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add_height_vector.py
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add_height_vector.py
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# coding: utf-8
#==================================================================================
# SAR Data Analysis Program
#
# File name : add_height_vector.py
# Creation date : March 18, 2019
# Python version: 3.6
# License : GPL v2
# Copyright (c) 2019 National Institute of Information and Communications Technology
#==================================================================================
from shapefile import Reader as ShpReader
from shapefile import Writer as ShpWriter
from shapely.geometry import Point, Polygon
from grid_data import GridData
def add_height_vector(in_polys, in_hpoint, dst_fn):
"""
オンライン学習3 被害領域の抽出、ラスタベクタ変換
メッシュデータに標高値を付与します。
関数 : add_height_vector
引数1 : 入力メッシュデータ名(.tif)
引数2 : 数値標高モデル名(.shp)
引数3 : 出力ファイル名(.shp)
"""
# Read DEM data
print("loading DEM data ...")
dem = GridData()
dem_reader = ShpReader(in_hpoint, encoding='cp932')
n_p = dem_reader.numRecords
cnt_p = 0
for data in dem_reader.iterShapeRecords():
point = Point(data.shape.points[0])
p_val = data.record
dem.add_data(point.x, point.y, p_val)
cnt_p = cnt_p + 1
if cnt_p % 100000 == 0:
print("{0}K / {1}K".format(cnt_p/1000, n_p/1000))
print("loaded DEM data .")
print()
# Process each polygon shapefile
for in_poly in in_polys:
print("processing {0} ...".format(in_poly))
poly_reader = ShpReader(in_poly)
poly_writer = ShpWriter(target=dst_fn)
# Create DBF schema
for col in poly_reader.fields:
if col[0] != "DeletionFlag":
poly_writer.field(col[0], col[1], col[2], col[3])
poly_writer.field("height", "N", 18, 9)
# Attach elevation value
n_poly = poly_reader.numRecords
cnt_poly = 0
for data in poly_reader.iterShapeRecords():
center = Polygon(data.shape.points).centroid
key_x = dem.search_nearest_x(center.coords[0][0])
key_y = dem.search_nearest_y(center.coords[0][1])
dem_record = dem.get_data(key_x, key_y)
if dem_record:
# Nearest grid point has elevation value
record = data.record + dem_record
else:
# Nearest grid point doesn't have elevation value
record = data.record + [None]
poly_writer.shape(data.shape)
poly_writer.record(*record)
cnt_poly = cnt_poly + 1
if cnt_poly % 100000 == 0:
print("{0}K / {1}K".format(cnt_poly/1000, n_poly/1000))
poly_writer.close()
print("processed {0} .".format(in_poly))
print()