def main():
#name = sys.argv[1]
#print '\nInitializing...\n'
linklist = dict()
linkID = list()
nodelist = dict()
m_file = 'map.txt'
#print 'Reading DRMLink info...'
r.ReadingDRMinfo(m_file, linklist, linkID, nodelist)
#print '\nCollecting links of Grid for type 1...'
gridlink_1 = g.CollectGridLinks(1, linklist, linkID)
#print '\nCollecting links of Grid for type 2...'
gridlink_2 = g.CollectGridLinks(2, linklist, linkID)
for folder in os.listdir('section'):
#if int(folder) < int(name):
#continue
for t_file in os.listdir('section/'+folder):
tracktime = list()
tracklist = dict()
w_file = 'gps/'+folder+'/'+t_file
#print 'Tansfering gps data...\n'
t.trans_trackInfo('section/'+folder+'/'+t_file, w_file, tracklist, tracktime)
#print ("Transformation completed.\n")
G1 = list()
G2 = list()
if not tracktime:
continue
i_start = 0
while True:
try:
itime = tracktime[i_start]
(x2, y2) = g.GetGridIndex(2, tracklist[itime].long, tracklist[itime].lat)
track_links = g.AdjacentGridLinks(2, x2, y2, gridlink_2)
except IndexError:
break
if track_links:
s_links = track_links
break
else:
tracktime.remove(itime)
i_start += 1
i_end = len(tracktime)-1
while True:
try:
itime = tracktime[i_end]
except IndexError:
break
(x2, y2) = g.GetGridIndex(2, tracklist[itime].long, tracklist[itime].lat)
try:
track_links = g.AdjacentGridLinks(2, x2, y2, gridlink_2)
except IndexError:
break
if track_links:
e_links = track_links
break
else:
tracktime.remove(itime)
i_end -= 1
track_number = i_end-i_start+1
if track_number > 0:
for itrack in range(i_start, i_end+1):
track_line = tracklist[tracktime[itrack]]
(x1, y1) = g.GetGridIndex(1, track_line.long, track_line.lat)
try:
G1 += g.AdjacentGridLinks(1, x1, y1, gridlink_1)
(x2, y2) = g.GetGridIndex(2, track_line.long, track_line.lat)
G2 += g.AdjacentGridLinks(2, x2, y2, gridlink_2)
except IndexError:
continue
else:
continue
G1 = RemoveDuplicates.unique(G1)
number_gps = {}
for iid in G2:
if number_gps.has_key(iid):
number_gps[iid] += 1
else:
number_gps[iid] = 1
G2 = RemoveDuplicates.unique(G2)
G3 = list(set(G1) - set(G2))
Gtrip = {}
GLinkNode = {}
GraphNet = []
GraphNet_part = []
Gpredecessor = []
for iid in G3:
ilink = linklist[iid]
GraphNet.append(ilink.linkid)
if ilink.regulation == 2:
g.AddLink(Gtrip, ilink.node1, ilink.node2, ilink.length)
g.AddLink(GLinkNode, ilink.node1, ilink.node2, ilink.linkid)
elif ilink.regulation == 3:
g.AddLink(Gtrip, ilink.node2, ilink.node1, ilink.length)
g.AddLink(GLinkNode, ilink.node2, ilink.node1, ilink.linkid)
else:
g.AddLink(Gtrip, ilink.node1, ilink.node2, ilink.length)
g.AddLink(Gtrip, ilink.node2, ilink.node1, ilink.length)
g.AddLink(GLinkNode, ilink.node1, ilink.node2, ilink.linkid)
g.AddLink(GLinkNode, ilink.node2, ilink.node1, ilink.linkid)
for iid in G2:
ilink = linklist[iid]
GraphNet.append(ilink.linkid)
if ilink.regulation == 2:
g.AddLink(Gtrip, ilink.node1, ilink.node2, ilink.length*REDUCTION_RATE*pow(REDUCE2,number_gps[iid]))
g.AddLink(GLinkNode, ilink.node1, ilink.node2, ilink.linkid)
elif ilink.regulation == 3:
g.AddLink(Gtrip, ilink.node2, ilink.node1, ilink.length*REDUCTION_RATE*pow(REDUCE2,number_gps[iid]))
g.AddLink(GLinkNode, ilink.node2, ilink.node1, ilink.linkid)
else:
g.AddLink(Gtrip, ilink.node1, ilink.node2, ilink.length*REDUCTION_RATE*pow(REDUCE2,number_gps[iid]))
g.AddLink(Gtrip, ilink.node2, ilink.node1, ilink.length*REDUCTION_RATE*pow(REDUCE2,number_gps[iid]))
g.AddLink(GLinkNode, ilink.node1, ilink.node2, ilink.linkid)
g.AddLink(GLinkNode, ilink.node2, ilink.node1, ilink.linkid)
GraphNet = RemoveDuplicates.unique(GraphNet)
s_links = RemoveDuplicates.unique(s_links)
e_links = RemoveDuplicates.unique(e_links)
s_links.sort()
# print 'start links:', s_links
# print 'end links:', e_links
#print '\nFinding shortest path...'
TRIP_FIRST_ID = 100
TRIP_LAST_ID = 111
number_trip = 1
number_path = 0
end_mod = dict()
shortest_path = list()
g.AddVirtualLinks(Gtrip, s_links, e_links, linklist, end_mod)
if Gtrip and s_links and e_links:
shortest_path = Dj.shortestPath(Gtrip, TRIP_FIRST_ID, TRIP_LAST_ID)
if shortest_path:
shortest_path[0] = end_mod[shortest_path[0]][shortest_path[1]]
shortest_path[-1] = end_mod[shortest_path[-2]][shortest_path[-1]]
number_path += 1
D, P = Dj.Dijkstra(Gtrip, TRIP_FIRST_ID, TRIP_LAST_ID)
for key in P.keys():
if key != TRIP_LAST_ID and key != TRIP_LAST_ID:
key2 = P[key]
if key2 != TRIP_FIRST_ID and key2 != TRIP_LAST_ID:
Gpredecessor.append(GLinkNode[key2][key])
# print shortest_path
if shortest_path:
try:
rvs.RevisePathEndpoints(tracklist, tracktime, linklist, GLinkNode, s_links, e_links, shortest_path)
except KeyError:
continue
ipa = 0
pathlinks = list()
rst_file = open('path/'+folder+'/'+t_file, 'w')
pathnodes = shortest_path
if pathnodes:
while ipa <= len(pathnodes)-2:
try:
lid = GLinkNode[pathnodes[ipa]][pathnodes[ipa+1]]
pathlinks.append(lid)
ipa += 1
except KeyError:
ipa += 1
continue
for link in pathlinks:
rst_file.write(folder)
rst_file.write(',' + str(link) + '\n')
else:
rst_file.write(folder)
rst_file.write(',' + '0' + '\n')
rst_file.close()
#print '\nAttaching points to road...'
rvs.point_on_road(tracktime, tracklist, pathlinks, linklist, folder+'/'+t_file)
print '\n'+folder+': '+t_file+' complete.'
def main():
t_file = sys.argv[1]
print '\nInitializing...\n'
tracktime = list()
tracklist = dict()
w_file = pwd + '/gps/' + t_file
print 'Tansfering gps data...\n'
t.trans(pwd + '/raw_gps/' + t_file, w_file)
print("Transformation completed.\n")
r.ReadingTrackInfo(tracklist, tracktime, w_file)
linklist = dict()
linkID = list()
nodelist = dict()
m_file = pwd + '/map.txt'
print 'Reading DRMLink into linklist and linkID...'
r.ReadingDRMlink(linklist, linkID, m_file)
print '\nReading DRMNode into nodelist...'
r.ReadingDRMnode(nodelist, m_file)
G1 = list()
G2 = list()
i_start = 0
while True:
itime = tracktime[i_start]
(x2, y2) = g.GetGridIndex(2, tracklist[itime].long,
tracklist[itime].lat)
track_links = g.AdjacentGridLinks(2, x2, y2, gridlink_2)
if track_links:
s_links = track_links
break
else:
tracktime.remove(itime)
i_start += 1
i_end = len(tracktime) - 1
while True:
itime = tracktime[i_end]
(x2, y2) = g.GetGridIndex(2, tracklist[itime].long,
tracklist[itime].lat)
track_links = g.AdjacentGridLinks(2, x2, y2, gridlink_2)
if track_links:
e_links = track_links
break
else:
tracktime.remove(itime)
i_end -= 1
track_number = i_end - i_start + 1
if track_number >= 0:
for itrack in range(i_start, i_end + 1):
track_line = tracklist[tracktime[itrack]]
(x1, y1) = g.GetGridIndex(1, track_line.long, track_line.lat)
G1 += g.AdjacentGridLinks(1, x1, y1, gridlink_1)
(x2, y2) = g.GetGridIndex(2, track_line.long, track_line.lat)
G2 += g.AdjacentGridLinks(2, x2, y2, gridlink_2)
G1 = RemoveDuplicates.unique(G1)
number_gps = {}
for iid in G2:
if number_gps.has_key(iid):
number_gps[iid] += 1
else:
number_gps[iid] = 1
G2 = RemoveDuplicates.unique(G2)
G3 = list(set(G1) - set(G2))
Gtrip = {}
GLinkNode = {}
GraphNet = []
GraphNet_part = []
Gpredecessor = []
for iid in G3:
ilink = linklist[iid]
GraphNet.append(ilink.linkid)
if ilink.regulation == 2:
g.AddLink(Gtrip, ilink.node1, ilink.node2, ilink.length)
g.AddLink(GLinkNode, ilink.node1, ilink.node2, ilink.linkid)
elif ilink.regulation == 3:
g.AddLink(Gtrip, ilink.node2, ilink.node1, ilink.length)
g.AddLink(GLinkNode, ilink.node2, ilink.node1, ilink.linkid)
else:
g.AddLink(Gtrip, ilink.node1, ilink.node2, ilink.length)
g.AddLink(Gtrip, ilink.node2, ilink.node1, ilink.length)
g.AddLink(GLinkNode, ilink.node1, ilink.node2, ilink.linkid)
g.AddLink(GLinkNode, ilink.node2, ilink.node1, ilink.linkid)
for iid in G2:
ilink = linklist[iid]
GraphNet.append(ilink.linkid)
if ilink.regulation == 2:
g.AddLink(
Gtrip, ilink.node1, ilink.node2,
ilink.length * REDUCTION_RATE * pow(REDUCE2, number_gps[iid]))
g.AddLink(GLinkNode, ilink.node1, ilink.node2, ilink.linkid)
elif ilink.regulation == 3:
g.AddLink(
Gtrip, ilink.node2, ilink.node1,
ilink.length * REDUCTION_RATE * pow(REDUCE2, number_gps[iid]))
g.AddLink(GLinkNode, ilink.node2, ilink.node1, ilink.linkid)
else:
g.AddLink(
Gtrip, ilink.node1, ilink.node2,
ilink.length * REDUCTION_RATE * pow(REDUCE2, number_gps[iid]))
g.AddLink(
Gtrip, ilink.node2, ilink.node1,
ilink.length * REDUCTION_RATE * pow(REDUCE2, number_gps[iid]))
g.AddLink(GLinkNode, ilink.node1, ilink.node2, ilink.linkid)
g.AddLink(GLinkNode, ilink.node2, ilink.node1, ilink.linkid)
GraphNet = RemoveDuplicates.unique(GraphNet)
s_links = RemoveDuplicates.unique(s_links)
e_links = RemoveDuplicates.unique(e_links)
s_links.sort()
# print 'start links:', s_links
# print 'end links:', e_links
print '\nFinding shortest path...'
TRIP_FIRST_ID = 100
TRIP_LAST_ID = 111
number_trip = 1
number_path = 0
end_mod = dict()
shortest_path = list()
g.AddVirtualLinks(Gtrip, s_links, e_links, linklist, end_mod)
if Gtrip and s_links and e_links:
shortest_path = Dj.shortestPath(Gtrip, TRIP_FIRST_ID, TRIP_LAST_ID)
if shortest_path:
shortest_path[0] = end_mod[shortest_path[0]][shortest_path[1]]
shortest_path[-1] = end_mod[shortest_path[-2]][shortest_path[-1]]
number_path += 1
D, P = Dj.Dijkstra(Gtrip, TRIP_FIRST_ID, TRIP_LAST_ID)
for key in P.keys():
if key != TRIP_LAST_ID and key != TRIP_LAST_ID:
key2 = P[key]
if key2 != TRIP_FIRST_ID and key2 != TRIP_LAST_ID:
Gpredecessor.append(GLinkNode[key2][key])
# print shortest_path
if shortest_path:
rvs.RevisePathEndpoints(tracklist, tracktime, linklist, GLinkNode,
s_links, shortest_path)
ipa = 0
pathlinks = list()
rst_file = open('path/' + t_file, 'w')
pathnodes = shortest_path
if pathnodes:
while ipa <= len(pathnodes) - 2:
lid = GLinkNode[pathnodes[ipa]][pathnodes[ipa + 1]]
pathlinks.append(lid)
ipa += 1
for link in pathlinks:
rst_file.write(t_file[:-4])
rst_file.write(',' + str(link) + '\n')
else:
rst_file.write(t_file[:-4])
rst_file.write(',' + '0' + '\n')
rst_file.close()
print '\nAttaching points to road...'
rvs.point_on_road(tracktime, tracklist, pathlinks, linklist, t_file)
print '\nDone.'
def main():
t_file = sys.argv[1]
print '\nInitializing...\n'
tracktime = list()
tracklist = dict()
w_file = pwd+'/gps/'+t_file
print 'Tansfering gps data...\n'
t.trans(pwd+'/raw_gps/'+t_file, w_file)
print ("Transformation completed.\n")
r.ReadingTrackInfo(tracklist, tracktime, w_file)
linklist = dict()
linkID = list()
nodelist = dict()
m_file = pwd+'/map.txt'
print 'Reading DRMLink into linklist and linkID...'
r.ReadingDRMlink(linklist, linkID, m_file)
print '\nReading DRMNode into nodelist...'
r.ReadingDRMnode(nodelist, m_file)
G1 = list()
G2 = list()
i_start = 0
while True:
itime = tracktime[i_start]
(x2, y2) = g.GetGridIndex(2, tracklist[itime].long, tracklist[itime].lat)
track_links = g.AdjacentGridLinks(2, x2, y2, gridlink_2)
if track_links:
s_links = track_links
break
else:
tracktime.remove(itime)
i_start += 1
i_end = len(tracktime)-1
while True:
itime = tracktime[i_end]
(x2, y2) = g.GetGridIndex(2, tracklist[itime].long, tracklist[itime].lat)
track_links = g.AdjacentGridLinks(2, x2, y2, gridlink_2)
if track_links:
e_links = track_links
break
else:
tracktime.remove(itime)
i_end -= 1
track_number = i_end-i_start+1
if track_number >= 0:
for itrack in range(i_start, i_end+1):
track_line = tracklist[tracktime[itrack]]
(x1, y1) = g.GetGridIndex(1, track_line.long, track_line.lat)
G1 += g.AdjacentGridLinks(1, x1, y1, gridlink_1)
(x2, y2) = g.GetGridIndex(2, track_line.long, track_line.lat)
G2 += g.AdjacentGridLinks(2, x2, y2, gridlink_2)
G1 = RemoveDuplicates.unique(G1)
number_gps = {}
for iid in G2:
if number_gps.has_key(iid):
number_gps[iid] += 1
else:
number_gps[iid] = 1
G2 = RemoveDuplicates.unique(G2)
G3 = list(set(G1) - set(G2))
Gtrip = {}
GLinkNode = {}
GraphNet = []
GraphNet_part = []
Gpredecessor = []
for iid in G3:
ilink = linklist[iid]
GraphNet.append(ilink.linkid)
if ilink.regulation == 2:
g.AddLink(Gtrip, ilink.node1, ilink.node2, ilink.length)
g.AddLink(GLinkNode, ilink.node1, ilink.node2, ilink.linkid)
elif ilink.regulation == 3:
g.AddLink(Gtrip, ilink.node2, ilink.node1, ilink.length)
g.AddLink(GLinkNode, ilink.node2, ilink.node1, ilink.linkid)
else:
g.AddLink(Gtrip, ilink.node1, ilink.node2, ilink.length)
g.AddLink(Gtrip, ilink.node2, ilink.node1, ilink.length)
g.AddLink(GLinkNode, ilink.node1, ilink.node2, ilink.linkid)
g.AddLink(GLinkNode, ilink.node2, ilink.node1, ilink.linkid)
for iid in G2:
ilink = linklist[iid]
GraphNet.append(ilink.linkid)
if ilink.regulation == 2:
g.AddLink(Gtrip, ilink.node1, ilink.node2, ilink.length*REDUCTION_RATE*pow(REDUCE2,number_gps[iid]))
g.AddLink(GLinkNode, ilink.node1, ilink.node2, ilink.linkid)
elif ilink.regulation == 3:
g.AddLink(Gtrip, ilink.node2, ilink.node1, ilink.length*REDUCTION_RATE*pow(REDUCE2,number_gps[iid]))
g.AddLink(GLinkNode, ilink.node2, ilink.node1, ilink.linkid)
else:
g.AddLink(Gtrip, ilink.node1, ilink.node2, ilink.length*REDUCTION_RATE*pow(REDUCE2,number_gps[iid]))
g.AddLink(Gtrip, ilink.node2, ilink.node1, ilink.length*REDUCTION_RATE*pow(REDUCE2,number_gps[iid]))
g.AddLink(GLinkNode, ilink.node1, ilink.node2, ilink.linkid)
g.AddLink(GLinkNode, ilink.node2, ilink.node1, ilink.linkid)
GraphNet = RemoveDuplicates.unique(GraphNet)
s_links = RemoveDuplicates.unique(s_links)
e_links = RemoveDuplicates.unique(e_links)
s_links.sort()
# print 'start links:', s_links
# print 'end links:', e_links
print '\nFinding shortest path...'
TRIP_FIRST_ID = 100
TRIP_LAST_ID = 111
number_trip = 1
number_path = 0
end_mod = dict()
shortest_path = list()
g.AddVirtualLinks(Gtrip, s_links, e_links, linklist, end_mod)
if Gtrip and s_links and e_links:
shortest_path = Dj.shortestPath(Gtrip, TRIP_FIRST_ID, TRIP_LAST_ID)
if shortest_path:
shortest_path[0] = end_mod[shortest_path[0]][shortest_path[1]]
shortest_path[-1] = end_mod[shortest_path[-2]][shortest_path[-1]]
number_path += 1
D, P = Dj.Dijkstra(Gtrip, TRIP_FIRST_ID, TRIP_LAST_ID)
for key in P.keys():
if key != TRIP_LAST_ID and key != TRIP_LAST_ID:
key2 = P[key]
if key2 != TRIP_FIRST_ID and key2 != TRIP_LAST_ID:
Gpredecessor.append(GLinkNode[key2][key])
# print shortest_path
if shortest_path:
rvs.RevisePathEndpoints(tracklist, tracktime, linklist, GLinkNode, s_links, shortest_path)
ipa = 0
pathlinks = list()
rst_file = open('path/'+t_file, 'w')
pathnodes = shortest_path
if pathnodes:
while ipa <= len(pathnodes)-2:
lid = GLinkNode[pathnodes[ipa]][pathnodes[ipa+1]]
pathlinks.append(lid)
ipa += 1
for link in pathlinks:
rst_file.write(t_file[:-4])
rst_file.write(',' + str(link) + '\n')
else:
rst_file.write(t_file[:-4])
rst_file.write(',' + '0' + '\n')
rst_file.close()
print '\nAttaching points to road...'
rvs.point_on_road(tracktime, tracklist, pathlinks, linklist, t_file)
print '\nDone.'
