Exemplo n.º 1
0
 def test_move(self):
     the_world = world.World()
     man = character.Pc()
     the_world.current.arena.get_location(spatial.Point(1, 5)).additem(man)
     self.assertEqual(the_world.current.arena.find_character(man), spatial.Point(1, 5))
     world.move(the_world.current, man.id, 'E', lambda x: x)
     self.assertEqual(the_world.current.arena.find_character(man), spatial.Point(1, 6))
     world.move(the_world.current, man.id, 'N', lambda x: x)
     self.assertEqual(the_world.current.arena.find_character(man), spatial.Point(0, 6))
Exemplo n.º 2
0
 def test_pickup(self):
     the_world = world.World()
     man = character.Pc()
     key = items.Bone()
     the_world.current.arena.get_location(spatial.Point(5, 5)).additem(man)
     the_world.current.arena.get_location(spatial.Point(5, 5)).items.append(key)
     world.pickup(the_world.current, man.id, lambda x: x)
     self.assertGreater(len(man.inventory), 0)
     kitty = bestiary.Cat()
     the_world.current.arena.get_location(spatial.Point(5, 7)).additem(kitty)
     kitty.kill()
     the_world.attempt(man.id, actions.Move('E'))
     the_world.attempt(man.id, actions.Move('E'))
     world.pickup(the_world.current, man.id, lambda x: x)
Exemplo n.º 3
0
 def test_death(self):
     the_world = world.World()
     the_world.genMobs = lambda x: []
     man = character.Pc()
     world.spawn(the_world.current, man)
     location = the_world.current.arena.find_character_location(man)
     location.characters[0].kill()
     loc = the_world.current.arena.find_character(man)
     the_world.attempt(man.id, actions.Move('E'))
     new_man = the_world.current.arena.find(man.id)
     self.assertIsNone(new_man)
     self.assertEqual(0, len(the_world.current.pcs))
     if the_world.current.arena.in_grid(loc.add(spatial.Point(0, 1))):
         self.assertGreater(len(the_world.current.arena.get_location(loc.add(spatial.Point(0, 1))).items), 0)
Exemplo n.º 4
0
def dropoff_in_polygon(filename, polygons, do='JFK', idx_intersect=None):
    # Dropoff latitude and Longitude indexes
    d_lat_ix = 2
    d_long_ix = 3

    in_poly = []

    j = 0
    trips = open(filename, 'r')
    for i, t in enumerate(trips):
        if idx_intersect and j == len(idx_intersect):
            break
        elif idx_intersect and i != idx_intersect[j]:
            continue
        elif idx_intersect:
            j += 1
        splitted = t.replace('\n', '').replace('\r', '').split(',')
        try:
            d_lat = float(splitted[d_lat_ix])
            d_long = float(splitted[d_long_ix])
        except ValueError:  # header
            continue
        trip_do = sp.Point(d_lat, d_long)
        if polygons[do].contains(trip_do):
            in_poly.append(i)
    return in_poly
Exemplo n.º 5
0
 def test_inventory(self):
     an_arena = arena.Arena(12, 12)
     snap = world.WorldSnapshot(an_arena)
     test_loc = an_arena.get_location(spatial.Point(1, 1))
     test_pc = character.Pc()
     test_loc.additem(test_pc)
     self.assertEquals(test_pc.inventory,
                       queries.inventory(snap, test_pc.id))
Exemplo n.º 6
0
 def attempt(depth):
     if depth > 5:
         return None
     point = spatial.Point(self.rng() % self.width,
                           self.rng() % self.height)
     if not self.get_location(point).characters:
         return point
     else:
         return attempt(depth + 1)
Exemplo n.º 7
0
 def find_target(self, arena, point):
     min_dist = 1000
     nearest = None
     for i, row in enumerate(arena.grid):
         for j, loc in enumerate(row):
             if loc.characters and self not in loc.characters:
                 if self.targets_any(loc.characters):
                     distance = abs(i - point.x) + abs(j - point.y)
                     if distance < min_dist:
                         min_dist = distance
                         nearest = spatial.Point(i, j)
     return nearest
Exemplo n.º 8
0
def build_idx(filename):
    # Dropoff latitude and Longitude indexes
    d_lat_ix = 2
    d_long_ix = 3

    idx = index.Index()

    trips = open(filename, 'r')
    for i, t in enumerate(trips):
        splitted = t.replace('\n', '').replace('\r', '').split(',')
        try:
            d_lat = float(splitted[d_lat_ix])
            d_long = float(splitted[d_long_ix])
        except ValueError:  # header
            continue
        trip_do = sp.Point(d_lat, d_long)
        idx.insert(i, (trip_do.x, trip_do.y, trip_do.x, trip_do.y))
    return idx
Exemplo n.º 9
0
def read_polygons(filename):
    polygons = {}
    poly = open(filename, 'r')

    while True:
        try:
            line = poly.readline()
            name = line.split()[0]
            num_points = int(poly.readline())
            points = []
            for i in xrange(num_points):
                lon, lat = poly.readline().split(',')
                lon, lat = float(lon), float(lat)
                poly_point = sp.Point(lat, lon)
                points.append(poly_point)
            polygons[name] = sp.Polygon(points)
            poly.readline()
        except IndexError:
            break
    return polygons
Exemplo n.º 10
0
 def find_character(self, character):
     for x in range(len(self.grid)):
         for y in range(len(self.grid[x])):
             if character in self.grid[x][y]:
                 return spatial.Point(x, y)
Exemplo n.º 11
0
import copy

import arena
import bestiary
import spatial

__author__ = 'python'

directions = {
    "N": spatial.Point(-1, 0),
    "S": spatial.Point(1, 0),
    "W": spatial.Point(0, -1),
    "E": spatial.Point(0, 1),
    "NE": spatial.Point(-1, 1),
    "NW": spatial.Point(-1, -1),
    "SE": spatial.Point(1, 1),
    "SW": spatial.Point(1, -1)
}


class WorldSnapshot:
    def __init__(self, current_arena):
        self.pcs = []
        self.npcs = []
        self.arena = current_arena


class World:
    def __init__(self):
        an_arena = arena.Arena(12, 12)
        self.current = WorldSnapshot(an_arena)