def mavlink_packet(self, m):
'''handle an incoming mavlink packet'''
if m.get_type() == "ADSB_VEHICLE":
id = 'ADSB-' + str(m.ICAO_address)
if id not in self.threat_vehicles.keys(
): # check to see if the vehicle is in the dict
# if not then add it
self.threat_vehicles[id] = ADSBVehicle(id=id,
state=m.to_dict())
for mp in self.module_matching('map*'):
from MAVProxy.modules.lib import mp_menu
from MAVProxy.modules.mavproxy_map import mp_slipmap
self.threat_vehicles[id].menu_item = mp_menu.MPMenuItem(
name=id, returnkey=None)
threat_radius = get_threat_radius(m)
selected_icon = get_threat_icon(
m, self.threat_vehicles[id].icon)
if selected_icon is not None:
# draw the vehicle on the map
popup = mp_menu.MPMenuSubMenu(
'ADSB', items=[self.threat_vehicles[id].menu_item])
icon = mp.map.icon(selected_icon)
mp.map.add_object(
mp_slipmap.SlipIcon(
id, (m.lat * 1e-7, m.lon * 1e-7),
icon,
layer=3,
rotation=m.heading * 0.01,
follow=False,
trail=mp_slipmap.SlipTrail(colour=(0, 255,
255)),
popup_menu=popup))
if threat_radius > 0:
mp.map.add_object(
mp_slipmap.SlipCircle(id + ":circle",
3,
(m.lat * 1e-7, m.lon * 1e-7),
threat_radius, (0, 255, 255),
linewidth=1))
else: # the vehicle is in the dict
# update the dict entry
self.threat_vehicles[id].update(m.to_dict(), self.get_time())
for mp in self.module_matching('map*'):
# update the map
ground_alt = mp.ElevationMap.GetElevation(
m.lat * 1e-7, m.lon * 1e-7)
alt_amsl = m.altitude * 0.001
if alt_amsl > 0:
alt = int(alt_amsl - ground_alt)
label = str(alt) + "m"
else:
label = None
mp.map.set_position(id, (m.lat * 1e-7, m.lon * 1e-7),
rotation=m.heading * 0.01,
label=label,
colour=(0, 250, 250))
mp.map.set_position(id + ":circle",
(m.lat * 1e-7, m.lon * 1e-7))
def init(_mpstate):
'''initialise module'''
global mpstate
mpstate = _mpstate
mpstate.map_state = module_state()
service = 'GoogleSat'
import platform
if platform.system() == 'Windows':
# windows has trouble with Google tile URLs
service = 'MicrosoftSat'
mpstate.map = mp_slipmap.MPSlipMap(service=service,
elevation=True,
title='Map')
mpstate.map_functions = {'draw_lines': draw_lines}
# setup a plane icon
icon = mpstate.map.icon('planetracker.png')
mpstate.map.add_object(
mp_slipmap.SlipIcon('plane', (0, 0),
icon,
layer=3,
rotation=0,
follow=True,
trail=mp_slipmap.SlipTrail()))
mpstate.map.add_callback(functools.partial(map_callback))
mpstate.command_map['map'] = (cmd_map, "map control")
def create_vehicle_icon(self, name, colour, follow=False, vehicle_type=None):
'''add a vehicle to the map'''
if vehicle_type is None:
vehicle_type = self.vehicle_type_name
if name in self.have_vehicle and self.have_vehicle[name] == vehicle_type:
return
self.have_vehicle[name] = vehicle_type
icon = self.mpstate.map.icon(colour + vehicle_type + '.png')
self.mpstate.map.add_object(mp_slipmap.SlipIcon(name, (0,0), icon, layer=3, rotation=0, follow=follow,
trail=mp_slipmap.SlipTrail()))
def create_blueplane():
'''add the blue plane to the map'''
if mpstate.map_state.have_blueplane:
return
mpstate.map_state.have_blueplane = True
icon = mpstate.map.icon('blueplane.png')
mpstate.map.add_object(
mp_slipmap.SlipIcon('blueplane', (0, 0),
icon,
layer=3,
rotation=0,
trail=mp_slipmap.SlipTrail()))
def update_map(self):
'''update the map graphics'''
for mp in self.module_matching('map*'):
for id in self.threat_vehicles.keys():
mstate = self.threat_vehicles[id].state
threat_radius = self.threat_vehicles[id].getThreatRadius(
self.AIS_settings.threat_radius)
# update if existing object on map, else create
if self.threat_vehicles[id].onMap:
mp.map.set_position(id,
(mstate.lat * 1e-7, mstate.lon * 1e-7),
3,
rotation=mstate.heading * 0.01,
label=str(mstate.callsign))
# Turns out we can't edit the circle's radius, so have to remove and re-add
mp.map.remove_object(id + ":circle")
mp.map.add_object(
mp_slipmap.SlipCircle(
id + ":circle",
3, (mstate.lat * 1e-7, mstate.lon * 1e-7),
threat_radius, (0, 255, 255),
linewidth=1))
else:
self.threat_vehicles[id].menu_item = mp_menu.MPMenuItem(
name=id, returnkey=None)
# draw the vehicle on the map
popup = mp_menu.MPMenuSubMenu(
'AIS', items=[self.threat_vehicles[id].menu_item])
icon = mp_slipmap.SlipIcon(
id,
(mstate.lat * 1e-7, mstate.lon * 1e-7),
mp.map.icon(self.threat_vehicles[id].icon),
3,
rotation=mstate.heading * 0.01,
follow=False,
trail=mp_slipmap.SlipTrail(colour=(0, 255, 255)),
popup_menu=popup,
)
mp.map.add_object(icon)
mp.map.add_object(
mp_slipmap.SlipCircle(
id + ":circle",
3, (mstate.lat * 1e-7, mstate.lon * 1e-7),
threat_radius, (0, 255, 255),
linewidth=1))
self.threat_vehicles[id].onMap = True
def Update_traffic(self):
'''Update traffic icon on map'''
#from MAVProxy.modules.mavproxy_map import mp_slipmap
t = time.time()
if (t - self.lastUpdateTime < 0.5):
return
for i, tffc in enumerate(self.traffic_list):
vehicle = 'Traffic%d' % i
if (vehicle not in self.traffic_on_map):
colour = "blue"
vehicle_type = "copter"
icon = self.mpstate.map.icon(colour + vehicle_type + '.png')
self.mpstate.map.add_object(mp_slipmap.SlipIcon(vehicle, (0,0), icon, layer=3, rotation=0, follow=False, \
trail=mp_slipmap.SlipTrail(colour=(0,255,0))))
self.traffic_on_map.append(vehicle)
self.traffic_list[i].get_pos(t)
(lat, lon) = mp_util.gps_offset(self.start_lat, self.start_lon,
self.traffic_list[i].y,
self.traffic_list[i].x)
heading = math.degrees(
math.atan2(self.traffic_list[i].vy0, self.traffic_list[i].vx0))
self.mpstate.map.set_position(vehicle, (lat, lon),
rotation=heading)
self.master.mav.command_long_send(
1, # target_system
0, # target_component
mavutil.mavlink.MAV_CMD_SPATIAL_USER_1, # command
0, # confirmation
i, # param1
self.traffic_list[i].vx0, # param2
self.traffic_list[i].vy0, # param3
self.traffic_list[i].vz0, # param4
lat, # param5
lon, # param6
self.traffic_list[i].z0) # param7
self.lastUpdateTime = t
def Update_traffic(self):
'''Update traffic icon on map'''
#place info in local variable becuase map.set_position will not accept it otherwise
i_lat = self.intr_lat
i_lon = self.intr_lon
i_hdg = self.intr_hdg
vehicle = 'Traffic1'
colour = "blue"
vehicle_type = "copter"
icon = self.mpstate.map.icon(colour + vehicle_type + '.png')
self.mpstate.map.add_object(
mp_slipmap.SlipIcon(vehicle, (0, 0),
icon,
layer=3,
rotation=0,
follow=False,
trail=mp_slipmap.SlipTrail()))
self.traffic_on_map.append(vehicle)
self.mpstate.map.set_position(vehicle, (i_lat, i_lon), rotation=i_hdg)
v_num = 1
self.master.mav.command_long_send(
1, # target_system
0, # target_component
mavutil.mavlink.MAV_CMD_SPATIAL_USER_1, # command
0, # confirmation
v_num, # param1
self.intr_vx, # param2
self.intr_vy, # param3
self.intr_vz, # param4
i_lat, # param5
i_lon, # param6
self.intr_ralt) # param7
def show_received_traffic(self, msg):
""" Dislay received traffic """
id = int(msg.param1)
vn = msg.param2
ve = msg.param3
vd = msg.param4
lat = msg.param5
lon = msg.param6
alt = msg.param7
vehicle = 'Traffic%d' % id
if (vehicle not in self.traffic_on_map):
colour = "green"
vehicle_type = "copter"
icon = self.mpstate.map.icon(colour + vehicle_type + '.png')
self.mpstate.map.add_object(mp_slipmap.SlipIcon(vehicle, (0, 0), icon, layer=3, rotation=0, follow=False, \
trail=mp_slipmap.SlipTrail(colour=(0, 255, 0))))
self.traffic_on_map.append(vehicle)
heading = math.degrees(math.atan2(ve, vn))
self.mpstate.map.set_position(vehicle, (lat, lon), rotation=heading)
def process(args):
'''process a set of files'''
global slipmap, mosaic
scan_count = 0
files = []
for a in args:
if os.path.isdir(a):
files.extend(glob.glob(os.path.join(a, '*.pgm')))
else:
files.append(a)
files.sort()
num_files = len(files)
print("num_files=%u" % num_files)
region_count = 0
joes = []
if opts.mavlog:
mpos = mav_position.MavInterpolator(gps_lag=opts.gps_lag)
mpos.set_logfile(opts.mavlog)
else:
mpos = None
if opts.boundary:
boundary = cuav_util.polygon_load(opts.boundary)
else:
boundary = None
if opts.mosaic:
slipmap = mp_slipmap.MPSlipMap(service='GoogleSat', elevation=True, title='Map')
icon = slipmap.icon('planetracker.png')
slipmap.add_object(mp_slipmap.SlipIcon('plane', (0,0), icon, layer=3, rotation=0,
follow=True,
trail=mp_slipmap.SlipTrail()))
C_params = cam_params.CameraParams(lens=opts.lens)
path = os.path.join(os.path.dirname(os.path.realpath(__file__)), '..', '..',
'cuav', 'data', 'chameleon1_arecont0.json')
C_params.load(path)
mosaic = cuav_mosaic.Mosaic(slipmap, C=C_params)
if boundary is not None:
mosaic.set_boundary(boundary)
if opts.joe:
joes = cuav_util.polygon_load(opts.joe)
if boundary:
for i in range(len(joes)):
joe = joes[i]
if cuav_util.polygon_outside(joe, boundary):
print("Error: joe outside boundary", joe)
return
icon = slipmap.icon('flag.png')
slipmap.add_object(mp_slipmap.SlipIcon('joe%u' % i, (joe[0],joe[1]), icon, layer=4))
joelog = cuav_joe.JoeLog('joe.log')
if opts.view:
viewer = mp_image.MPImage(title='Image')
frame_time = 0
for f in files:
if mpos:
frame_time = cuav_util.parse_frame_time(f)
try:
if opts.roll_stabilised:
roll = 0
else:
roll = None
pos = mpos.position(frame_time, opts.max_deltat,roll=roll)
slipmap.set_position('plane', (pos.lat, pos.lon), rotation=pos.yaw)
except mav_position.MavInterpolatorException as e:
print e
pos = None
else:
pos = None
# check for any events from the map
if opts.mosaic:
slipmap.check_events()
mosaic.check_events()
if f.endswith('.pgm'):
pgm = cuav_util.PGM(f)
im = pgm.array
if pgm.eightbit:
im_8bit = im
else:
im_8bit = numpy.zeros((960,1280,1),dtype='uint8')
if opts.gamma != 0:
scanner.gamma_correct(im, im_8bit, opts.gamma)
else:
scanner.reduce_depth(im, im_8bit)
im_full = numpy.zeros((960,1280,3),dtype='uint8')
scanner.debayer(im_8bit, im_full)
im_640 = numpy.zeros((480,640,3),dtype='uint8')
scanner.downsample(im_full, im_640)
else:
im_orig = cv.LoadImage(f)
(w,h) = cuav_util.image_shape(im_orig)
im_full = im_orig
im_640 = cv.CreateImage((640, 480), 8, 3)
cv.Resize(im_full, im_640, cv.CV_INTER_NN)
im_640 = numpy.ascontiguousarray(cv.GetMat(im_640))
im_full = numpy.ascontiguousarray(cv.GetMat(im_full))
count = 0
total_time = 0
img_scan = im_640
t0=time.time()
for i in range(opts.repeat):
if opts.fullres:
regions = scanner.scan(im_full)
regions = cuav_region.RegionsConvert(regions, 1280, 960)
else:
regions = scanner.scan(img_scan)
regions = cuav_region.RegionsConvert(regions)
count += 1
t1=time.time()
if opts.filter:
regions = cuav_region.filter_regions(im_full, regions, frame_time=frame_time, min_score=opts.minscore,
filter_type=opts.filter_type)
scan_count += 1
# optionally link all the images with joe into a separate directory
# for faster re-running of the test with just joe images
if pos and opts.linkjoe and len(regions) > 0:
cuav_util.mkdir_p(opts.linkjoe)
if not cuav_util.polygon_outside((pos.lat, pos.lon), boundary):
joepath = os.path.join(opts.linkjoe, os.path.basename(f))
if os.path.exists(joepath):
os.unlink(joepath)
os.symlink(f, joepath)
if pos and len(regions) > 0:
joelog.add_regions(frame_time, regions, pos, f, width=1280, height=960, altitude=opts.altitude)
if boundary:
regions = cuav_region.filter_boundary(regions, boundary, pos)
region_count += len(regions)
if opts.mosaic and len(regions) > 0:
composite = cuav_mosaic.CompositeThumbnail(cv.GetImage(cv.fromarray(im_full)), regions)
thumbs = cuav_mosaic.ExtractThumbs(composite, len(regions))
mosaic.add_regions(regions, thumbs, f, pos)
if opts.compress:
jpeg = scanner.jpeg_compress(im_full, opts.quality)
jpeg_filename = f[:-4] + '.jpg'
if os.path.exists(jpeg_filename):
print('jpeg %s already exists' % jpeg_filename)
continue
chameleon.save_file(jpeg_filename, jpeg)
if opts.view:
if opts.fullres:
img_view = im_full
else:
img_view = img_scan
mat = cv.fromarray(img_view)
for r in regions:
(x1,y1,x2,y2) = r.tuple()
(w,h) = cuav_util.image_shape(img_view)
x1 = x1*w//1280
x2 = x2*w//1280
y1 = y1*h//960
y2 = y2*h//960
cv.Rectangle(mat, (max(x1-2,0),max(y1-2,0)), (x2+2,y2+2), (255,0,0), 2)
cv.CvtColor(mat, mat, cv.CV_BGR2RGB)
viewer.set_image(mat)
total_time += (t1-t0)
if t1 != t0:
print('%s scan %.1f fps %u regions [%u/%u]' % (
f, count/total_time, region_count, scan_count, num_files))
def process(args):
'''process a set of files'''
global slipmap, mosaic
scan_count = 0
files = []
if os.path.isdir(args.directory):
files.extend(file_list(args.directory, ['jpg', 'pgm', 'png']))
else:
if args.directory.find('*') != -1:
files.extend(glob.glob(args.directory))
else:
files.append(args.directory)
files.sort()
num_files = len(files)
print("num_files=%u" % num_files)
region_count = 0
slipmap = mp_slipmap.MPSlipMap(service=args.service,
elevation=True,
title='Map')
icon = slipmap.icon('redplane.png')
slipmap.add_object(
mp_slipmap.SlipIcon('plane', (0, 0),
icon,
layer=3,
rotation=0,
follow=True,
trail=mp_slipmap.SlipTrail()))
for flag in args.flag:
a = flag.split(',')
lat = a[0]
lon = a[1]
icon = 'flag.png'
if len(a) > 2:
icon = a[2] + '.png'
icon = slipmap.icon(icon)
slipmap.add_object(
mp_slipmap.SlipIcon('icon - %s' % str(flag),
(float(lat), float(lon)),
icon,
layer=3,
rotation=0,
follow=False))
if args.mission:
from pymavlink import mavwp
wp = mavwp.MAVWPLoader()
wp.load(args.mission.name)
plist = wp.polygon_list()
if len(plist) > 0:
for i in range(len(plist)):
slipmap.add_object(
mp_slipmap.SlipPolygon('Mission-%s-%u' %
(args.mission.name, i),
plist[i],
layer='Mission',
linewidth=2,
colour=(255, 255, 255)))
if args.mavlog:
mpos = mav_position.MavInterpolator()
mpos.set_logfile(args.mavlog.name)
else:
mpos = None
if args.gammalog is not None:
gamma = parse_gamma_log(args.gammalog)
else:
gamma = None
if args.kmzlog:
kmzpos = mav_position.KmlPosition(args.kmzlog.name)
else:
kmzpos = None
if args.triggerlog:
triggerpos = mav_position.TriggerPosition(args.triggerlog.name)
else:
triggerpos = None
# create a simple lens model using the focal length
if args.camera_params:
C_params = cam_params.CameraParams.fromfile(args.camera_params.name)
else:
C_params = cam_params.CameraParams(lens=args.lens,
sensorwidth=args.sensorwidth,
xresolution=args.xresolution,
yresolution=args.yresolution)
if args.target:
target = args.target.split(',')
else:
target = [0, 0, 0]
camera_settings = MPSettings([
MPSetting('roll_stabilised', bool, args.roll_stabilised,
'Roll Stabilised'),
MPSetting('altitude',
int,
args.altitude,
'Altitude',
range=(0, 10000),
increment=1),
MPSetting(
'minalt', int, 30, 'MinAltitude', range=(0, 10000), increment=1),
MPSetting('mpp100',
float,
0.0977,
'MPPat100m',
range=(0, 10000),
increment=0.001),
MPSetting('rotate180', bool, args.rotate_180, 'rotate180'),
MPSetting('filter_type',
str,
'compactness',
'Filter Type',
choice=['simple', 'compactness']),
MPSetting('target_lattitude',
float,
float(target[0]),
'target latitude',
increment=1.0e-7),
MPSetting('target_longitude',
float,
float(target[1]),
'target longitude',
increment=1.0e-7),
MPSetting('target_radius',
float,
float(target[2]),
'target radius',
increment=1),
MPSetting('quality',
int,
75,
'Compression Quality',
range=(1, 100),
increment=1),
MPSetting('thumbsize',
int,
args.thumbsize,
'Thumbnail Size',
range=(10, 200),
increment=1),
MPSetting('minscore',
int,
args.minscore,
'Min Score',
range=(0, 1000),
increment=1,
tab='Scoring'),
MPSetting('brightness',
float,
1.0,
'Display Brightness',
range=(0.1, 10),
increment=0.1,
digits=2,
tab='Display'),
],
title='Camera Settings')
image_settings = MPSettings([
MPSetting('MinRegionArea',
float,
0.05,
range=(0, 100),
increment=0.05,
digits=2,
tab='Image Processing'),
MPSetting('MaxRegionArea',
float,
4.0,
range=(0, 100),
increment=0.1,
digits=1),
MPSetting('MinRegionSize',
float,
0.02,
range=(0, 100),
increment=0.05,
digits=2),
MPSetting('MaxRegionSize',
float,
3.0,
range=(0, 100),
increment=0.1,
digits=1),
MPSetting('MaxRarityPct',
float,
0.02,
range=(0, 100),
increment=0.01,
digits=2),
MPSetting('RegionMergeSize',
float,
1.0,
range=(0, 100),
increment=0.1,
digits=1),
MPSetting('BlueEmphasis', bool, args.blue_emphasis),
MPSetting('SaveIntermediate', bool, args.debug)
],
title='Image Settings')
mosaic = cuav_mosaic.Mosaic(slipmap,
C=C_params,
camera_settings=camera_settings,
image_settings=image_settings,
start_menu=True,
classify=args.categories,
thumb_size=args.mosaic_thumbsize)
joelog = cuav_joe.JoeLog(None)
if args.view:
viewer = mp_image.MPImage(title='Image', can_zoom=True, can_drag=True)
start_time = time.time()
for f in files:
if not mosaic.started():
print("Waiting for startup")
if args.start:
mosaic.has_started = True
while not mosaic.started():
mosaic.check_events()
time.sleep(0.01)
if mpos:
# get the position by interpolating telemetry data from the MAVLink log file
# this assumes that the filename contains the timestamp
if gamma is not None:
frame_time = parse_gamma_time(f, gamma)
else:
frame_time = cuav_util.parse_frame_time(f)
frame_time += args.time_offset
if camera_settings.roll_stabilised:
roll = 0
else:
roll = None
try:
pos = mpos.position(frame_time, roll=roll)
except Exception:
print("No position available for %s" % frame_time)
# skip this frame
continue
elif kmzpos is not None:
pos = kmzpos.position(f)
elif triggerpos is not None:
pos = triggerpos.position(f)
else:
# get the position using EXIF data
pos = mav_position.exif_position(f)
pos.time += args.time_offset
# update the plane icon on the map
if pos is not None:
slipmap.set_position('plane', (pos.lat, pos.lon), rotation=pos.yaw)
if camera_settings.altitude > 0:
pos.altitude = camera_settings.altitude
# check for any events from the map
slipmap.check_events()
mosaic.check_events()
im_orig = cuav_util.LoadImage(f, rotate180=camera_settings.rotate180)
if im_orig is None:
continue
(w, h) = cuav_util.image_shape(im_orig)
if False:
im_640 = cv.CreateImage((640, 480), 8, 3)
cv.Resize(im_full, im_640, cv.CV_INTER_NN)
im_640 = numpy.ascontiguousarray(cv.GetMat(im_640))
im_full = im_orig
im_full = numpy.ascontiguousarray(cv.GetMat(im_full))
count = 0
total_time = 0
t0 = time.time()
img_scan = im_full
scan_parms = {}
for name in image_settings.list():
scan_parms[name] = image_settings.get(name)
scan_parms['SaveIntermediate'] = float(scan_parms['SaveIntermediate'])
scan_parms['BlueEmphasis'] = float(scan_parms['BlueEmphasis'])
if pos is not None:
(sw, sh) = cuav_util.image_shape(img_scan)
altitude = pos.altitude
if altitude < camera_settings.minalt:
altitude = camera_settings.minalt
scan_parms[
'MetersPerPixel'] = camera_settings.mpp100 * altitude / 100.0
regions = scanner.scan(img_scan, scan_parms)
else:
regions = scanner.scan(img_scan)
regions = cuav_region.RegionsConvert(regions,
cuav_util.image_shape(img_scan),
cuav_util.image_shape(im_full))
count += 1
t1 = time.time()
frame_time = pos.time
if pos:
for r in regions:
r.latlon = cuav_util.gps_position_from_image_region(
r, pos, w, h, altitude=altitude, C=C_params)
if camera_settings.target_radius > 0 and pos is not None:
regions = cuav_region.filter_radius(
regions, (camera_settings.target_lattitude,
camera_settings.target_longitude),
camera_settings.target_radius)
regions = cuav_region.filter_regions(
im_full,
regions,
frame_time=frame_time,
min_score=camera_settings.minscore,
filter_type=camera_settings.filter_type)
scan_count += 1
if pos and len(regions) > 0:
altitude = camera_settings.altitude
if altitude <= 0:
altitude = None
joelog.add_regions(frame_time,
regions,
pos,
f,
width=w,
height=h,
altitude=altitude)
mosaic.add_image(pos.time, f, pos)
region_count += len(regions)
if len(regions) > 0:
composite = cuav_mosaic.CompositeThumbnail(
cv.GetImage(cv.fromarray(im_full)), regions)
thumbs = cuav_mosaic.ExtractThumbs(composite, len(regions))
mosaic.add_regions(regions, thumbs, f, pos)
if args.view:
img_view = img_scan
(wview, hview) = cuav_util.image_shape(img_view)
mat = cv.fromarray(img_view)
for r in regions:
r.draw_rectangle(mat, (255, 0, 0))
cv.CvtColor(mat, mat, cv.CV_BGR2RGB)
viewer.set_image(mat)
viewer.set_title('Image: ' + os.path.basename(f))
if args.saveview:
cv.CvtColor(mat, mat, cv.CV_RGB2BGR)
cv.SaveImage('view-' + os.path.basename(f), mat)
total_time += (t1 - t0)
if t1 != t0:
print('%s scan %.1f fps %u regions [%u/%u]' %
(os.path.basename(f), count / total_time, region_count,
scan_count, num_files))
#raw_input("hit ENTER when ready")
print("All images processed (%u seconds)" % (time.time() - start_time))
while True:
# check for any events from the map
slipmap.check_events()
mosaic.check_events()
time.sleep(0.2)
def mavlink_packet(self, m):
'''handle an incoming mavlink packet'''
if m.get_type() == "ADSB_VEHICLE":
id = 'ADSB-' + str(m.ICAO_address)
if id not in self.threat_vehicles.keys(
): # check to see if the vehicle is in the dict
# if not then add it
self.threat_vehicles[id] = ADSBVehicle(id=id,
state=m.to_dict())
if self.mpstate.map: # if the map is loaded...
icon = self.mpstate.map.icon(self.threat_vehicles[id].icon)
popup = MPMenuSubMenu(
'ADSB', items=[MPMenuItem(name=id, returnkey=None)])
# draw the vehicle on the map
self.mpstate.map.add_object(
mp_slipmap.SlipIcon(
id, (m.lat * 1e-7, m.lon * 1e-7),
icon,
layer=3,
rotation=m.heading * 0.01,
follow=False,
trail=mp_slipmap.SlipTrail(colour=(0, 255, 255)),
popup_menu=popup))
else: # the vehicle is in the dict
# update the dict entry
self.threat_vehicles[id].update(m.to_dict())
if self.mpstate.map: # if the map is loaded...
# update the map
self.mpstate.map.set_position(id,
(m.lat * 1e-7, m.lon * 1e-7),
rotation=m.heading * 0.01)
if m.get_type() == "GLOBAL_POSITION_INT":
if self.mpstate.map:
if len(self.active_threat_ids) > 0:
threat_circle_width = 2
else:
threat_circle_width = 1
# update the threat circle on the map
threat_circle = mp_slipmap.SlipCircle(
"threat_circle",
3, (m.lat * 1e-7, m.lon * 1e-7),
self.ADSB_settings.threat_radius, (0, 255, 255),
linewidth=threat_circle_width)
threat_circle.set_hidden(
not self.ADSB_settings.show_threat_radius
) # show the circle?
self.mpstate.map.add_object(threat_circle)
# update the threat clear circle on the map
threat_radius_clear = self.ADSB_settings.threat_radius * \
self.ADSB_settings.threat_radius_clear_multiplier
threat_clear_circle = mp_slipmap.SlipCircle(
"threat_clear_circle",
3, (m.lat * 1e-7, m.lon * 1e-7),
threat_radius_clear, (0, 255, 255),
linewidth=1)
# show the circle?
threat_clear_circle.set_hidden(
not self.ADSB_settings.show_threat_radius_clear)
self.mpstate.map.add_object(threat_clear_circle)
# we assume this is handled much more oftern than ADS-B messages
# so update the distance between vehicle and threat here
self.update_threat_distances(
(m.lat * 1e-7, m.lon * 1e-7, m.alt * 1e-3))
def process(args):
'''process a set of files'''
global slipmap, mosaic
scan_count = 0
files = []
for a in args:
if os.path.isdir(a):
files.extend(file_list(a, ['jpg', 'pgm', 'png']))
else:
if a.find('*') != -1:
files.extend(glob.glob(a))
else:
files.append(a)
files.sort()
num_files = len(files)
print("num_files=%u" % num_files)
region_count = 0
slipmap = mp_slipmap.MPSlipMap(service=opts.service,
elevation=True,
title='Map')
icon = slipmap.icon('redplane.png')
slipmap.add_object(
mp_slipmap.SlipIcon('plane', (0, 0),
icon,
layer=3,
rotation=0,
follow=True,
trail=mp_slipmap.SlipTrail()))
if opts.mission:
from pymavlink import mavwp
wp = mavwp.MAVWPLoader()
wp.load(opts.mission)
boundary = wp.polygon()
slipmap.add_object(
mp_slipmap.SlipPolygon('mission',
boundary,
layer=1,
linewidth=1,
colour=(255, 255, 255)))
if opts.mavlog:
mpos = mav_position.MavInterpolator()
mpos.set_logfile(opts.mavlog)
else:
mpos = None
if opts.kmzlog:
kmzpos = mav_position.KmlPosition(opts.kmzlog)
else:
kmzpos = None
if opts.triggerlog:
triggerpos = mav_position.TriggerPosition(opts.triggerlog)
else:
triggerpos = None
# create a simple lens model using the focal length
C_params = cam_params.CameraParams(lens=opts.lens,
sensorwidth=opts.sensorwidth)
if opts.camera_params:
C_params.load(opts.camera_params)
camera_settings = MPSettings([
MPSetting('roll_stabilised', bool, True, 'Roll Stabilised'),
MPSetting(
'altitude', int, 0, 'Altitude', range=(0, 10000), increment=1),
MPSetting('filter_type',
str,
'simple',
'Filter Type',
choice=['simple', 'compactness']),
MPSetting('fullres', bool, False, 'Full Resolution'),
MPSetting('quality',
int,
75,
'Compression Quality',
range=(1, 100),
increment=1),
MPSetting('thumbsize',
int,
60,
'Thumbnail Size',
range=(10, 200),
increment=1),
MPSetting('minscore',
int,
75,
'Min Score',
range=(0, 1000),
increment=1,
tab='Scoring'),
MPSetting('brightness',
float,
1.0,
'Display Brightness',
range=(0.1, 10),
increment=0.1,
digits=2,
tab='Display')
],
title='Camera Settings')
image_settings = MPSettings([
MPSetting('MinRegionArea',
float,
0.15,
range=(0, 100),
increment=0.05,
digits=2,
tab='Image Processing'),
MPSetting('MaxRegionArea',
float,
2.0,
range=(0, 100),
increment=0.1,
digits=1),
MPSetting('MinRegionSize',
float,
0.1,
range=(0, 100),
increment=0.05,
digits=2),
MPSetting(
'MaxRegionSize', float, 2, range=(0, 100), increment=0.1,
digits=1),
MPSetting('MaxRarityPct',
float,
0.02,
range=(0, 100),
increment=0.01,
digits=2),
MPSetting('RegionMergeSize',
float,
3.0,
range=(0, 100),
increment=0.1,
digits=1),
MPSetting('SaveIntermediate', bool, False)
],
title='Image Settings')
mosaic = cuav_mosaic.Mosaic(slipmap,
C=C_params,
camera_settings=camera_settings,
image_settings=image_settings,
start_menu=True)
joelog = cuav_joe.JoeLog(None)
if opts.view:
viewer = mp_image.MPImage(title='Image', can_zoom=True, can_drag=True)
if camera_settings.filter_type == 'compactness':
calculate_compactness = True
print("Using compactness filter")
else:
calculate_compactness = False
for f in files:
if not mosaic.started():
print("Waiting for startup")
while not mosaic.started():
mosaic.check_events()
time.sleep(0.01)
if mpos:
# get the position by interpolating telemetry data from the MAVLink log file
# this assumes that the filename contains the timestamp
frame_time = cuav_util.parse_frame_time(f) + opts.time_offset
if camera_settings.roll_stabilised:
roll = 0
else:
roll = None
try:
pos = mpos.position(frame_time, roll=roll)
except Exception:
print("No position available for %s" % frame_time)
# skip this frame
continue
elif kmzpos is not None:
pos = kmzpos.position(f)
elif triggerpos is not None:
pos = triggerpos.position(f)
else:
# get the position using EXIF data
pos = mav_position.exif_position(f)
pos.time += opts.time_offset
# update the plane icon on the map
if pos is not None:
slipmap.set_position('plane', (pos.lat, pos.lon), rotation=pos.yaw)
if camera_settings.altitude > 0:
pos.altitude = camera_settings.altitude
# check for any events from the map
slipmap.check_events()
mosaic.check_events()
im_orig = cuav_util.LoadImage(f)
(w, h) = cuav_util.image_shape(im_orig)
if not opts.camera_params:
C_params.set_resolution(w, h)
im_full = im_orig
im_640 = cv.CreateImage((640, 480), 8, 3)
cv.Resize(im_full, im_640, cv.CV_INTER_NN)
im_640 = numpy.ascontiguousarray(cv.GetMat(im_640))
im_full = numpy.ascontiguousarray(cv.GetMat(im_full))
count = 0
total_time = 0
t0 = time.time()
if camera_settings.fullres:
img_scan = im_full
else:
img_scan = im_640
scan_parms = {}
for name in image_settings.list():
scan_parms[name] = image_settings.get(name)
scan_parms['SaveIntermediate'] = float(scan_parms['SaveIntermediate'])
if pos is not None:
(sw, sh) = cuav_util.image_shape(img_scan)
mpp = cuav_util.meters_per_pixel(pos, C=C_params)
if mpp is not None:
scan_parms['MetersPerPixel'] = mpp * (w / float(sw))
regions = scanner.scan(img_scan, scan_parms)
else:
regions = scanner.scan(img_scan)
regions = cuav_region.RegionsConvert(regions,
cuav_util.image_shape(img_scan),
cuav_util.image_shape(im_full),
calculate_compactness)
count += 1
t1 = time.time()
frame_time = pos.time
regions = cuav_region.filter_regions(
im_full,
regions,
frame_time=frame_time,
min_score=camera_settings.minscore,
filter_type=camera_settings.filter_type)
scan_count += 1
mosaic.add_image(pos.time, f, pos)
if pos and len(regions) > 0:
altitude = camera_settings.altitude
if altitude <= 0:
altitude = None
joelog.add_regions(frame_time,
regions,
pos,
f,
width=w,
height=h,
altitude=altitude)
region_count += len(regions)
if len(regions) > 0:
composite = cuav_mosaic.CompositeThumbnail(
cv.GetImage(cv.fromarray(im_full)), regions)
thumbs = cuav_mosaic.ExtractThumbs(composite, len(regions))
mosaic.add_regions(regions, thumbs, f, pos)
if opts.view:
img_view = img_scan
(wview, hview) = cuav_util.image_shape(img_view)
mat = cv.fromarray(img_view)
for r in regions:
r.draw_rectangle(mat, (255, 0, 0))
cv.CvtColor(mat, mat, cv.CV_BGR2RGB)
viewer.set_image(mat)
viewer.set_title('Image: ' + os.path.basename(f))
total_time += (t1 - t0)
if t1 != t0:
print('%s scan %.1f fps %u regions [%u/%u]' %
(os.path.basename(f), count / total_time, region_count,
scan_count, num_files))
def process(args):
'''process a set of files'''
global slipmap, mosaic
scan_count = 0
files = scan_image_directory(args.imagedir)
files.sort()
num_files = len(files)
print("num_files=%u" % num_files)
region_count = 0
joes = []
if args.mavlog:
mpos = mav_position.MavInterpolator(gps_lag=args.gps_lag)
mpos.set_logfile(args.mavlog)
else:
mpos = None
if args.boundary:
boundary = cuav_util.polygon_load(args.boundary)
else:
boundary = None
if args.mosaic:
slipmap = mp_slipmap.MPSlipMap(service='GoogleSat', elevation=True, title='Map')
icon = slipmap.icon('redplane.png')
slipmap.add_object(mp_slipmap.SlipIcon('plane', (0,0), icon, layer=3, rotation=0,
follow=True,
trail=mp_slipmap.SlipTrail()))
if args.camera_params:
C_params = cam_params.CameraParams.fromfile(args.camera_params.name)
else:
im_orig = cv2.imread(files[0])
(w,h) = cuav_util.image_shape(im_orig)
C_params = cam_params.CameraParams(lens=args.lens, sensorwidth=args.sensorwidth, xresolution=w, yresolution=h)
mosaic = cuav_mosaic.Mosaic(slipmap, C=C_params)
if boundary is not None:
mosaic.set_boundary(boundary)
if args.joe:
joes = cuav_util.polygon_load(args.joe)
if boundary:
for i in range(len(joes)):
joe = joes[i]
if cuav_util.polygon_outside(joe, boundary):
print("Error: joe outside boundary", joe)
return
icon = slipmap.icon('flag.png')
slipmap.add_object(mp_slipmap.SlipIcon('joe%u' % i, (joe[0],joe[1]), icon, layer=4))
joelog = cuav_joe.JoeLog('joe.log')
if args.view:
viewer = mp_image.MPImage(title='Image')
frame_time = 0
scan_parms = {
'MinRegionArea' : args.min_region_area,
'MaxRegionArea' : args.max_region_area,
'MinRegionSize' : args.min_region_size,
'MaxRegionSize' : args.max_region_size,
'MaxRarityPct' : args.max_rarity_pct,
'RegionMergeSize' : args.region_merge,
'SaveIntermediate' : float(0),
#'SaveIntermediate' : float(args.debug),
'MetersPerPixel' : args.meters_per_pixel100 * args.altitude / 100.0
}
filenum = 0
for f in files:
filenum += 1
if mpos:
frame_time = cuav_util.parse_frame_time(f)
try:
if args.roll_stabilised:
roll = 0
else:
roll = None
pos = mpos.position(frame_time, args.max_deltat,roll=roll)
slipmap.set_position('plane', (pos.lat, pos.lon), rotation=pos.yaw)
except mav_position.MavInterpolatorException as e:
print(e)
pos = None
else:
pos = None
# check for any events from the map
if args.mosaic:
slipmap.check_events()
mosaic.check_events()
im_orig = cv2.imread(f)
(w,h) = cuav_util.image_shape(im_orig)
im_full = im_orig
im_half = cv2.resize(im_orig, (0,0), fx=0.5, fy=0.5)
im_half = numpy.ascontiguousarray(im_half)
im_full = numpy.ascontiguousarray(im_full)
count = 0
total_time = 0
if args.fullres:
img_scan = im_full
else:
img_scan = im_half
t0=time.time()
for i in range(args.repeat):
regions = scanner.scan(img_scan, scan_parms)
regions = cuav_region.RegionsConvert(regions, cuav_util.image_shape(img_scan), cuav_util.image_shape(im_full))
count += 1
t1=time.time()
if args.filter:
regions = cuav_region.filter_regions(im_full, regions, min_score=args.minscore,
filter_type=args.filter_type)
if len(regions) > 0 and args.debug:
composite = cuav_region.CompositeThumbnail(im_full, regions, thumb_size=args.thumb_size)
thumbs = cuav_mosaic.ExtractThumbs(composite, len(regions))
thumb_num = 0
for thumb in thumbs:
print("thumb %u score %f" % (thumb_num, regions[thumb_num].score))
cv2.imwrite('%u_thumb%u.jpg' % (filenum,thumb_num), thumb)
thumb_num += 1
scan_count += 1
# optionally link all the images with joe into a separate directory
# for faster re-running of the test with just joe images
if pos and args.linkjoe and len(regions) > 0:
cuav_util.mkdir_p(args.linkjoe)
if not cuav_util.polygon_outside((pos.lat, pos.lon), boundary):
joepath = os.path.join(args.linkjoe, os.path.basename(f))
if os.path.exists(joepath):
os.unlink(joepath)
os.symlink(f, joepath)
if pos and len(regions) > 0:
joelog.add_regions(frame_time, regions, pos, f, width=w, height=h, altitude=args.altitude, C=C_params)
if boundary:
regions = cuav_region.filter_boundary(regions, boundary, pos)
region_count += len(regions)
if args.mosaic and len(regions) > 0 and pos:
composite = cuav_region.CompositeThumbnail(im_full, regions)
thumbs = cuav_mosaic.ExtractThumbs(composite, len(regions))
mosaic.add_regions(regions, thumbs, f, pos)
if args.view:
if args.fullres:
img_view = im_full
else:
img_view = img_scan
#mat = cv.fromarray(img_view)
for r in regions:
r.draw_rectangle(img_view, colour=(255,0,0), linewidth=min(max(w/600,1),3), offset=max(w/200,1))
img_view = cv2.cvtColor(img_view, cv2.COLOR_BGR2RGB)
viewer.set_image(img_view)
total_time += (t1-t0)
if t1 != t0:
print('%s scan %.1f fps %u regions [%u/%u]' % (
f, count/total_time, region_count, scan_count, num_files))
def process(args):
'''process a set of files'''
global slipmap, mosaic
scan_count = 0
files = []
for a in args:
if os.path.isdir(a):
files.extend(file_list(a, ['jpg', 'pgm', 'png']))
else:
if a.find('*') != -1:
files.extend(glob.glob(a))
else:
files.append(a)
files.sort()
num_files = len(files)
print("num_files=%u" % num_files)
region_count = 0
slipmap = mp_slipmap.MPSlipMap(service=opts.service,
elevation=True,
title='Map')
icon = slipmap.icon('redplane.png')
slipmap.add_object(
mp_slipmap.SlipIcon('plane', (0, 0),
icon,
layer=3,
rotation=0,
follow=True,
trail=mp_slipmap.SlipTrail()))
if opts.mission:
from pymavlink import mavwp
wp = mavwp.MAVWPLoader()
wp.load(opts.mission)
boundary = wp.polygon()
slipmap.add_object(
mp_slipmap.SlipPolygon('mission',
boundary,
layer=1,
linewidth=1,
colour=(255, 255, 255)))
if opts.mavlog:
mpos = mav_position.MavInterpolator()
mpos.set_logfile(opts.mavlog)
else:
mpos = None
if opts.kmzlog:
kmzpos = mav_position.KmlPosition(opts.kmzlog)
else:
kmzpos = None
if opts.triggerlog:
triggerpos = mav_position.TriggerPosition(opts.triggerlog)
else:
triggerpos = None
# create a simple lens model using the focal length
C_params = cam_params.CameraParams(lens=opts.lens,
sensorwidth=opts.sensorwidth)
if opts.camera_params:
C_params.load(opts.camera_params)
mosaic = cuav_mosaic.Mosaic(slipmap, C=C_params)
joelog = cuav_joe.JoeLog(None)
if opts.view:
viewer = mp_image.MPImage(title='Image', can_zoom=True, can_drag=True)
scan_parms = {
'MinRegionArea': opts.min_region_area,
'MaxRegionArea': opts.max_region_area,
'MinRegionSize': opts.min_region_size,
'MaxRegionSize': opts.max_region_size,
'MaxRarityPct': opts.max_rarity_pct,
'RegionMergeSize': opts.region_merge
}
for f in files:
if mpos:
# get the position by interpolating telemetry data from the MAVLink log file
# this assumes that the filename contains the timestamp
frame_time = cuav_util.parse_frame_time(f) + opts.time_offset
if opts.roll_stabilised:
roll = 0
else:
roll = None
try:
pos = mpos.position(frame_time, roll=roll)
except Exception:
print("No position available for %s" % frame_time)
# skip this frame
continue
elif kmzpos is not None:
pos = kmzpos.position(f)
elif triggerpos is not None:
pos = triggerpos.position(f)
else:
# get the position using EXIF data
pos = mav_position.exif_position(f)
pos.time += opts.time_offset
# update the plane icon on the map
if pos is not None:
slipmap.set_position('plane', (pos.lat, pos.lon), rotation=pos.yaw)
# check for any events from the map
slipmap.check_events()
mosaic.check_events()
im_orig = cuav_util.LoadImage(f)
(w, h) = cuav_util.image_shape(im_orig)
if not opts.camera_params:
C_params.set_resolution(w, h)
im_full = im_orig
im_640 = cv.CreateImage((640, 480), 8, 3)
cv.Resize(im_full, im_640, cv.CV_INTER_NN)
im_640 = numpy.ascontiguousarray(cv.GetMat(im_640))
im_full = numpy.ascontiguousarray(cv.GetMat(im_full))
count = 0
total_time = 0
t0 = time.time()
if opts.fullres:
img_scan = im_full
else:
img_scan = im_640
if pos is not None:
(sw, sh) = cuav_util.image_shape(img_scan)
mpp = cuav_util.meters_per_pixel(pos, C=C_params)
if mpp is not None:
scan_parms['MetersPerPixel'] = mpp * (w / float(sw))
regions = scanner.scan(img_scan, scan_parms)
else:
regions = scanner.scan(img_scan)
regions = cuav_region.RegionsConvert(regions,
cuav_util.image_shape(img_scan),
cuav_util.image_shape(im_full))
count += 1
t1 = time.time()
frame_time = pos.time
regions = cuav_region.filter_regions(im_full,
regions,
frame_time=frame_time,
min_score=opts.minscore,
filter_type=opts.filter_type)
scan_count += 1
mosaic.add_image(pos.time, f, pos)
if pos and len(regions) > 0:
joelog.add_regions(frame_time,
regions,
pos,
f,
width=w,
height=h,
altitude=opts.altitude)
region_count += len(regions)
if len(regions) > 0:
composite = cuav_mosaic.CompositeThumbnail(
cv.GetImage(cv.fromarray(im_full)), regions)
thumbs = cuav_mosaic.ExtractThumbs(composite, len(regions))
mosaic.add_regions(regions, thumbs, f, pos)
if opts.view:
img_view = img_scan
(wview, hview) = cuav_util.image_shape(img_view)
mat = cv.fromarray(img_view)
for r in regions:
r.draw_rectangle(mat, (255, 0, 0))
cv.CvtColor(mat, mat, cv.CV_BGR2RGB)
viewer.set_image(mat)
viewer.set_title('Image: ' + os.path.basename(f))
total_time += (t1 - t0)
if t1 != t0:
print('%s scan %.1f fps %u regions [%u/%u]' %
(os.path.basename(f), count / total_time, region_count,
scan_count, num_files))
