add gps transfer tool

diff --git a/tools/mcu/gps.py b/tools/mcu/gps.py
new file mode 100755 (executable)
index 0000000..4932966
--- /dev/null
+++ b/tools/mcu/gps.py
@@ -0,0 +1,182 @@
+#!/usr/bin/env python
+# -*- coding: utf-8 -*-
+# ------------------------------------------------------------------------
+#   File Name: gps.py
+#      Author: Zhao Yanbai
+#              2018-11-01 22:13:59 Thursday CST
+# Description: none
+# ------------------------------------------------------------------------
+
+#line = '$GNRMC,135019.000,A,3032.7184,N,10401.4127,E,1.20,51.76,011118,,,A*42'
+
+#from math import sin, cos, sqrt, fabs, atan2
+import math
+from math import pi
+
+a = 6378245.0;
+ee = 0.00669342162296594323;
+
+
+class Storage(dict) :
+    def __getattr__(self, key) :
+        try :
+            return self[key]
+        except KeyError, k:
+            raise AttributeError, k
+
+    def __setattr__(self, key, value) :
+        self[key] = value
+
+    def __delattr__(self, key) :
+        try :
+            del self[key]
+        except KeyError, k:
+            raise AttributeError, k
+
+    def __repr__(self) :
+        return '<Storage ' + dict.__repr__(self) + '>'
+
+class GPS(Storage) :
+    def __init__(self, lng = 0.0, lat = 0.0) :
+        self.lng = lng
+        self.lat = lat
+
+gps_data = []
+
+def CalculateDegree(d, m) :
+    d = float(d) + float(m) / 60.0
+    return d
+    return str(d)
+    
+    
+def CalculateGPSDegree(line) :
+    fields = line.split(',')
+    if len(fields) != 13 :
+        return None
+
+    flag, latitude, ulat, longitude, ulon = fields[2], fields[3], fields[4], fields[5], fields[6]
+
+    #print(line)
+
+    if flag == 'N' or flag == 'V' :
+        return None
+    # s = ''
+    # s = s + ulat + '' +  CalculateDegree(latitude[0:2], latitude[2:])  + '\t'
+    # s = s + ulon + '' +  CalculateDegree(longitude[0:3], longitude[3:])+ '\n'
+    # s = "{{Long:{0},Lat:{1}}},".format(CalculateDegree(longitude[0:3], longitude[3:]), CalculateDegree(latitude[0:2], latitude[2:]))
+    # return s
+
+    gps = GPS()
+    gps.lng = CalculateDegree(longitude[0:3], longitude[3:])
+    gps.lat = CalculateDegree(latitude[0:2], latitude[2:])
+    gps_data.append(gps)
+
+def transformLng(x, y) :
+    ret = 300.0 + x + 2.0 * y + 0.1 * x * x + 0.1 * x * y + 0.1 * math.sqrt(abs(x));
+    ret += (20.0 * math.sin(6.0 * x * pi) + 20.0 * math.sin(2.0 * x * pi)) * 2.0 / 3.0;
+    ret += (20.0 * math.sin(x * pi) + 40.0 * math.sin(x / 3.0 * pi)) * 2.0 / 3.0;
+    ret += (150.0 * math.sin(x / 12.0 * pi) + 300.0 * math.sin(x / 30.0 * pi)) * 2.0 / 3.0;
+    return ret;
+
+def transformLat(x, y) :
+    ret = -100.0 + 2.0 * x + 3.0 * y + 0.2 * y * y + 0.1 * x * y + 0.2 * math.sqrt(abs(x));
+    ret += (20.0 * math.sin(6.0 * x * pi) + 20.0 * math.sin(2.0 * x * pi)) * 2.0 / 3.0;
+    ret += (20.0 * math.sin(y * pi) + 40.0 * math.sin(y / 3.0 * pi)) * 2.0 / 3.0;
+    ret += (160.0 * math.sin(y / 12.0 * pi) + 320 * math.sin(y * pi / 30.0)) * 2.0 / 3.0;
+    return ret;
+
+def wgs82_to_gcj02(lng, lat) :
+    dLat = transformLat(lng - 105.0, lat - 35.0)
+    dLng = transformLng(lng - 105.0, lat - 35.0)
+    radLat = lat / 180.0 * pi
+    magic = math.sin(radLat)
+    magic = 1 - ee * magic * magic
+    sqrtMagic = math.sqrt(magic)
+
+    dLng = (dLng * 180.0) / (a / sqrtMagic * math.cos(radLat) * pi)
+    dLat = (dLat * 180.0) / ((a * (1 -ee)) / (magic * sqrtMagic) * pi)
+
+    gcjLng = lng + dLng
+    gcjLat = lat + dLat
+
+    x = GPS(gcjLng, gcjLat)
+    #print(lng, lat)
+    #print(x.lng, x.lat)
+    return x
+
+def gcj02_to_bd09(lng, lat) :
+    x = lng
+    y = lat
+    z = math.sqrt(x * x + y * y) + 0.00002 * math.sin(y * pi);
+    theta = math.atan2(y, x) + 0.000003 * math.cos(x * pi);
+    bdLng = z * math.cos(theta) + 0.0065;
+    bdLat = z * math.sin(theta) + 0.006;
+    x = GPS(bdLng, bdLat);
+    return x
+
+def bd09_to_gcj02(lng, lat) :
+    x = lng - 0.0065
+    y = lat - 0.006;
+    z = math.sqrt(x * x + y * y) - 0.00002 * math.sin(y * pi);
+    theta = math.atan2(y, x) - 0.000003 * math.cos(x * pi);
+    gcjLng = z * math.cos(theta);
+    gcjLat = z * math.sin(theta);
+
+    x = GPS(gcjLng, gcjLat)
+    return x
+
+def out_of_china(lng, lat) :
+    if lng < 72.004 or lng > 137.8347 :
+        return True
+    if lat < 0.8293 or lat > 55.8271 :
+        return True
+
+    return False
+
+def transform(lng, lat) :
+    if (out_of_china(lng, lat)) :
+        return GPS(lng, lat)
+
+    dLng = transformLng(lng - 105.0, lat - 35.0);
+    dLat = transformLat(lng - 105.0, lat - 35.0);
+    radLat = lat / 180.0 * pi;
+    magic = math.sin(radLat);
+    magic = 1 - ee * magic * magic;
+    sqrtMagic = math.sqrt(magic);
+    dLng = (dLng * 180.0) / (a / sqrtMagic * math.cos(radLat) * pi);
+    dLat = (dLat * 180.0) / ((a * (1 - ee)) / (magic * sqrtMagic) * pi);
+    mgLng = lng + dLng;
+    mgLat = lat + dLat;
+    return GPS(mgLng, mgLat);
+
+def gcj02_to_wgs84(lng, lat) :
+    gps = transform(lng, lat);
+    wgsLng = lng * 2 - gps.lng;
+    wgsLat = lat * 2 - gps.lat;
+    x = GPS(wgsLng, wgsLat);
+    return x
+
+
+if __name__ == '__main__':
+    fd = open('./gps.1.txt')
+    lines = fd.readlines()
+    fd.close()
+
+    for line in lines :
+        CalculateGPSDegree(line)
+
+    for d in gps_data:
+        #print('-'*80)
+        print("{{Long:{0},Lat:{1}}},".format(d.lng, d.lat))
+        g = wgs82_to_gcj02(d.lng, d.lat)
+        #print("{{Long:{0},Lat:{1}}},".format(g.lng, g.lat))
+        b = gcj02_to_bd09(g.lng, g.lat)
+        print("{{Long:{0},Lat:{1}}},".format(b.lng, b.lat))
+        #print('-'*80)
+        #print(wgs82_to_gcj02(d.lng, d.lat))
+        pass
+
+
+    a1 = bd09_to_gcj02(104.040711667,30.5491566667)
+    a2 = gcj02_to_wgs84(a1.lng, a1.lat)
+    print(a2)