def mm(tid, method, interval=1):
alg = algs[method]
gw = cg.new_gw()
trd = cdb.new_track_reader(offset=0)
pwd = cdb.new_path_writer_for_method(method=method)
pt2j = cj.new_pt2geojson(method=method)
track = trd.fetch_by_id(tid)
track.sample(interval)
track.summary()
pt2j.write_t_geojson(track)
alg.prepare(gw)
path = alg.match(gw, track)
pt2j.write_p_geojson(path)
# pwd.insert_update(path)
path.summary()
del trd, pwd
return path
def mm(tid, method, interval=1):
alg = algs[method]
gw = cg.new_gw()
trd = cdb.new_track_reader(offset = 0)
pwd = cdb.new_path_writer_for_method(method = method)
pt2j = cj.new_pt2geojson(method = method)
track = trd.fetch_by_id(tid)
track.sample(interval)
track.summary()
pt2j.write_t_geojson(track)
alg.prepare(gw)
path = alg.match(gw, track)
pt2j.write_p_geojson(path)
# pwd.insert_update(path)
path.summary()
del trd,pwd
return path
def mm(gw, trd, method, tid, interval):
alg = algs[method]
pt2j = cj.new_pt2geojson(method = method)
track = trd.fetch_by_id(tid)
track.sample(interval)
#pt2j.write_t_geojson(track)
path = alg.match(gw, track)
pt2j.write_p_geojson(path)
return path
def mm(gw, trd, method, tid, interval):
alg = algs[method]
pt2j = cj.new_pt2geojson(method=method)
track = trd.fetch_by_id(tid)
track.sample(interval)
#pt2j.write_t_geojson(track)
path = alg.match(gw, track)
pt2j.write_p_geojson(path)
return path
# There are 2638410 tracks in table taxi_tracks, id from 1-2638410
TRACKS_FROM_TID = 1
TRACKS_TO_TID = 2638410
TID_DP_TBNAME = "taxi_tid_dp_1"
METHOD = 'bn'
alg = abn
gw = cg.new_gw()
trd = cdb.new_track_reader_for_purpose(purpose="mm")
pwd = cdb.new_path_writer_for_method(method = METHOD)
pawd = cdb.new_path_attr_writer_for_method(method = METHOD)
tdpdb = cdb.new_tid_dp_db(tbname=TID_DP_TBNAME)
pt2j = cj.new_pt2geojson(method = METHOD)
req_nodes = [19808,12055,19800,19943,28533,19804,19801,23737,23736,23739]
def rect_of_nodes(nodes, r=1):
latgap = cg.km2latgap(r)
longap = cg.km2longap(r, 39.0)
min_lon = INF
min_lat = INF
max_lon = -INF
max_lat = -INF
for v in nodes:
(lon, lat) = gw.nodes_pos[v]
min_lon = min(min_lon, lon)
max_lon = max(max_lon, lon)
min_lat = min(min_lat, lat)
# There are 2638410 tracks in table taxi_tracks, id from 1-2638410
TRACKS_FROM_TID = 1
TRACKS_TO_TID = 2638410
TID_DP_TBNAME = "taxi_tid_dp_1"
METHOD = 'bn'
alg = abn
gw = cg.new_gw()
trd = cdb.new_track_reader_for_purpose(purpose="mm")
pwd = cdb.new_path_writer_for_method(method=METHOD)
pawd = cdb.new_path_attr_writer_for_method(method=METHOD)
tdpdb = cdb.new_tid_dp_db(tbname=TID_DP_TBNAME)
pt2j = cj.new_pt2geojson(method=METHOD)
req_nodes = [
19808, 12055, 19800, 19943, 28533, 19804, 19801, 23737, 23736, 23739
]
def rect_of_nodes(nodes, r=1):
latgap = cg.km2latgap(r)
longap = cg.km2longap(r, 39.0)
min_lon = INF
min_lat = INF
max_lon = -INF
max_lat = -INF
for v in nodes:
(lon, lat) = gw.nodes_pos[v]
