def main(argv):
try:
import psyco
psyco.full()
except ImportError:
pass
try:
CONF_FILE = str(argv[4])
except (IndexError, ValueError):
debug("no config file given, using the default 'scanaerial.cfg'")
CONF_FILE = "scanaerial.cfg"
try:
config = ConfigParser.ConfigParser()
config.readfp(open(sys.path[0] + '/' + CONF_FILE))
except:
debug('could not read config file %s' % CONF_FILE)
exit(1)
try:
INPUT_LAT = float(argv[1])
INPUT_LON = float(argv[2])
except (IndexError, ValueError):
debug("this program expects latitude longitude, now running debug mode")
INPUT_LAT = 51.0720147
INPUT_LON = 7.2181707
try:
ZOOM = int(float(argv[3]))
except (IndexError, ValueError):
ZOOM = config.getint('WMS', 'fixedzoomlevel')
debug("could not read TZoom from commandline, fixed zoom level %d is used" % ZOOM)
# Coordinates from command string.
# (format is decimal, for SAS-planet go to Settings and set'em there as --d.
# You can use SAS-Planet: click right mouse button on center of forest.
# SET SOME CONSTANTS
BLACK = 0
WHITE = 1
PROGRAM_START_TIMESTAMP = clock()
WMS_SERVER_URL = config.get('WMS', 'wms_server_url')
PROJECTION = config.get('WMS', 'projection')
TILE_SIZE = (config.getint('WMS', 'tile_sizex'), config.getint('WMS', 'tile_sizey'))
#FIXME natural:water should go to .cfg NODES but how? It would be nice if the user could expand it for more keys.
WAY_TAGS = {"source:tracer":"scanaerial", \
"source:zoomlevel": ZOOM , \
"source:position": config.get('WMS', 'wmsname'), \
"natural":"water"}
POLYGON_TAGS = WAY_TAGS.copy()
POLYGON_TAGS["type"] = "multipolygon"
#smoothness of way, bigger = less dots and turns = 0.6-1.3 is ok
DOUGLAS_PEUCKER_EPSILON = config.getfloat('SCAN', 'douglas_peucker_epsilon')
#sensivity for colour change, bigger = larger area covered = 20-23-25 is ok
colour_str = config.getfloat('SCAN', 'colour_str')
web = WmsCanvas(WMS_SERVER_URL, PROJECTION, ZOOM, TILE_SIZE, mode = "RGB")
was_expanded = True
normales_list = []
mask = WmsCanvas(None, PROJECTION, ZOOM, TILE_SIZE, mode = "1")
debug("proj=%s, z=%s" % (PROJECTION, ZOOM))
## Getting start pixel ##
x, y = web.PixelFrom4326(INPUT_LON, INPUT_LAT)
x, y = int(x), int(y)
INITCOLOUR = web[x, y]
debug("INITCOLOUR = %s" % str(INITCOLOUR))
colour_table = {}
DIRECTIONS = [(1, 0), (-1, 0), (0, 1), (0, -1)]
queue = set([(x, y), ])
mask[x, y] = WHITE
ttz = clock()
normales_list = set([])
norm_dir = {(0, -1):0, (1, 0):1, (0, 1):2, (-1, 0):3}
while queue:
px = queue.pop()
for d in DIRECTIONS:
x1, y1 = px[0] + d[0], px[1] + d[1]
if mask[x1, y1] is not WHITE:
col = web[x1, y1]
if col not in colour_table:
try:
colour_table[col] = (distance(INITCOLOUR, col) <= colour_str)
except:
debug(web.tiles)
debug(mask.tiles)
if colour_table[col]:
mask[x1, y1] = WHITE
queue.add((x1, y1))
debug("First walk (masking): %s" % str(clock() - ttz))
debug("Colour table has %s entries" % len(colour_table))
queue = [(x, y), ]
ttz = clock()
mask.MaxFilter(config.getint('SCAN', 'maxfilter_setting'))
debug("B/W MaxFilter: %s" % str(clock() - ttz))
del web
oldmask = mask
mask = WmsCanvas(None, PROJECTION, ZOOM, TILE_SIZE, mode = "1")
bc = 1
ttz = clock()
while queue:
px = queue.pop()
for d in DIRECTIONS:
x1, y1 = px[0] + d[0], px[1] + d[1]
if mask[x1, y1] is not WHITE and oldmask[x1, y1] is WHITE:
mask[x1, y1] = WHITE
bc += 1
queue.append((x1, y1))
if oldmask[x1, y1] is not WHITE:
normales_list.add(((x1 + px[0]) / 2., \
(y1 + px[1]) / 2., \
norm_dir[px[0] - x1, px[1] - y1]))
debug("Found %s normales here." % len(normales_list))
debug("Second walk (leaving only poly): %s" % str(clock() - ttz))
stdout.write('<osm version="0.6">')
node_num = 0
way_num = 0
outline = []
popped = False
lin = []
tz = clock()
while normales_list:
if not popped:
x, y, d = normales_list.pop()
lin = [(x, y), ]
popped = True
found = False
if d is 0: #up-pointing vector
search = [(x + 0.5, y - 0.5, 3), (x + 1, y, 0), (x + 0.5, y + 0.5, 1)]
if d is 1:
search = [(x + 0.5, y + 0.5, 0), (x, y + 1, 1), (x - 0.5, y + 0.5, 2)]
if d is 2:
search = [(x - 0.5, y + 0.5, 1), (x - 1, y, 2), (x - 0.5, y - 0.5, 3)]
if d is 3:
search = [(x - 0.5, y - 0.5, 2), (x, y - 1, 3), (x + 0.5, y - 0.5, 0)]
for kp in search:
if kp in normales_list:
normales_list.remove(kp)
x, y, d = kp
lin.append((x, y))
found = True
break
if not found:
popped = False
if not config.getint('SCAN', 'deactivate_simplifying'):
lin = douglas_peucker(lin, DOUGLAS_PEUCKER_EPSILON)
debug("line found; simplified to %s" % len(lin))
else:
debug("skipped simplifing")
if len(lin) >= 6:
outline.append(lin)
lin = []
if lin:
lin = douglas_peucker(lin, DOUGLAS_PEUCKER_EPSILON)
debug("line post-found; simplified to %s" % len(lin))
if len(lin) >= 4:
outline.append(lin)
debug("Normales walk: %s, " % (str(clock() - ttz),))
roles = {}
for lin in outline:
area = 0
prx, pry = lin[-1]
for x, y in lin:
area += (x * pry - y * prx) / 2
prx = x
pry = y
node_num -= 1
lon, lat = oldmask.PixelAs4326(x, y)
stdout.write('<node id="%s" lon="%s" lat="%s" version="1" />' % (node_num, lon, lat))
way_num -= 1
roles[way_num] = (area > 0)
stdout.write('<way id="%s" version="1">' % (way_num))
for y in range(node_num, node_num + len(lin)):
stdout.write('<nd ref="%s" />' % (y))
stdout.write('<nd ref="%s" />' % (node_num))
if len(outline) == 1:
for z in WAY_TAGS.iteritems():
stdout.write(' <tag k="%s" v="%s" />"' % z)
stdout.write("</way>")
if way_num < -1:
stdout.write('<relation id="-1" version="1">')
for y in range(way_num, 0):
role = ("inner", "outer")[int(roles[y])]
stdout.write('<member type="way" ref="%s" role="%s" />' % (y, role))
for z in POLYGON_TAGS.iteritems():
stdout.write(' <tag k="%s" v="%s" />"' % z)
stdout.write('</relation>')
stdout.write("</osm>")
stdout.flush()
debug("All done in: %s" % str(clock() - PROGRAM_START_TIMESTAMP))
px = queue.pop()
for d in DIRECTIONS:
x1, y1 = px[0] + d[0], px[1] + d[1]
if (x - SIZE_LIMIT) > x1:
continue
if (x + SIZE_LIMIT) < x1:
continue
if (y - SIZE_LIMIT) > y1:
continue
if (y + SIZE_LIMIT) < y1:
continue
if mask[x1, y1] is not WHITE:
col = web[x1, y1]
if col not in colour_table:
try:
colour_table[col] = (distance(INITCOLOUR, col) <=
colour_str)
except:
debug(web.tiles)
debug(mask.tiles)
if colour_table[col]:
mask[x1, y1] = WHITE
queue.add((x1, y1))
debug("First walk (masking): %s" % str(process_time() - ttz))
debug("Colour table has %s entries" % len(colour_table))
queue = [
(x, y),
]
ttz = process_time()
DIRECTIONS = [(1, 0), (-1, 0), (0, 1), (0, -1)]
queue = set([(x, y), ])
mask[x, y] = WHITE
ttz = clock()
normales_list = set([])
norm_dir = {(0, -1):0, (1, 0):1, (0, 1):2, (-1, 0):3}
while queue:
px = queue.pop()
for d in DIRECTIONS:
x1, y1 = px[0] + d[0], px[1] + d[1]
if mask[x1, y1] is not WHITE:
col = web[x1, y1]
if col not in colour_table:
try:
colour_table[col] = (distance(INITCOLOUR, col) <= colour_str)
except:
debug(web.tiles)
debug(mask.tiles)
if colour_table[col]:
mask[x1, y1] = WHITE
queue.add((x1, y1))
debug("First walk (masking): %s" % str(clock() - ttz))
debug("Colour table has %s entries" % len(colour_table))
queue = [(x, y), ]
ttz = clock()
mask.MaxFilter(config.getint('SCAN', 'maxfilter_setting'))
debug("B/W MaxFilter: %s" % str(clock() - ttz))
del web
