import math
+import pygame.rect
+
import pymunk
import pymunk.autogeometry
import pymunk.pygame_util
from .utils import debug_timer
-def screen_rays(pos):
+def screen_rays():
""" An iterable that returns ordered rays from pos to the edge of the
screen, starting with the edge point (0, 0) and continuing clockwise
in pymunk coordinates.
vertices = [position]
start, end = None, None
ray_polys = []
- for ray in screen_rays(position):
+ for ray in screen_rays():
info = space.segment_query_first(position, ray, 1, light_filter)
point = ray if info is None else info.point
vertices.append(point)
class RayPolyManager(object):
- def __init__(self, body, ray_filter):
+ def __init__(
+ self, body, position, ray_filter, radius_limits, direction,
+ spread):
self._body = body # light's body
+ self._position = pymunk.Vec2d(position) # light's position
self._ray_filter = ray_filter # light filter
self._rays = [] # list of RayPolys
+ self._direction = None # normal vector for direction
self._start = None # normal vector in direction of start angle limit
self._end = None # normal vector in direction of end angle limit
+ self._set_angle_limits(direction, spread)
+ if direction:
+ self.direction = direction # Update direction
+ self._max_radius = None # maximum radius in pixels
+ self._min_radius = None # minimum radius in pixels
+ self._set_radius_limits(radius_limits)
+ self._old_poly_cache = None # last polys added to the space
self._poly_cache = None # list of pymunk.Polys for rays
+ self._space = None # space the rays form part of
- def generate_rays(self, space, position):
- self._rays = calculate_ray_polys(space, position, self._ray_filter)
+ def set_space(self, space):
+ self._space = space
+ self._rays = calculate_ray_polys(
+ self._space, self._position, self._ray_filter)
self._poly_cache = None
- def set_angle_limits(self, angle_limits):
- if angle_limits is None:
+ def update_shapes(self):
+ if self._old_poly_cache:
+ self._space.remove(*self._old_poly_cache)
+ new_polys = self._old_poly_cache = self.polys()
+ self._space.add(*new_polys)
+
+ @property
+ def position(self):
+ return self._position
+
+ @property
+ def max_radius(self):
+ return self._max_radius
+
+ @max_radius.setter
+ def max_radius(self, value):
+ self._max_radius = value or 0.0
+
+ @property
+ def min_radius(self):
+ return self._min_radius
+
+ @min_radius.setter
+ def min_radius(self, value):
+ self._min_radius = value or 0.0
+
+ def reaches(self, position):
+ distance = self.position.get_distance(position)
+ return (self._min_radius <= distance <= self._max_radius)
+
+ def _set_radius_limits(self, radius_limits):
+ if radius_limits is None or not radius_limits[0]:
+ self._min_radius = 0
+ else:
+ self._min_radius = radius_limits[0]
+ if radius_limits is None or not radius_limits[1]:
+ self._max_radius = 50.0
+ else:
+ self._max_radius = radius_limits[1]
+
+ def rotatable(self):
+ return self._direction is not None
+
+ @property
+ def direction(self):
+ if self._direction is None:
+ return 0
+ return self._direction.angle_degrees
+
+ @direction.setter
+ def direction(self, degrees):
+ spread = self._direction.get_angle_between(self._start)
+ self._direction.angle_degrees = degrees
+ self._start = self._direction.rotated(spread)
+ self._end = self._direction.rotated(-spread)
+ self._poly_cache = None
+
+ @property
+ def spread(self):
+ if not self._direction:
+ return 2 * math.pi
+ return math.fabs(self._start.get_angle_between(self._end))
+
+ def _set_angle_limits(self, direction, spread):
+ if direction is None or spread is None:
+ self._direction = None
self._start = None
self._end = None
else:
- self._start = pymunk.Vec2d(1, 0).rotated(
- to_pymunk_radians(angle_limits[0]))
- self._end = pymunk.Vec2d(1, 0).rotated(
- to_pymunk_radians(angle_limits[1]))
+ self._direction = pymunk.Vec2d(1, 0)
+ self._start = self._direction.rotated_degrees(-spread/2.)
+ self._end = self._direction.rotated_degrees(spread/2.)
self._poly_cache = None
def polys(self):
poly_cache.append(poly)
return self._poly_cache
+ def pygame_position(self, surface):
+ return pymunk.pygame_util.to_pygame(self._position, surface)
+
+ def pygame_rect(self, surface):
+ half_width = self.max_radius
+ rect_width = half_width * 2
+ rect_x, rect_y = pymunk.pygame_util.to_pygame(self._position, surface)
+ dest_rect = pygame.rect.Rect(rect_x, rect_y, rect_width, rect_width)
+ dest_rect.move_ip(-half_width, -half_width)
+ return dest_rect
+
def pygame_polys(self, surface):
return [
[pymunk.pygame_util.to_pygame(v, surface)
return trial # no limits
start_info = trial.segment_query(
- self.position + 0.1 * start, self.position + 1250 * start, 0)
+ self.position + 1250 * start, self.position + 0.1 * start, 0)
end_info = trial.segment_query(
- self.position + 0.1 * end, self.position + 1250 * end, 0)
+ self.position + 1250 * end, self.position + 0.1 * end, 0)
vertices = self.vertices[:]
vertices = [