/usr/lib/python2.7/dist-packages/jpgrid.py is in python-geohash 0.8.3-1.1.
This file is owned by root:root, with mode 0o644.
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# Coder for Japanese grid square code. (JIS C 6304 / JIS X 0410)
# 行政管理庁告示第143号 http://www.stat.go.jp/data/mesh/
def _encode_i2c(lat, lon, base1):
t=[]
while base1>80:
t.append(1 + (lat&1)*2 + (lon&1))
lat = lat>>1
lon = lon>>1
base1 = base1>>1
if base1==80:
t.append(lon%10)
t.append(lat%10)
lat = int(lat/10)
lon = int(lon/10)
base1 = int(base1/10)
elif base1==16: # Uni5
t.append(1 + (lat&1)*2 + (lon&1))
lat = lat>>1
lon = lon>>1
base1 = base1>>1
elif base1==40: # Uni2
t.append(5)
t.append(lon%5*2)
t.append(lat%5*2)
lat = int(lat/5)
lon = int(lon/5)
base1 = int(base1/5)
if base1==8:
t.append(lon%8)
t.append(lat%8)
lat = lat>>3
lon = lon>>3
base1 = base1>>3
t.append(lon)
t.append(lat)
t.reverse()
return ''.join([str(i) for i in t])
def encode(latitude, longitude, base1=80):
return _encode_i2c(int(latitude*base1*1.5), int(longitude*base1-100.0*base1), base1)
#def _encode_i2c(lat, lon, base1):
def _decode_c2i(gridcode):
base1 = 1
lat = lon = 0
codelen = len(gridcode)
if codelen>0:
lat = int(gridcode[0:2])
lon = int(gridcode[2:4])
if codelen>4:
lat = (lat<<3) + int(gridcode[4:5])
lon = (lon<<3) + int(gridcode[5:6])
base1 = base1<<3
if codelen>6:
if codelen==7:
i = int(gridcode[6:7])-1
lat = (lat<<1) + int(i/2)
lon = (lon<<1) + i%2
base1 = base1<<1
else:
lat = lat*10 + int(gridcode[6:7])
lon = lon*10 + int(gridcode[7:8])
base1 = base1*10
if codelen>8:
if gridcode[8:]=='5':
lat = lat>>1
lon = lon>>1
base1 = base1>>1
else:
for i in gridcode[8:]:
i = int(i)-1
lat = (lat<<1) + int(i/2)
lon = (lon<<1) + i%2
base1 = base1<<1
return (lat, lon, base1)
def decode_sw(gridcode, delta=False):
(lat, lon, base1) = _decode_c2i(gridcode)
lat = lat/(base1*1.5)
lon = lon/float(base1) + 100.0
if delta:
return (lat, lon, 1.0/(base1*1.5), 1.0/base1)
else:
return (lat, lon)
def decode(gridcode):
(lat, lon, base1) = _decode_c2i(gridcode)
# center position of the meshcode.
lat = (lat<<1) + 1
lon = (lon<<1) + 1
base1 = base1<<1
return (lat/(base1*1.5), lon/float(base1) + 100.0)
def bbox(gridcode):
(a,b,c,d) = decode_sw(gridcode, True)
return {'w':a, 's':b, 'n':b+d, 'e':a+c}
## short-cut methods
def encodeLv1(lat, lon):
return encode(lat,lon,1)
def encodeLv2(lat, lon):
return encode(lat,lon,8)
def encodeLv3(lat, lon):
return encode(lat,lon,80)
def encodeBase(lat,lon):
return encodeLv3(lat,lon)
def encodeHalf(lat,lon):
return encode(lat,lon,160)
def encodeQuarter(lat,lon):
return encode(lat,lon,320)
def encodeEighth(lat,lon):
return encode(lat,lon,640)
def encodeUni10(lat,lon):
return encodeLv2(lat,lon)
def encodeUni5(lat, lon):
return encode(lat,lon,16)
def encodeUni2(lat, lon):
return encode(lat,lon,40)
def neighbors(gridcode):
(lat,lon,base1)=_decode_c2i(gridcode)
ret = []
for i in ((0,-1),(0,1),(1,-1),(1,0),(1,1),(-1,-1),(-1,0),(-1,1)):
tlat=lat+i[0]
tlon=lon+i[1]
if tlat<0 or tlat>(90*base1):
continue
if tlon<0 or tlon>(100*base1):
continue
ret.append(_encode_i2c(tlat,tlon,base1))
return ret
def expand(gridcode):
ret = neighbors(gridcode)
ret.append(gridcode)
return ret
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