+class MapFovSquare(MapSquare):
+ """Just a marginally and unsatisfyingly adapted variant of MapFovHex."""
+
+ def __init__(self, source_map, yx):
+ self.source_map = source_map
+ self.size = self.source_map.size
+ self.terrain = '?' * self.size_i
+ self[yx] = '.'
+ self.shadow_cones = []
+ self.circle_out(yx, self.shadow_process_hex)
+
+ def shadow_process_hex(self, yx, distance_to_center, dir_i, dir_progress):
+ CIRCLE = 360 # Since we'll float anyways, number is actually arbitrary.
+
+ def correct_arm(arm):
+ if arm < 0:
+ arm += CIRCLE
+ return arm
+
+ def in_shadow_cone(new_cone):
+ for old_cone in self.shadow_cones:
+ if old_cone[0] >= new_cone[0] and \
+ new_cone[1] >= old_cone[1]:
+ #print('DEBUG shadowed by:', old_cone)
+ return True
+ return False
+
+ def merge_cone(new_cone):
+ for old_cone in self.shadow_cones:
+ if new_cone[0] > old_cone[0] and \
+ new_cone[1] <= old_cone[0]:
+ #print('DEBUG merging to', old_cone)
+ old_cone[0] = new_cone[0]
+ #print('DEBUG merged cone:', old_cone)
+ return True
+ if new_cone[1] < old_cone[1] and \
+ new_cone[0] >= old_cone[1]:
+ #print('DEBUG merging to', old_cone)
+ old_cone[1] = new_cone[1]
+ #print('DEBUG merged cone:', old_cone)
+ return True
+ return False
+
+ def eval_cone(cone):
+ new_cone = [left_arm, right_arm]
+ #print('DEBUG CONE', cone, '(', step_size, distance_to_center, number_steps, ')')
+ if in_shadow_cone(cone):
+ return
+ self[yx] = '.'
+ if self.source_map[yx] != '.':
+ #print('DEBUG throws shadow', cone)
+ unmerged = True
+ while merge_cone(cone):
+ unmerged = False
+ if unmerged:
+ self.shadow_cones += [cone]
+
+ #print('DEBUG', yx)
+ step_size = (CIRCLE/4)/distance_to_center
+ number_steps = dir_i * distance_to_center + dir_progress
+ left_arm = correct_arm(-(step_size/2) - step_size*number_steps)
+ right_arm = correct_arm(left_arm - step_size)
+ if right_arm > left_arm:
+ eval_cone([left_arm, 0])
+ eval_cone([CIRCLE, right_arm])
+ else:
+ eval_cone([left_arm, right_arm])
+
+ def circle_out(self, yx, f):
+
+ def move(pos, direction):
+ """Move position pos into direction. Return whether still in map."""
+ mover = getattr(self, 'move_' + direction)
+ pos[:] = mover(pos)
+ if pos[0] < 0 or pos[1] < 0 or \
+ pos[0] >= self.size[0] or pos[1] >= self.size[1]:
+ return False
+ return True
+
+ directions = (('DOWN', 'LEFT'), ('LEFT', 'UP'),
+ ('UP', 'RIGHT'), ('RIGHT', 'DOWN'))
+ circle_in_map = True
+ distance = 1
+ yx = yx[:]
+ #print('DEBUG CIRCLE_OUT', yx)
+ while circle_in_map:
+ circle_in_map = False
+ move(yx, 'RIGHT')
+ for dir_i in range(len(directions)):
+ for dir_progress in range(distance):
+ direction = directions[dir_i]
+ move(yx, direction[0])
+ if move(yx, direction[1]):
+ f(yx, distance, dir_i, dir_progress)
+ circle_in_map = True
+ distance += 1
+
+