def allocate(device: Device, time, allocate_pos: Point, allocation_plan, cloudlets: List[List[Cloudlet]]) -> None:
cloudlets[allocate_pos.y][allocate_pos.x].append_device(device)
d_pos = device.get_pos(time) #ある時刻のデバイスの座標を取得
#distanceは2点間の座標の距離を返す関数, Allocation()で割り当て計画の定義
allocation = Allocation(allocate_pos.x, allocate_pos.y, distance(d_pos, allocate_pos))
allocation_plan[device.name][time] = allocation #デバイス名と時間からなる2次元リストに割り当て計画を代入
device.set_allocation_point(time, Point(allocation.x, allocation.y)) #割り当て
def single_cross(p_min: Point,
p_max: Point,
t_max: int,
ur_min: int = 0,
ur_max: int = 3) -> Devices:
ds = []
for t in range(t_max + 1):
num = t + 1
if t > ur_max:
num = ur_max
for n in range(num):
d1 = Device()
p1_start = Point(int((p_max.x + p_min.x) / 2), 0)
p1_goal = Point(int((p_max.x + p_min.x) / 2), p_max.y)
d1.plan = route(p1_start, p1_goal)
d1.use_resource = random.randint(ur_min, ur_max)
d1.startup_time = t
d2 = Device()
p2_start = Point(0, int((p_min.y + p_max.y) / 2))
p2_goal = Point(p_max.y, int((p_min.y + p_max.y) / 2))
d2.plan = route(p2_start, p2_goal)
d2.use_resource = random.randint(ur_min, ur_max)
d2.startup_time = t
ds.append(d1)
ds.append(d2)
return ds
def setUp(self):
self.devices = [
Device("d1", plan=[Point(0, 0)]),
Device("d2", plan=[Point(2, 1)])
]
self.devices[0].use_resource = 2
self.devices[1].use_resource = 3
pass
def cross(p_min: Point,
p_max: Point,
t_max: int,
ur_min: int = 0,
ur_max: int = 3,
r_num: int = 6,
density: int = 1,
upr: int = 3) -> Devices:
"""
:param p_min:
:param p_max:
:param t_max:
:param ur_min:
:param ur_max: max of use resource
:param r_num: number of road
:param density: 集密度?
:param upr: unit par roads
:return:
"""
ds = []
for t in range(t_max + 1):
for i in range(int(r_num / 2)):
offset = density
div = int(r_num / 2) - 1 + (2 * density)
for j in range(upr):
d1 = Device()
p1_start = Point(0,
int((p_min.y + p_max.y) / div) * (offset + i))
p1_goal = Point(p_max.x,
int((p_min.y + p_max.y) / div) * (offset + i))
d1.plan = route(p1_start, p1_goal)
d1.use_resource = random.randint(ur_min, ur_max)
d1.startup_time = t
ds.append(d1)
for j in range(upr):
d2 = Device()
p2_start = Point(
int((p_min.x + p_max.x) / div) * (offset + i), 0)
p2_goal = Point(
int((p_min.x + p_max.x) / div) * (offset + i), p_max.y)
d2.plan = route(p2_start, p2_goal)
d2.use_resource = random.randint(ur_min, ur_max)
d2.startup_time = t
ds.append(d2)
Device.num = 0
random.shuffle(ds)
return ds
def setUp(self):
self.cloudlet = Cloudlet(5, Point3D(0, 0, 0), name="d1")
self.d01 = Device(name="d1")
self.app01 = Application(name="a1")
self.app02 = Application(name="a2")
self.dapp01 = Application(name="a1", use_resource=1)
self.d01.apps = [self.dapp01]
self.cloudlet.apps_append(self.app02)
self.cloudlet.apps_append(self.app01)
def setUp(self):
self.iterable = [Device(name="d1"), Device(name="d2"), Device(name="d3"), Device(name="d4")]
]
min_road_device_num = 1
max_road_device_num = 1
min_use_resource = 1
max_use_resource = 1
for road in setup_roads:
road_num = road[0]
left_side = road[1]
right_side = road[2]
for i in range(x_len):
n = random.randint(min_road_device_num, max_road_device_num)
for j in range(n):
d_name = "d{0}{1:05}".format(road_num, d_num)
d = Device(name=d_name)
d.use_resource = random.randint(min_use_resource, max_use_resource)
d.startup_time = 0
if random.randint(0, 3) == 0:
roads = list(filter(lambda r: r != road, setup_roads))
r = roads[random.randint(0, len(roads) - 1)]
if random.randint(0, 1) == 0:
if road[0] < 30:
d.plan = route(Point(i, left_side.y), r[1])
else:
d.plan = route(Point(left_side.x, i), r[1])
else:
if road[0] < 30:
d.plan = route(Point(x_len - 1 - i, left_side.y), r[1])
else:
d.plan = route(Point(left_side.y, y_len - 1- i), r[1])
for x in range(x_len):
for y in range(y_len):
for t in range(t_len):
n = random.randint(0, 2)
if n == 0:
#app = Application(name="a1")
elif n == 1:
#app = Application(name="a2")
else:
#app = Application(name="a3")
#atcs[x][y][t].apps_append(app)
"""
devices = [] # type:List[Device]
d_num = 100
for i in range(d_num):
d = Device(name="d{}".format(i))
d.startup_time = 0
n = random.randint(0, 3)
if n == 0:
d.plan = route(Point(0, 0), Point(x_len, y_len))
if n == 1:
d.plan = route(Point(x_len, y_len), Point(0, 0))
if n == 2:
d.plan = route(Point(0, y_len), Point(x_len, 0))
if n == 3:
d.plan = route(Point(y_len, 0), Point(0, x_len))
n = random.randint(0, 2)
if n == 0:
#app = Application(name="a1")
d.use_resource = 1
elif n == 1:
app3 = Application(name="3", use_resource=3)#random.randint(min_use_resource, max_use_resource))
#app4 = Application(name="4", use_resource=3)#random.randint(min_use_resource, max_use_resource))
#app5 = Application(name="5", use_resource=3)#random.randint(min_use_resource, max_use_resource))
app_resourse = [app1.use_resource, app2.use_resource, app3.use_resource]
n = 90
dnum = 1
for road in setup_roads:
road_num = road[0]
side_a = road[1]
side_b = road[2]
for i in range(x_len):
#n = random.randint(min_road_device_num, max_road_device_num)
for j in range(n):
d_name = "d{0}{1:05}".format(road_num, d_num)
d = Device(name=d_name)
d.startup_time = 0
#偏り有り
#n1 = random.randint(1, d_random_num)
if dnum == 13:
d.append_app(Application(name="1", use_resource=random.randint(min_use_resource, max_use_resource)))
da_num[2] += 1
dnum = 1
elif dnum % 2 == 0:
d.append_app(Application(name="2", use_resource=random.randint(min_use_resource, max_use_resource)))
da_num[0] += 1
else:
d.append_app(Application(name="3", use_resource=random.randint(min_use_resource, max_use_resource)))
da_num[1] += 1
dnum += 1
def test_can_append_device_04(self):
d2 = Device(name="d2")
d2.append_app(Application(name="a2", use_resource=1))
self.assertFalse(self.cloudlet.can_append_device(d2, app_check=True))
def test_can_append_device_03(self):
d2 = Device(name="d2")
d2.append_app(Application(name="a2", use_resource=1))
self.assertTrue(self.cloudlet.can_append_device(d2))
min_road_device_num = 3
max_road_device_num = 9
min_use_resource = 1
max_use_resource = 3
c_resource = 5
for road in setup_roads:
road_num = road[0]
side_a = road[1]
side_b = road[2]
for i in range(x_len):
n = random.randint(min_road_device_num, max_road_device_num)
for j in range(n):
d_name = "d{0}{1:05}".format(road_num, d_num)
d = Device(name=d_name)
d.use_resource = random.randint(min_use_resource, max_use_resource)
d.startup_time = 0
if n == 0:
app = Application(name="a1")
elif n == 1:
app = Application(name="a2")
else:
app = Application(name="a3")
if random.randint(0, 3) == 0:
# 別サイドをゴールにする
roads = list(filter(lambda r: r[0] / 30 != road[0] / 30, setup_roads))
r = roads[random.randint(0, len(roads) - 1)]
goal = random.randint(1, 2)
if random.randint(0, 1) == 0:
name="3",
use_resource=3) #random.randint(min_use_resource, max_use_resource))
#app4 = Application(name="4", use_resource=1)#random.randint(min_use_resource, max_use_resource))
#app5 = Application(name="5", use_resource=1)#random.randint(min_use_resource, max_use_resource))
app_resourse = [app1.use_resource, app2.use_resource, app3.use_resource]
n = 110
for road in setup_roads:
road_num = road[0]
side_a = road[1]
side_b = road[2]
for i in range(x_len):
#n = random.randint(min_road_device_num, max_road_device_num)
for j in range(n):
d_name = "d{0}{1:05}".format(road_num, d_num)
d = Device(name=d_name)
d.startup_time = 0
#偏り有り
"""
n1 = random.randint(1, d_random_num)
if n1 % d_sur[0] == 0:
d.append_app(app1)
da_num[0] += 1
elif n1 % d_sur[1] == 0:
d.append_app(app2)
da_num[1] += 1
else:
d.append_app(app3)
da_num[2] += 1
"""
#偏りなし
app3 = Application(name="3", use_resource=3)
app_resourse = [app1.use_resource, app2.use_resource,
app3.use_resource] #アプリケーションが使えるリソース量のリスト
print(x_len)
n = 90
dnum = 1 #デバイス数
for road in setup_roads:
road_num = road[0] #setup_roadsの1列目
side_a = road[1] #setup_roadsの2列目(x軸が始点 or y軸が始点)
#print(side_a)
side_b = road[2] #setup_roadsの3列目(x軸が終点 or y軸が終点)
for i in range(x_len):
for j in range(n):
d_name = "d{0}{1:05}".format(road_num, d_num)
d = Device(name=d_name) #デバイスのオブジェクトに名前を代入してインスタンス作成
d.startup_time = 0 #デバイスのインスタンスに起動時間を代入
if dnum == 13:
d.append_app(
Application(name="1",
use_resource=random.randint(
min_use_resource, max_use_resource)))
da_num[2] += 1
dnum = 1
elif dnum % 2 == 0:
d.append_app(
Application(name="2",
use_resource=random.randint(
min_use_resource, max_use_resource)))
da_num[0] += 1
else:
t_len = 10
x_len = 30
y_len = 30
atcs = create_all_time_cloudlets(t_len, x_len, y_len)
devices = [] # type:List[Device]
# device name is 10000 - 10999[
r_num = 10
r_pos = Point(10, 0)
d_num = 0
for i in range(x_len):
n = random.randint(5)
for j in range(n):
d = Device(name="d10{0:03}".format(d_num))
d.use_resource = random.randint(3)
d.startup_time = 0
d.plan = route(Point(r_pos.x + i, r_pos.y), Point(x_len - 1, r_pos.y))
devices.append(d)
d_num += 1
for t in range(t_len):
n = random.randint(5)
for i in range(n):
d = Device(name="d10{0:03}".format(d_num))
d.use_resource = random.randint(3)
d.startup_time = 0
d.plan = route(r_pos, Point(x_len - 1, r_pos.y))
d_num += 1
# device name is