As Kevin pointed out, this is an already well documented question and answer.

For fun, there's a hacky workaround to avoid the math using PShape.
There is an undocumented `contains()`

function which checks is an x,y pair is inside all the points of a PShape. That's nice, since this applies for all sort of other shapes, not just triangles. It's a point in polygon test instead of a point in triangle test. There is a catch however. This function isn't documented because it's probably still experimental so there are gotchas:

- it works on
`PATH`

type only PShapes
`PATH`

type PShapes that aren't loaded (from an SVG file for example) don't render using the `shape()`

function, so you have to manually loop through vertices and draw the shape

Here's an example:

```
PShape triangle;
void setup(){
size(100,100,P2D);
noStroke();
//create the triangle as PATH type PShape
triangle = new PShape(PShape.PATH);
//add it's vertices
triangle.vertex(50,10);
triangle.vertex(10,90);
triangle.vertex(90,90);
}
void draw(){
background(255);
//check if point is inside triangle
if(triangle.contains(mouseX,mouseY)){
fill(127);
}else{
fill(0);
}
//render triangle accessing the vertices previously set
beginShape(TRIANGLE);
for(int i = 0 ; i < triangle.getVertexCount(); i++){
PVector v = triangle.getVertex(i);
vertex(v.x,v.y);
}
endShape(CLOSE);
}
```

However, in practice you might find using the math approach simpler (since there are less workarounds to worry about).

try somethingand post an MCVE if you get stuck. – Kevin Workman Feb 9 '16 at 19:35