//! The grid used to divide the map into evenly sized chunks.

use crate::colours::DEFAULT_COLOURS;
use crate::math;
use crate::transform::Transform;
use raylib::drawing::RaylibDraw;

/// Draw an infinite grid that can be moved around on the screen and zoomed in and out of.
pub fn draw_grid<D>(rld: &mut D, screen_width: i32, screen_height: i32, transform: &Transform)
where
    D: RaylibDraw,
{
    /* Calculate the first whole meter that can be seen on the grid. This is the first meter that
     * will be seen on screen.
     */
    let mut first_cell = *transform.translation_px() / -transform.pixels_per_m();
    first_cell.x = first_cell.x.floor();
    first_cell.y = first_cell.y.floor();

    let mut cell = first_cell;
    let mut draw_y = transform.point_m_to_px(&cell).y;
    loop {
        draw_y = math::round(draw_y, 1.);
        rld.draw_line(
            0,
            draw_y as i32,
            screen_width,
            draw_y as i32,
            DEFAULT_COLOURS.grid_lines,
        );
        cell.y += 1.;
        draw_y = transform.point_m_to_px(&cell).y;

        if draw_y as i32 > screen_height {
            break;
        }
    }

    let mut draw_x = transform.point_m_to_px(&cell).x;
    loop {
        draw_x = math::round(draw_x, 1.);
        rld.draw_line(
            draw_x as i32,
            0,
            draw_x as i32,
            screen_height,
            DEFAULT_COLOURS.grid_lines,
        );
        cell.x += 1.;
        draw_x = transform.point_m_to_px(&cell).x;

        if draw_x as i32 > screen_width {
            break;
        }
    }
}