# TODO: this thing needs a bit of thinking/testing for grid square alignments, exclusive vs. inclusive mins/maxes, etc. module.exports = class Grid constructor: (thangs, @width, @height, @padding=0, @left=0, @bottom=0) -> @width = Math.ceil @width @height = Math.ceil @height @left = Math.floor @left @bottom = Math.floor @bottom @update thangs update: (thangs) -> @grid = [] for y in [0 .. @height] @grid.push [] for x in [0 .. @width] @grid[y].push [] for thang in thangs when thang.collides rect = thang.rectangle() [minX, maxX, minY, maxY] = [9001, -9001, 9001, -9001] for v in rect.vertices() minX = Math.min(minX, v.x - @padding) minY = Math.min(minY, v.y - @padding) maxX = Math.max(maxX, v.x + @padding) maxY = Math.max(maxY, v.y + @padding) for y in @columns minY, maxY for x in @rows minX, maxX @grid[y][x].push thang contents: (gx, gy, width=1, height=1) -> thangs = [] for y in @columns gy - height / 2, gy + height / 2 for x in @rows gx - width / 2, gx + width / 2 for thang in @grid[y][x] thangs.push thang if thang.collides and not (thang in thangs) and thang.id isnt 'Add Thang Phantom' thangs clampColumn: (y) -> y = Math.max 0, Math.floor(y) - @bottom Math.min @grid.length, Math.ceil(y) - @bottom clampRow: (x) -> x = Math.max 0, Math.floor(x) - @left Math.min @grid[0]?.length or 0, Math.ceil(x) - @left columns: (minY, maxY) -> [@clampColumn(minY) ... @clampColumn(maxY)] rows: (minX, maxX) -> [@clampRow(minX) ... @clampRow(maxX)] toString: -> upsideDown = _.clone @grid upsideDown.reverse() (((if thangs.length then ('' + thangs.length) else ' ') for thangs in row).join(' ') for row in upsideDown).join("\n")