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Micaps3Data.py
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Micaps3Data.py
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# -*- coding: utf-8 -*-
# Micaps第3类数据 继承Micaps基类
# Author: Liu xianyao
# Email: [email protected]
# Update: 2019-11-20
# Copyright: ©江西省气象台 2017
# Version: 3.0.20191120
import itertools
import math
import operator
import re
import numpy as np
import PolygonEx
from datetime import datetime
from Main import equal
from MicapsData import Micaps
# from matplotlib.mlab import griddata
from MlabGridData import griddata
class Micaps3Data(Micaps):
def __init__(self, filename, encoding="GBK"):
super().__init__(filename, encoding=encoding)
self.contoursum = None
self.smoothindex = None
self.boldvalue = None
self.pointsincutborder = None
self.elementsum = 1
self.stationsum = None
self.data = []
self.defaultvalue = 9999.0
self.ReadFromFile()
def EqualDefaultValue(self, value):
return equal(self.defaultvalue, value)
def valid(self, lon, lat, zvalue):
if equal(lon, 0) or equal(lon, self.defaultvalue):
return False
if equal(lat, 0) or equal(lat, self.defaultvalue):
return False
if equal(zvalue, self.defaultvalue):
return False
return True
def ReadFromFile(self):
"""
读micaps第3类数据文件到内存
:return:
"""
try:
all_the_text = self.Read(self.filename, self.encoding)
if all_the_text is None:
print("Micaps 3 file error: " + self.filename)
return None
contents = re.split(r"[\s]+", all_the_text)
if len(contents) < 14:
return
self.dataflag = contents[0].strip()
self.style = contents[1].strip()
self.title = contents[2].strip()
self.yy = int(contents[3].strip())
self.mm = int(contents[4].strip())
self.dd = int(contents[5].strip())
self.hh = int(contents[6].strip())
self.level = contents[7].strip()
self.contoursum = int(contents[8].strip())
self.smoothindex = float(contents[9].strip())
self.boldvalue = float(contents[10].strip())
self.pointsincutborder = int(contents[11].strip())
self.elementsum = int(contents[12].strip())
self.stationsum = int(contents[13].strip())
self.x = []
self.y = []
self.z = []
self.x1 = []
self.y1 = []
self.z1 = []
self.stationsum = int((len(contents) - 14) / 5)
stations = []
if self.dataflag == "diamond" and self.style == "3":
begin = 14
for i in range(self.stationsum):
code = contents[begin + 5 * i + 0].strip()
lon = float(contents[begin + 5 * i + 1].strip())
lat = float(contents[begin + 5 * i + 2].strip())
height = float(contents[begin + 5 * i + 3].strip())
zvalue = float(contents[begin + 5 * i + 4].strip())
if self.valid(lon, lat, zvalue):
stations.append(
{
"code": code,
"lon": lon,
"lat": lat,
"height": height,
"zvalue": zvalue,
}
)
if len(stations) > 0:
self.CheckData(stations)
for ele in stations:
# code = ele['code']
lon = ele["lon"]
lat = ele["lat"]
# height = ele['height']
zvalue = ele["zvalue"]
self.x.append(lon)
self.y.append(lat)
self.z.append(zvalue)
self.x1.append(lon)
self.y1.append(lat)
self.z1.append(zvalue)
self.beginlon = min(self.x)
self.endlon = max(self.x)
self.beginlat = min(self.y)
self.endlat = max(self.y)
# self.data.append((code, lon, lat, height, zvalue))
except Exception as err:
print("【{0}】{1}-{2}".format(self.filename, err, datetime.now()))
@staticmethod
def AddPoints(x, y, z, path):
# 增加轮廓外围插值点
ext_polygon = PolygonEx.PolygonEx(x, y, z, 1.0, path)
control_point = ext_polygon.get_extend_hull()
for point in control_point:
x.append(point[0])
y.append(point[1])
z.append(point[2])
def CreateArray(self):
self.data = np.array(
self.data,
dtype=[
("code", np.int32),
("lon", np.float32),
("lat", np.float32),
("height", np.float32),
("zvalue", np.float32),
],
)
def UpdateData(self, products, micapsfile):
self.UpdateExtents(products)
extents = products.picture.extents
xmax = extents.xmax
xmin = extents.xmin
ymax = extents.ymax
ymin = extents.ymin
path = products.map.clipborders[0].path
if path is not None:
self.AddPoints(self.x, self.y, self.z, path)
# self.CreateArray()
self.X = np.linspace(xmin, xmax, micapsfile.contour.grid[0])
self.Y = np.linspace(ymin, ymax, micapsfile.contour.grid[1])
# x = self.data['lon']
# y = self.data['lat']
# z = self.data['zvalue']
self.Z = griddata(self.x, self.y, self.z, self.X, self.Y, "nn")
self.X, self.Y = np.meshgrid(self.X, self.Y)
self.min = min(self.z)
self.max = max(self.z)
self.distance = micapsfile.contour.step
self.min = math.floor(self.min / self.distance) * self.distance
self.max = math.ceil(self.max / self.distance) * self.distance
# 如果自定义了legend的最小、最大和步长值 则用自定义的值更新
self.UpdatePinLegendValue(micapsfile)
@staticmethod
def CheckData(data):
# 根据经纬度去重
getvals = operator.itemgetter("lon", "lat")
data.sort(key=getvals)
result = []
for _, g in itertools.groupby(data, getvals):
result.append(next(g))
data[:] = result