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from agarnet.agarnet.world import Cell
def speed(size_or_cell):
if isinstance(size_or_cell, Cell):
if size_or_cell.is_virus or size_or_cell.is_ejected_mass or size_or_cell.is_food:
return 0
else:
return speed(size_or_cell.size)
else:
return 86 / (size_or_cell**0.45)
def viewport_diag(sizesum):
return 370 * max(sizesum,70)**0.431776
eject_delta = 22 # how many degrees do ejects deviate from the original direction (maximum)
def get_my_smallest_cell(c):
return sorted(c.player.own_cells, key = lambda x: x.mass)[0]
def get_my_largest_cell(c):
return sorted(c.player.own_cells, key = lambda x: x.mass)[-1]
def random_own_cell(c):
return c.player.world.cells[next(iter(c.player.own_ids))]
def is_enemy(cell, c):
return not cell.is_virus and not cell.is_food and not cell.is_ejected_mass and (not cell.same_player(random_own_cell(c))) and cell.mass > 1.25 * get_my_smallest_cell(c).mass
def is_splitkiller(cell, c):
return not cell.is_virus and not cell.is_food and not cell.is_ejected_mass and(not cell.same_player(random_own_cell(c))) and cell.mass > 2.5 * get_my_smallest_cell(c).mass and cell.mass < 10 * get_my_smallest_cell(c).mass
def is_edible(cell, c):
return cell.is_food or cell.is_ejected_mass or ( (not cell.same_player(random_own_cell(c))) and not is_enemy(cell,c) and get_my_largest_cell(c).mass > 1.25 * cell.mass )
def is_dangerous_virus(cell, c):
return cell.is_virus and (cell.mass < get_my_largest_cell(c).mass)
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