = Math.sqrt(this.top*this.top+this.left*this.left); //the magnitude of the vector
this.reverse = new Vector(-this.top,-this.left); //the vector that points opposite of this vector
this.unit = this.Scale(1/this.magnitude); //the unit vector pointing in this vector's direction
this.Scale = Scale; //multiplying vectors by a constant
this.Add = Add; //easier vector addition
this.Subtract = Subtract; //and subtraction
this.Dot = Dot; //a dot product operation
this.Cross = Cross; //the cross product of two planar vectors; it returns the 'in' component of the resulting vector
this.Project = Project; //the projetion of the parameter vector onto this vector
function Scale(scalar) {return new Vector(scalar*this.top,scalar*this.left);}
function Add(vector) {return new Vector(this.top+vector.top,this.left+vector.left);}
function Subtract(vector) {return new Vector(this.top-vector.top,this.left-vector.left);} //the abovedescribed methods
function Dot(vector) {return this.top*vector.top+this.left*vector.left;}
function Cross(vector) {return this.top*vector.left-this.left*vector.top;}
function Project(vector) {return this.Scale(this.Dot(vector)/Math.pow(this.magnitude,2))}
}
var zeroVector = new Vector(0,0);
/*-----------------------------------------------------------------------------------------------------------------------------------*/ }
</script>
</html>
```

Anyway, second thing is about how I've written some bits of the Vector constructor, which may possibly somehow be causing my error. At various points I use 'new Vector()' in the properties and methods of the function, and I don't know if that's illegal or not. I think I've done it before without error, but I'm not sure.

Also, for the 'magnitude,' 'reverse,' and 'unit' properties, should I rephrase them as methods? I think the way they are they're being locked into the magnitude/reverse/unit vector of the vector as it is created, so if the top or left properties are changed, they'll return incorrect values. The only reason I haven't changed them yet is that they strike me more as properties than methods, just conceptually. It hasn't caused any problems yet or anything; just wondering.

If you want this on JSFiddle or something else like that, I'd be happy to oblige you.