P2022036_ExportMap.git

			@@ -4,21 +4,17 @@

			import os
			import sys
			import time

			from qgis.core import *
			# C:\Program Files\QGIS 3.16\apps\qgis-ltr\python\qgis
			sys.path.append(r"C:\Program Files\QGIS 3.16\apps\qgis-ltr\python\plugins")
			from processing.core.Processing import Processing
			Processing.initialize()
			import processing
			#from qgis import processing

			import math
			import argparse
			from qgis.core import *
			from qgis.gui import *
			from qgis.PyQt.QtGui import *
			from qgis.PyQt.QtCore import *
			from qgis.PyQt.QtWidgets import *
			from processing.core.Processing import Processing


			# 获取完整路径
			@@ -31,16 +27,19 @@
			print("argv = ", sys.argv[1:])
			parser = argparse.ArgumentParser(description='ArgUtils')
			parser.add_argument("-src", type=str, default=get_full_path(), required=False)
			parser.add_argument("-qgz", type=str, default="xyz.qgz", required=False)
			parser.add_argument("-file", type=str, default=r"D:\xyz\tiles.txt", required=False)
			parser.add_argument("-out", type=str, default=r"D:\xyz\tiles\zy", required=False)
			parser.add_argument("-qgz", type=str, default=r"xyz.qgz", required=False)
			parser.add_argument("-file", type=str, default=r"D:\xyz\dom0.2m\tif.txt", required=False)
			parser.add_argument("-out", type=str, default=r"D:\xyz\dom0.2m\png", required=False)
			parser.add_argument("-min", type=int, default=12, required=False)
			parser.add_argument("-max", type=int, default=15, required=False)
			parser.add_argument("-noData", type=int, default=0, required=False)

			return parser.parse_args()


			# 读取文本文件
			def readTxt(filePath):
			f = open(filePath, encoding="utf-8")
			def read_txt(path):
			f = open(path, encoding="utf-8")
			lines = f.readlines()
			f.close()

			@@ -51,57 +50,139 @@


			# 加载图层
			def loadLayers(prj, args):
			lines = readTxt(args.file)
			def load_layers(prj, args):
			for layer in prj.mapLayers().values():
			prj.removeMapLayer(layer)

			args.crs = None
			lines = read_txt(args.file)
			for i in range(0, len(lines)):
			line = lines[i]
			if len(line) == 0:
			if len(lines[i]) == 0:
			continue

			print("layer: " + line)
			layer = QgsRasterLayer(line, "layer_" + str(i))
			if not layer.isValid():
			print("layer_" + str(i) + ": " + lines[i])
			layer = QgsRasterLayer(lines[i], "layer_" + str(i))
			if not layer.isValid() or layer.crs() is None:
			print("layer_" + str(i) + ": failed to load!")
			#prj.addRasterLayer(line, "layer_" + str(i))
			continue

			if len(prj.mapLayers()) == 0:
			args.crs = layer.crs()
			print("authid: " + args.crs.authid())
			prj.setCrs(layer.crs())

			for j in range(1, layer.bandCount() + 1):
			try:
			layer.dataProvider().setNoDataValue(j, args.noData)
			except Exception as e:
			print(e)

			prj.addMapLayer(layer)


			# 边界类
			class Rectangle:
			def __init__(self, xmin, xmax, ymin, ymax):
			self.xmin = xmin
			self.xmax = xmax
			self.ymin = ymin
			self.ymax = ymax


			# 获取边界
			def get_extent(prj, args):
			ex = None
			for layer in prj.mapLayers().values():
			rect = layer.extent()
			if ex is None:
			# print(layer.extent().asWktCoordinates()); geo = QgsGeometry.fromWkt(layer.extent().asWktPolygon())
			ex = Rectangle(rect.xMinimum(), rect.xMaximum(), rect.yMinimum(), rect.yMaximum())
			continue

			if args.crs.authid() != layer.crs().authid():
			transform = QgsCoordinateTransform(layer.crs(), args.crs, prj)
			min = QgsPoint(rect.xMinimum(), rect.yMinimum())
			max = QgsPoint(rect.xMaximum(), rect.yMaximum())
			min.transform(transform)
			max.transform(transform)

			set_rect_bound(ex, min.x(), min.y(), max.x(), max.y())

			else:
			set_rect_bound(ex, rect.xMinimum(), rect.yMinimum(), rect.xMaximum(), rect.yMaximum())

			# 123543.6722,2730986.0671,2732253.9315,3552923.0518 [EPSG:32643]
			# return '38400309.1314,38403253.7083,3559920.4768,3561690.3144 [CGCS2000 / 3-degree Gauss-Kruger zone 38]'
			return str(ex.xmin) + "," + str(ex.xmax) + "," + str(ex.ymin) + "," + str(ex.ymax) + ' [' + args.crs.authid() + "]"


			# 设置矩形边界
			def set_rect_bound(ex, xmin, ymin, xmax, ymax):
			if xmin < ex.xmin:
			ex.xmin = xmin
			if ymin < ex.ymin:
			ex.ymin = ymin
			if xmax > ex.xmax:
			ex.xmax = xmax
			if ymax > ex.ymax:
			ex.ymax = ymax


			# 获取XYZ参数
			def get_xyz_ops(args):
			ops = {
			'BACKGROUND_COLOR': QColor(0, 0, 0, 0),
			'DPI': 96,
			'EXTENT': args.ext,
			'METATILESIZE': 4,
			'OUTPUT_DIRECTORY': args.out,
			# 'OUTPUT_HTML': 'TEMPORARY_OUTPUT',
			'OUTPUT_HTML': args.out + "\\view.html",
			'QUALITY': 100,
			'TILE_FORMAT': 0,
			'TILE_HEIGHT': 256,
			'TILE_WIDTH': 256,
			'TMS_CONVENTION': False,
			'ZOOM_MAX': args.max,
			'ZOOM_MIN': args.min
			}
			print(ops)

			return ops


			# 创建XYZ瓦片
			def create_xyz(args):
			import processing

			ops = get_xyz_ops(args)
			processing.run("qgis:tilesxyzdirectory", ops)


			# 初始化
			def init():
			# QgsApplication.setPrefixPath("C:\Program Files\QGIS 3.16", True)
			qgs = QgsApplication([], True)
			qgs = QgsApplication([], False)
			qgs.initQgis()
			Processing.initialize()

			args = get_args()
			project = QgsProject.instance()
			project.read(os.path.join(args.src, args.qgz))
			print("FileName: " + project.fileName())
			prj = QgsProject.instance()
			prj.read(os.path.join(args.src, args.qgz))
			# prj.read(args.qgz)
			print("FileName: " + prj.fileName())

			loadLayers(project, args)
			load_layers(prj, args)
			# prj.write(args.file.replace(".txt", ".qgz"))

			for alg in qgs.processingRegistry().algorithms():
			print(alg.id(), "->", alg.displayName())

			ops = {
			'BACKGROUND_COLOR': QColor(0, 0, 0, 0),
			'DPI': 96,
			'EXTENT': '38399808.872500002,38403271.749600001,3558251.197600000,3561749.171400000 []',
			'METATILESIZE': 4,
			'OUTPUT_DIRECTORY': args.out,
			'OUTPUT_HTML': 'TEMPORARY_OUTPUT',
			'QUALITY': 100,
			'TILE_FORMAT': 0,
			'TILE_HEIGHT': 256,
			'TILE_WIDTH': 256,
			'TMS_CONVENTION': True,
			'ZOOM_MAX': 12,
			'ZOOM_MIN': 12
			}
			processing.run("qgis:tilesxyzdirectory", ops)
			args.ext = get_extent(prj, args)
			create_xyz(args)

			qgs.exitQgis()


			# main
			if __name__ == '__main__':
			timer = time.time()
			init()

			print(f'耗时:{time.time() - timer:.2f}s')