def next(self):
row = self.csvreader.next()
bounds = [float(x) for x in row['bounds'].replace('(','').replace(')','').replace(' ','').split(',')]
row['bounds'] = bounds
row['waypoints'] = ''
if len(bounds) == 4:
row['waypoints'] = CoordUtils.waypoints_for_linestring(
[(bounds[1],bounds[0]),(bounds[3],bounds[2])],
32)
return row
def next(self):
row = self.csvreader.next()
bounds = [
float(x)
for x in row['bounds'].replace('(', '').replace(')', '').replace(
' ', '').split(',')
]
row['bounds'] = bounds
row['waypoints'] = ''
if len(bounds) == 4:
row['waypoints'] = CoordUtils.waypoints_for_linestring(
[(bounds[1], bounds[0]), (bounds[3], bounds[2])], 32)
return row
def next(self):
if self.i < len(self.trees):
i = self.i
self.i += 1
tree = self.trees[i]
tree_kml_id = tree.name.split('.')[1]
tree_id = ''
et = etree.fromstring('<root>'+tree.description+'</root>')
for li in et.findall('ul/li'):
atrname = li.find(".//*[@class='atr-name']")
if (atrname is not None) and (atrname.text == "TREEID"):
atrval = li.find(".//*[@class='atr-value']")
tree_id = atrval.text
tree_latlng = [tree.geometry.y,tree.geometry.x]
tree_stateplane = CoordUtils.stateplane_for_latlng(tree_latlng)
return {'id': tree_id,
'kml_id': tree_kml_id,
'stateplane': tree_stateplane,
'latlng': tree_latlng}
else:
raise StopIteration()
def main(argv):
usage_string = 'python tools/cut_training_images --trees_dir data/trees --map_dir data/maps/2014 --streets_dir data/streets --slices_dir data/slices/2014_64px --slice_size=64'
trees_dir = ''
map_dir = ''
streets_dir = ''
slices_dir = ''
slice_size = 0
try:
opts, args = getopt.getopt(argv,"h", ["trees_dir=","map_dir=","slices_dir=","slice_size=","streets_dir="])
except getopt.GetoptError:
print usage_string
sys.exit(2)
for opt, arg in opts:
if opt == '-h':
print usage_string
elif opt == '--trees_dir':
trees_dir = arg
elif opt == '--map_dir':
map_dir = arg
elif opt == '--streets_dir':
streets_dir = arg
elif opt == '--slices_dir':
slices_dir = arg
elif opt == '--slice_size':
slice_size = int(arg)
if not os.path.exists(trees_dir):
print "trees dir missing"
sys.exit(2)
if not os.path.exists(map_dir):
print "map dir missing"
sys.exit(2)
if not os.path.exists(streets_dir):
print "streets dir missing"
sys.exit(2)
if len(slices_dir) == 0:
print "slices dir not specified"
sys.exit(2)
if not os.path.exists(slices_dir):
os.makedirs(slices_dir)
slices_0_dir = '{}/0'.format(slices_dir)
slices_1_dir = '{}/1'.format(slices_dir)
if not os.path.exists(slices_0_dir):
os.makedirs(slices_0_dir)
if not os.path.exists(slices_1_dir):
os.makedirs(slices_1_dir)
tile_map = TileMap(map_dir)
trees = list(TreeList(trees_dir))
street_list = StreetList(streets_dir)
for street in street_list:
i = 0
for waypoint_latlng in street['waypoints']:
waypoint = CoordUtils.stateplane_for_latlng(waypoint_latlng)
i = i + 1
l1_radius = slice_size/2
trees_seen = []
# TODO faster please
for tree in trees:
if (
tree['stateplane'][0] > waypoint[0]-l1_radius and
tree['stateplane'][0] < waypoint[0]+l1_radius and
tree['stateplane'][1] > waypoint[1]-l1_radius and
tree['stateplane'][1] < waypoint[1]+l1_radius):
trees_seen.append(tree)
label = (0 if (len(trees_seen) == 0) else 1)
try:
region = tile_map.crop_around_stateplane(waypoint,slice_size)
slice_fn = '{}/{}/st_{}_{}-sp_{},{}-ll_{},{}.jpg'.format(
slices_dir,label,
street['id'],i,
waypoint[0],waypoint[1],
waypoint_latlng[0],waypoint_latlng[1])
region.save(slice_fn)
print slice_fn
except TileMapBoundsError:
print "WARNING: waypoint out of bounds: {}".format(waypoint)
pass
def main(argv):
usage_string = 'python tools/cut_training_images --trees_dir data/trees --map_dir data/maps/2014 --streets_dir data/streets --slices_dir data/slices/2014_64px --slice_size=64'
trees_dir = ''
map_dir = ''
streets_dir = ''
slices_dir = ''
slice_size = 0
try:
opts, args = getopt.getopt(argv, "h", [
"trees_dir=", "map_dir=", "slices_dir=", "slice_size=",
"streets_dir="
])
except getopt.GetoptError:
print usage_string
sys.exit(2)
for opt, arg in opts:
if opt == '-h':
print usage_string
elif opt == '--trees_dir':
trees_dir = arg
elif opt == '--map_dir':
map_dir = arg
elif opt == '--streets_dir':
streets_dir = arg
elif opt == '--slices_dir':
slices_dir = arg
elif opt == '--slice_size':
slice_size = int(arg)
if not os.path.exists(trees_dir):
print "trees dir missing"
sys.exit(2)
if not os.path.exists(map_dir):
print "map dir missing"
sys.exit(2)
if not os.path.exists(streets_dir):
print "streets dir missing"
sys.exit(2)
if len(slices_dir) == 0:
print "slices dir not specified"
sys.exit(2)
if not os.path.exists(slices_dir):
os.makedirs(slices_dir)
slices_0_dir = '{}/0'.format(slices_dir)
slices_1_dir = '{}/1'.format(slices_dir)
if not os.path.exists(slices_0_dir):
os.makedirs(slices_0_dir)
if not os.path.exists(slices_1_dir):
os.makedirs(slices_1_dir)
tile_map = TileMap(map_dir)
trees = list(TreeList(trees_dir))
street_list = StreetList(streets_dir)
for street in street_list:
i = 0
for waypoint_latlng in street['waypoints']:
waypoint = CoordUtils.stateplane_for_latlng(waypoint_latlng)
i = i + 1
l1_radius = slice_size / 2
trees_seen = []
# TODO faster please
for tree in trees:
if (tree['stateplane'][0] > waypoint[0] - l1_radius
and tree['stateplane'][0] < waypoint[0] + l1_radius
and tree['stateplane'][1] > waypoint[1] - l1_radius
and tree['stateplane'][1] < waypoint[1] + l1_radius):
trees_seen.append(tree)
label = (0 if (len(trees_seen) == 0) else 1)
try:
region = tile_map.crop_around_stateplane(waypoint, slice_size)
slice_fn = '{}/{}/segment-{}-{}.jpg'.format(
slices_dir, label, street['kml_id'], i)
region.save(slice_fn)
print slice_fn
except TileMapBoundsError:
print "WARNING: waypoint out of bounds: {}".format(waypoint)
pass
def pixels_around_latlng(self, latlng, width):
stateplane = CoordUtils.stateplane_for_latlng(latlng)
return self.pixels_around_stateplane(stateplane)
def tilepixel_with_latlng(self, latlng):
stateplane = CoordUtils.stateplane_for_latlng(latlng)
return self.tilepixel_with_stateplane(stateplane)
def pixels_around_latlng(self,latlng,width):
stateplane = CoordUtils.stateplane_for_latlng(latlng);
return self.pixels_around_stateplane(stateplane)
def tilepixel_with_latlng(self,latlng):
stateplane = CoordUtils.stateplane_for_latlng(latlng);
return self.tilepixel_with_stateplane(stateplane)
