As Google Maps uses Mercator Projection for projecting GPS coordinates, you can't use 'line equation' for gps coordinates, because projection is not linear for gps points.But instead you can use `world coordinates`

which are linear. Here I have used *parametric form of line equation* to check whether `point`

on segment:

```
function isPointOnSegment( map, gpsPoint1, gpsPoint2, gpsPoint ){
var p1 = map.getProjection().fromLatLngToPoint( gpsPoint1 );
var p2 = map.getProjection().fromLatLngToPoint( gpsPoint2 );
var p = map.getProjection().fromLatLngToPoint( gpsPoint );
var t_x;
var t_y;
//Parametric form of line equation is:
//--------------------------------
// x = x1 + t(x2-x1)
// y = y1 + t(y2-y1)
//--------------------------------
//'p' is on [p1,p2] segment,if 't' is number from [0,1]
//-----Case 1----
// x = x1
// y = y1
//---------------
if( p2.x-p1.x == 0 && p2.y-p1.y == 0){
return p.x == p1.x && p.y == p1.y;
}else
//-----Case 2----
// x = x1
// y = y1 + t(y2-y1)
//---------------
if( p2.x-p1.x == 0 && p2.y-p1.y != 0){
t_y = (p.y - p1.y)/(p2.y-p1.y);
return p.x == p1.x && t_y >= 0 && t_y <= 1;
}else
//-----Case 3----
// x = x1 + t(x2-x1)
// y = y1
//---------------
if( p2.x-p1.x != 0 && p2.y-p1.y == 0){
t_x = (p.x - p1.x)/(p2.x-p1.x);
return p.y == p1.y && t_x >= 0 && t_x <= 1;
}
//-----Case 4----
// x = x1 + t(x2-x1)
// y = y1 + t(y2-y1)
//---------------
t_x = (p.x - p1.x)/(p2.x-p1.x);
t_y = (p.y - p1.y)/(p2.y-p1.y);
return ( t_x == t_y && t_x >= 0 && t_x <= 1 && t_y >= 0 && t_y <= 1);
}
```

By having clicked point and all segments of polyline, you could use above implemented function and retrieve segment you were looking for.