def index_move_timestamps_at_homebase(x, y, rect_hb):
"""returns a boolean array for t timestamps under condition 'mouse is at homebase'.
homebase is given as a rectangle in a 2 x 4 dicretization of cage.
note: different from method 'index_move_timestamps_at_location; in that niche coordinates
are slightly corrected accounting for niche walls and enclosure.
"""
c = Cage()
idx_list = []
for rect in rect_hb:
tl, tr, bl, br = c.map_rectangle_to_cage_coordinates(rect)
# print "Homebase location in original coordinates top_left, top_right, bot_left, bot_right: "
# print tl, tr, bl, br
if rect == c.activity_to_rectangle['N']:
# these are correct cage boundaries -/+something to allow for match
# with gridcells in a 2x4 discretization
less_than_x = c.nestRightX - 1.2
greater_than_y = c.nestBottomY + 0.7
# 200x faster
idx = (x < less_than_x) & (y > greater_than_y)
idx_list.append(idx)
else:
idx1 = (x > tl[0]) & (x < tr[0])
idx2 = (y < tl[1]) & (y > bl[1])
idx = idx1 & idx2
idx_list.append(idx)
if len(idx_list) == 1:
# single homebase
idx = idx_list[0]
else:
# domino homebase
idx = idx_list[0] | idx_list[1]
msg = "movement: {} events (off-homebase) vs {} (at-homebase)".format(x.shape[0] - sum(idx), sum(idx))
return idx, msg
def create_dq_figure():
C = Cage()
figsize = (16, 5)
gs1 = gridspec.GridSpec(3, 6)
fig = plt.figure(figsize=figsize)
fig.xlims = [4, 32]
fig.ylims = [-18, 43]
fig.xticks = range(6, 31, 2)
fig.yticks = range(0, 45, 10)
ax0 = fig.add_subplot(gs1[:, :4]) # distance raster
ax1 = fig.add_subplot(gs1[1:, 4]) # position density xbins,ybins=12,24
ax2 = fig.add_subplot(gs1[1:, 5]) # position density xbins,ybins=2,4
# ax1.set_aspect(aspect=2, adjustable='box')
# colormap and figure options
setattr(fig, 'extent', [C.CMXLower, C.CMXUpper, C.CMYLower, C.CMYUpper])
cmap = get_optionD_cmap()
setattr(ax1, 'cmap', cmap)
setattr(ax2, 'cmap', truncate_colormap(cmap, 0.5, 1))
setattr(ax1, 'vmin', 0.0001)
setattr(ax2, 'vmin', 0.01)
setattr(ax1, 'vmax', 1)
setattr(ax2, 'vmax', 1)
# colorbar axes
setattr(ax1, 'axCbar', fig.add_axes([0.75, 0.1, .01, 0.4])) # [left, bottom, width, height]
setattr(ax2, 'axCbar', fig.add_axes([0.9, 0.1, .01, 0.4]))
return gs1, fig, ax0, ax1, ax2
def display_HB_cell(ax, MD):
varNames = ['rect_HB', 'obs_rect']
for var in varNames:
if not hasattr(MD, var):
MD.load(var)
rect_HB, obs_rect = [getattr(MD, var) for var in varNames]
C = Cage()
color = MD.experiment.fcolors['M'][2]
for rect in rect_HB:
xy, w, h = C.map_rect4x2_to_cage_coordinates(rect)
niche = patches.Rectangle(xy,
w,
h,
fc=color,
ec='0.85',
alpha=0.5,
zorder=0)
ax.add_patch(niche)
def index_move_timestamps_at_location(x, y, loc='F'):
"""returns a boolean array for t timestamps under condition: 'mouse is at rectangle'
(Niche/Feeder/Lickometer or other) in a (2, 4) cage discretization
position given by rectangle coordinates:
(0, 0) top-left (niche)
(3, 0) feeder
(3, 1) lickometer
"""
c = Cage()
rect = c.activity_to_rectangle[loc]
# check if single or domino cell
idx = None
if len(rect) == 1:
tl, tr, bl, br = c.map_rectangle_to_cage_coordinates(rect[0])
if loc == 'N': # Niche
less_than_x = tr[0]
more_than_y = bl[1]
idx = (x < less_than_x) & (y < more_than_y)
elif loc == 'F': # Feeder
less_than_x = tr[0]
less_than_y = tl[1]
idx = (x < less_than_x) & (y < less_than_y)
elif loc == 'D': # Lickometer
more_than_x = tl[0]
less_than_y = tl[1]
idx = (x > more_than_x) & (y < less_than_y)
else: # generic (2, 4) cell location
idx1 = (x > tl[0]) & (x < tr[0])
idx2 = (y < tl[1]) & (y > bl[1])
idx = idx1 & idx2
elif len(rect) == 2: # domino cell
idxs = []
for r in rect:
tl, tr, bl, br = c.map_rectangle_to_cage_coordinates(r)
idx1 = (x > tl[0]) & (x < tr[0])
idx2 = (y < tl[1]) & (y > bl[1])
idxs.append(idx1 & idx2)
idx = idxs[0] & idxs[1]
return idx
def setUp(self):
""" Initialize first cage for test 1 """
self.cage_1 = Cage()
self.cage_1.height = 0
self.cage_1.width = 0
self.cage_1.length = 0
self.cage_1.volume = 0
self.cage_1.packages = []
""" Create packages for test 1 """
self.package_1 = [10, 10, 830, 83000]
self.package_2 = [10, 10, 10, 1000]
self.package_3 = [10, 10, 7, 700]
""" Initialize second cage for test 2 """
self.cage_2 = Cage()
self.cage_2.height = 0
self.cage_2.width = 0
self.cage_2.length = 0
self.cage_2.volume = 0
self.cage_2.packages = []
""" Create packages for test 2 """
self.package_4 = [10, 10, 10, 1000]
self.package_5 = [10, 10, 10, 1000]
""" Initialize second cage for test 3 """
self.cage_3 = Cage()
self.package_6 = [300, 500, 400, 60000000]
self.package_7 = [300, 500, 400, 60000000]
self.package_8 = [153, 268, 398, 16319592]
self.package_9 = [112, 325, 157, 5714800]
self.package_10 = [112, 325, 157, 5714800]
self.package_11 = [100, 100, 100, 1000000]
self.package_12 = [60, 167, 100, 1002000]
def splitIntoCages(self) -> List[List[int]]:
cages = []
cage_size = int(self.size**0.5)
for i in range(0, cage_size):
for j in range(0, cage_size):
cage = []
rows = self.data[i * cage_size:(i + 1) * cage_size]
for row in rows:
cage.append(row[j * cage_size:(j + 1) * cage_size])
cages.append(
Cage(cage, (i * cage_size, j * cage_size), cage_size))
return cages
def set_trajectory_layout(ax, SCALE=True):
if SCALE:
# display distance scale
ax.plot([6, 12], [4, 4], color='k', clip_on=False)
ax.text(7, 4.8, '5 cm', fontsize=8, clip_on=False)
C = Cage()
ax.set_xlim([C.CMXLower, C.CMXUpper])
ax.set_ylim([C.CMYLower, C.CMYUpper])
ax.set_xticklabels([])
ax.set_yticklabels([])
ax.set_aspect('equal')
plotting_utils.draw_device_labels(ax)
plotting_utils.draw_xbins_ybins_cage_grid(ax)
def initAgents(self, world):
self.agentlayer = world.map.getLayer('TechdemoMapGroundObjectLayer')
world.agentlayer = self.agentlayer
self.boy = Boy(TDS, world, 'PC:boy', self.agentlayer)
self.game.instance_to_agent[self.boy.agent.getFifeId()] = self.boy
self.boy.start()
self.agent_list.append(self.boy)
self.girl = Girl(TDS, world, 'PC:girl', self.agentlayer, self)
self.game.instance_to_agent[self.girl.agent.getFifeId()] = self.girl
self.girl.start()
self.agent_list.append(self.girl)
self.wizard = Wizard(TDS, world, 'PC:wizard', self.agentlayer, self)
self.game.instance_to_agent[self.wizard.agent.getFifeId()] = self.wizard
self.wizard.start()
self.agent_list.append(self.wizard)
self.beekeepers = create_anonymous_agents(TDS, world, 'beekeeper', self.agentlayer, Beekeeper)
for beekeeper in self.beekeepers:
self.game.instance_to_agent[beekeeper.agent.getFifeId()] = beekeeper
beekeeper.start()
self.agent_list.append(beekeeper)
self.cage = Cage(TDS, world, 'sword_crate', self.agentlayer)
self.game.instance_to_agent[self.cage.agent.getFifeId()] = self.cage
self.cage.start()
self.agent_list.append(self.cage)
self.bees = []
for i in range(1, 8):
bee = code.agents.bee.Bee(TDS, world, 'NPC:bee:0{}'.format(i), self.agentlayer, self)
self.bees.append(bee)
self.game.instance_to_agent[bee.agent.getFifeId()] = bee
bee.start()
self.agent_list.append(bee)
self.warrior = Warrior(TDS, world, 'PC:warrior', self.agentlayer)
self.game.instance_to_agent[self.warrior.agent.getFifeId()] = self.warrior
self.warrior.start()
self.agent_list.append(self.warrior)
self.chemist = Chemist(TDS, world, 'NPC:chemist', self.agentlayer)
self.game.instance_to_agent[self.chemist.agent.getFifeId()] = self.chemist
self.chemist.start()
self.agent_list.append(self.chemist)
self.playableAgent = []
self.reset()
def plot_distance_events(fig, ax, MD):
C = Cage()
for varName in ['CT', 'CX', 'CY']:
if not hasattr(MD, varName):
MD.load(varName)
color = MD.experiment.fcolors['M'][0]
print "plotting distance.."
dist = np.sqrt((MD.CX - C.xy_o[0])**2 + (MD.CY - C.xy_o[1])**2)
ax.plot(MD.CT / 3600. -7, dist, lw=0.5, color='0.3')
plot_events(ax, MD)
set_distance_raster_layout(fig, ax)
def parse(self, filename: str) -> Board:
with open(filename) as fil:
size_line = fil.readline()
size_line.strip()
size = int(size_line)
cages = []
line = fil.readline()
while line:
row = line.split()
goal = int(row[0])
op = row[1]
squares = []
for i in range(2, len(row), 2):
squares.append((int(row[i]), int(row[i + 1])))
cages.append(Cage(op, goal, squares))
line = fil.readline()
data = [[0 for _ in range(size)] for _ in range(size)]
board = Board(data, size, cages)
return board
def plot_xy(ax, MD, CT_window):
varNames = ['CT', 'CX', 'CY', 'velocity', 'MB_idx']
for var in varNames:
if not hasattr(MD, var):
MD.load(var)
T, X, Y, vel, MB_idx = [getattr(MD, var) for var in varNames]
C = Cage()
MBVT, MBDT = [getattr(MD.experiment, x) for x in ['MBVT', 'MBDT']]
# select window
idx_start = np.searchsorted(T, CT_window[0])
idx_end = np.searchsorted(T, CT_window[1], side='right')
# plot distance to W
wdist = np.sqrt((X[idx_start : idx_end] - C.xy_o[0]) ** 2 + \
(Y[idx_start : idx_end] - C.xy_o[1]) ** 2)
ax.plot(T[idx_start:idx_end],
wdist,
label='distance',
marker='x',
lw=1,
color='k',
ms=5)
# velocity plot
ax2 = ax.twinx()
ax2.plot(T[idx_start:idx_end],
vel[idx_start:idx_end],
marker='o',
lw=0.5,
color='0.5',
ms=3,
label='velocity')
# plot MBVT threshold
ax2.axhline(MBVT, c='.5')
set_xy_plot_layout(ax, ax2, CT_window)
def time_in_xbins_ybins(m, xbins, ybins, tbin):
c = Cage()
xlims, ylims = c.cage_boundaries
pos_subset = pull_locom_tseries_subset(m, tbin[0], tbin[1])
return total_time_rectangle_bins(pos_subset, xlims, ylims, xbins, ybins)
class AgentManager():
def __init__(self, world):
self.player = 0
self.player_faces = ['gui/images/hud_boy.png', 'gui/images/hud_girl.png', 'gui/images/hud_warrior.png', 'gui/images/hud_wizard.png']
self.agent_list = []
self.game = code.game.Game.getGame()
"""
Intializes all the agents. All these instances are also added to the self.agent_list list
to simplify the searches by name or id.
"""
def initAgents(self, world):
self.agentlayer = world.map.getLayer('TechdemoMapGroundObjectLayer')
world.agentlayer = self.agentlayer
self.boy = Boy(TDS, world, 'PC:boy', self.agentlayer)
self.game.instance_to_agent[self.boy.agent.getFifeId()] = self.boy
self.boy.start()
self.agent_list.append(self.boy)
self.girl = Girl(TDS, world, 'PC:girl', self.agentlayer, self)
self.game.instance_to_agent[self.girl.agent.getFifeId()] = self.girl
self.girl.start()
self.agent_list.append(self.girl)
self.wizard = Wizard(TDS, world, 'PC:wizard', self.agentlayer, self)
self.game.instance_to_agent[self.wizard.agent.getFifeId()] = self.wizard
self.wizard.start()
self.agent_list.append(self.wizard)
self.beekeepers = create_anonymous_agents(TDS, world, 'beekeeper', self.agentlayer, Beekeeper)
for beekeeper in self.beekeepers:
self.game.instance_to_agent[beekeeper.agent.getFifeId()] = beekeeper
beekeeper.start()
self.agent_list.append(beekeeper)
self.cage = Cage(TDS, world, 'sword_crate', self.agentlayer)
self.game.instance_to_agent[self.cage.agent.getFifeId()] = self.cage
self.cage.start()
self.agent_list.append(self.cage)
self.bees = []
for i in range(1, 8):
bee = code.agents.bee.Bee(TDS, world, 'NPC:bee:0{}'.format(i), self.agentlayer, self)
self.bees.append(bee)
self.game.instance_to_agent[bee.agent.getFifeId()] = bee
bee.start()
self.agent_list.append(bee)
self.warrior = Warrior(TDS, world, 'PC:warrior', self.agentlayer)
self.game.instance_to_agent[self.warrior.agent.getFifeId()] = self.warrior
self.warrior.start()
self.agent_list.append(self.warrior)
self.chemist = Chemist(TDS, world, 'NPC:chemist', self.agentlayer)
self.game.instance_to_agent[self.chemist.agent.getFifeId()] = self.chemist
self.chemist.start()
self.agent_list.append(self.chemist)
self.playableAgent = []
self.reset()
"""
This method checks if the first 3 bees are near the beeboxes.
"""
def beesAtHome(self):
for bee in self.bees:
if int(bee.agentName[-2:]) <= 3 and bee.mode == code.agents.bee._MODE_WILD:
return False
return True
"""
This method checks if the bees whith id >= 4 are all dead.
"""
def beesDead(self):
for bee in self.bees:
if int(bee.agentName[-2:]) >= 4 and bee.mode != code.agents.bee._MODE_DEAD:
return False
return True
def reset(self):
for p in self.playableAgent:
p.reset()
self.playableAgent = [self.boy, self.girl]
self.active_agent = self.boy
"""
Returns the current active agent.
"""
def getActiveAgent(self):
return self.active_agent
"""
Returns the FIFE instance of the current active agent.
"""
def getActiveInstance(self):
return self.active_agent.agent
"""
Returns the current active agent's location.
"""
def getActiveAgentLocation(self):
return self.active_agent.agent.getLocation()
def getHero(self):
return self.active_agent
def getGirl(self):
return self.girl
"""
Changes the current active agent. The list self.playableAgent contains all the
currently playable characters.
"""
def toggleAgent(self, world, face_button):
self.player = (self.player + 1) % len(self.playableAgent)
face_button.up_image = self.player_faces[self.player]
face_button.down_image = self.player_faces[self.player]
face_button.hover_image = self.player_faces[self.player]
for i in range(len(self.playableAgent)):
self.playableAgent[i].idle()
if i == self.player:
self.playableAgent[i].isActive = True
world.cameras['main'].attach(self.playableAgent[i].agent)
world.cameras['small'].attach(self.girl.agent)
self.active_agent = self.playableAgent[i]
else:
self.playableAgent[i].isActive = False
self.playableAgent[i].follow_hero()
"""
Returns the Agent to the agent with a specific fifeId.
"""
def getAgentFromId(self, fifeId):
for ag in self.agent_list:
if ag.agent.getFifeId() == fifeId:
return ag
return None
"""
Returns the Agent to the agent with a specific name.
"""
def getAgentByName(self, name):
for ag in self.agent_list:
if ag.agentName == name:
return ag
return None
"""
Adds a new playable agent if it's not yet present inside the playableAgent list.
"""
def addNewPlayableAgent(self, name):
for a in self.playableAgent:
if a.agentName == name:
return
for a in self.agent_list:
if a.agentName == name:
self.playableAgent.append(a)
if a.agentName != self.active_agent.agentName:
a.follow_hero()
def destroy(self):
for a in self.agent_list:
a.destroy()
app.config['BASIC_AUTH_USERNAME'] = '******'
app.config['BASIC_AUTH_PASSWORD'] = '******'
global_time_start = datetime.time(9) # 9 am
global_time_stop = datetime.time(21) # 9 pm
# How often the tempurature/humidity are checked
# to automatically switch the lamps/pumps
update_interval = 60 # seconds
cages = [
Cage(name='spider 1',
sensor_chan=2,
lamp_pin=29,
pump_pin=32,
temp_goal=30,
temp_prec=2,
hum_threshold=60,
time_start=global_time_start,
time_stop=global_time_stop),
Cage(name='spider 2',
sensor_chan=3,
lamp_pin=31,
pump_pin=36,
temp_goal=27,
temp_prec=2,
hum_threshold=40,
time_start=global_time_start,
time_stop=global_time_stop),
Cage(name='spider 3',
sensor_chan=4,
class TestCage(unittest.TestCase):
def setUp(self):
""" Initialize first cage for test 1 """
self.cage_1 = Cage()
self.cage_1.height = 0
self.cage_1.width = 0
self.cage_1.length = 0
self.cage_1.volume = 0
self.cage_1.packages = []
""" Create packages for test 1 """
self.package_1 = [10, 10, 830, 83000]
self.package_2 = [10, 10, 10, 1000]
self.package_3 = [10, 10, 7, 700]
""" Initialize second cage for test 2 """
self.cage_2 = Cage()
self.cage_2.height = 0
self.cage_2.width = 0
self.cage_2.length = 0
self.cage_2.volume = 0
self.cage_2.packages = []
""" Create packages for test 2 """
self.package_4 = [10, 10, 10, 1000]
self.package_5 = [10, 10, 10, 1000]
""" Initialize second cage for test 3 """
self.cage_3 = Cage()
self.package_6 = [300, 500, 400, 60000000]
self.package_7 = [300, 500, 400, 60000000]
self.package_8 = [153, 268, 398, 16319592]
self.package_9 = [112, 325, 157, 5714800]
self.package_10 = [112, 325, 157, 5714800]
self.package_11 = [100, 100, 100, 1000000]
self.package_12 = [60, 167, 100, 1002000]
def tearDown(self):
pass
def test_append(self):
""" Test appending 3 boxes if they are put into correct place """
self.cage_1.append(self.package_1)
self.assertEqual(self.cage_1.height, 10)
self.assertEqual(self.cage_1.width, 10)
self.assertEqual(self.cage_1.length, 830)
self.assertEqual(self.cage_1.volume, 83000)
self.cage_1.append(self.package_2)
self.assertEqual(self.cage_1.height, 10)
self.assertEqual(self.cage_1.width, 10)
self.assertEqual(self.cage_1.length, 840)
self.assertEqual(self.cage_1.volume, 84000)
self.cage_1.append(self.package_3)
self.assertEqual(self.cage_1.height, 10)
self.assertEqual(self.cage_1.width, 20)
self.assertEqual(self.cage_1.length, 840)
self.assertEqual(self.cage_1.volume, 84700)
""" Test appending 2 boxes if they are put into correct place """
self.cage_2.append(self.package_4)
self.assertEqual(self.cage_2.height, 10)
self.assertEqual(self.cage_2.width, 10)
self.assertEqual(self.cage_2.length, 10)
self.assertEqual(self.cage_2.volume, 1000)
self.cage_2.append(self.package_4)
self.assertEqual(self.cage_2.height, 10)
self.assertEqual(self.cage_2.width, 10)
self.assertEqual(self.cage_2.length, 20)
self.assertEqual(self.cage_2.volume, 2000)
""" Test appending 7 boxes if they are put into correct place """
self.cage_3.append(self.package_6)
self.assertEqual(self.cage_3.height, 300)
self.assertEqual(self.cage_3.width, 500)
self.assertEqual(self.cage_3.length, 400)
self.assertEqual(self.cage_3.volume, 60000000)
self.cage_3.append(self.package_7)
self.assertEqual(self.cage_3.height, 300)
self.assertEqual(self.cage_3.width, 500)
self.assertEqual(self.cage_3.length, 800)
self.assertEqual(self.cage_3.volume, 120000000)
# [153, 268, 398, 16319592]
self.cage_3.append(self.package_8)
self.assertEqual(self.cage_3.height, 453)
self.assertEqual(self.cage_3.width, 268)
self.assertEqual(self.cage_3.length, 398)
self.assertEqual(self.cage_3.volume, 136319592)
# [112, 325, 157, 5714800] h - w - l
self.cage_3.append(self.package_9)
self.assertEqual(self.cage_3.height, 453)
self.assertEqual(self.cage_3.width, 593)
self.assertEqual(self.cage_3.length, 398)
self.assertEqual(self.cage_3.volume, 142034392)
# [112, 325, 157, 5714800] h - w - l
self.cage_3.append(self.package_10)
self.assertEqual(self.cage_3.height, 453)
self.assertEqual(self.cage_3.width, 593)
self.assertEqual(self.cage_3.length, 555)
self.assertEqual(self.cage_3.volume, 147749192)
# [100, 100, 100, 1000000] h - w - l
self.cage_3.append(self.package_11)
self.assertEqual(self.cage_3.height, 453)
self.assertEqual(self.cage_3.width, 593)
self.assertEqual(self.cage_3.length, 655)
self.assertEqual(self.cage_3.volume, 148749192)
# [60, 167, 100, 1002000] h - w - l
self.cage_3.append(self.package_12)
self.assertEqual(self.cage_3.height, 453)
self.assertEqual(self.cage_3.width, 593)
self.assertEqual(self.cage_3.length, 755)
self.assertEqual(self.cage_3.volume, 149751192)
