Point-in-rectangle testing

I have this matrix

/// as if the create a rectangle
int [][] loc = {
{5, 15},//(x1, y1)
{5, 30}, // (x1, y2)
{20, 15},// (x2, y1)
{20, 30}, // (x2, y2)
}

// this are the point that i want to check if they are in the rectangular range or not
int [] [] point = {
{6, 16}, //(x, y)
{3, 17}, //(x, y)
}

I want i method that can take the point and search if it in the loc range or not by using x1<x<x2 and y1<y<y2

• To define a rectangle, you only need 2 points (pick 2 diagonally opposite points), or 2 x values and 2 y values. Apr 29 '09 at 12:01
• Well, an axis-aligned rectangle anyway... Apr 29 '09 at 12:21
• Is this code javascript? Apr 29 '09 at 12:32
• Is it homework? God, I hope it's not for production code.
– tpdi
Apr 29 '09 at 13:46
• Doesn't look like JavaScript. It has "int" instead of "var." Jun 3 '09 at 15:23

A point (x, y) is inside a rectangle (x1,y1) - (x2, y2) if

(x1 <= x <= x2) and (y1 <= y <= y2)

Your code should look like this (this actually is C code, but JavaScript shouldn't be much different):

x1 = loc[0][0];
x2 = loc[2][0];
y1 = loc[0][1];
y2 = loc[2][1];
for (int i = 0; i < num_points; i++) {
if ((x1 <= point[i][0]) && (point[i][0] <= x2) &&
(y1 <= point[i][1]) && (point[i][1] <= y2)) {
// This point is inside the rectangle - insert code here
} else {
// This point is not inside the rectangle - insert code here
}
}

Note that this will only work if (x1 <= x2) and (y1 <= y2), so you might perhaps make sure by using this instead the first four lines above:

x1 = Math.Min(loc[0][0], loc[2][0]);
x2 = Math.Max(loc[0][0], loc[2][0]);
y1 = Math.Min(loc[0][1], loc[2][1]);
y2 = Math.Max(loc[0][1], loc[2][1]);
• schnaader; Can you explain for me more a bout what you mean ?
– shamsa
Apr 29 '09 at 12:13
• JavaScript should be able to do this for you if you use Math.Min and Math.Max, I'll update my answer. Apr 29 '09 at 13:03
• I couldn't update it but there is a typo I think. The second part of the condition should be (y1 <= point[i][1] <= y2) not (y2 <= point[i][1] <= y2) Dec 2 '11 at 5:27
• I don't think "a < b < c" is a correct JS construct (which is too bad, because it would be cool). I tried to use the algorithm as written and it gave false positives. Then I just tried typing "1 <= 100 <= 50" in my Chrome console, and it said 'true'. It's evaluating the first expression (1 <= 100) and then the second becomes 'true <= 50', which also turns up 'true'. So alas, you have to do range checking more verbosely: (lo <= x) && (x <= hi). Jan 9 '13 at 15:05

Although the question has been answered extensively, I'd like to share my piece of code because it looks more intuitive and looks more like the math I had at highschool. Just in case people look this question up because of home work :)

function between(min, p, max){
result = false;

if ( min < max ){
if ( p > min && p < max ){
result = true;
}
}

if ( min > max ){
if ( p > max && p < min){
result = true
}
}

if ( p == min || p == max ){
result = true;
}

return result;
}

function point_in_rectagnle( x, y, left, top, right, bottom){
result = false;

if ( between(left,x,right) && between(top,y,bottom ) ){
result = true;
}
return result;
}
• That's a very nice elegant solution Jan 19 '16 at 16:53

The code in the question is Java or C or some other language that defines array literals with {}, but since the tag is Javascript and this shows up on Google for Javascript, here is a reasonable way to do point-rectangle intersection in JS.

function pointRectangleIntersection(p, r) {
return p.x > r.x1 && p.x < r.x2 && p.y > r.y1 && p.y < r.y2;
}

var point = {x: 1, y: 2};
var rectangle = {x1: 0, x2: 10, y1: 1, y2: 7};
pointRectangleIntersection(point, rectangle);

As mentioned in the comments, change > to >= and/or < to <= to do an intersection which includes the rectangle boundaries.

• Should really be in p.x >= r.x1 (same for y). And depending if your rectangles are inclusive or exclusive, the y2 may need to be <= Mar 25 '15 at 10:20