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595 lines
25 KiB
Python
595 lines
25 KiB
Python
# -*- coding: utf-8 -*-
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"""
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***************************************************************************
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TilesXYZ.py
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---------------------
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Date : April 2019
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Copyright : (C) 2019 by Lutra Consulting Limited
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Email : marcel.dancak@lutraconsulting.co.uk
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***************************************************************************
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* *
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* This program is free software; you can redistribute it and/or modify *
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* it under the terms of the GNU General Public License as published by *
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* the Free Software Foundation; either version 2 of the License, or *
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* (at your option) any later version. *
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* *
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***************************************************************************
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"""
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__author__ = 'Marcel Dancak'
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__date__ = 'April 2019'
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__copyright__ = '(C) 2019 by Lutra Consulting Limited'
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import os
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import math
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import re
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import urllib.parse
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from uuid import uuid4
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import sqlite3
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from osgeo import gdal
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from qgis.PyQt.QtCore import QSize, Qt, QByteArray, QBuffer
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from qgis.PyQt.QtGui import QColor, QImage, QPainter
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from qgis.core import (QgsProcessingException,
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QgsProcessingParameterEnum,
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QgsProcessingParameterNumber,
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QgsProcessingParameterBoolean,
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QgsProcessingParameterString,
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QgsProcessingParameterExtent,
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QgsProcessingParameterColor,
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QgsProcessingOutputFile,
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QgsProcessingParameterFileDestination,
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QgsProcessingParameterFolderDestination,
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QgsGeometry,
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QgsRectangle,
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QgsMapSettings,
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QgsCoordinateTransform,
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QgsCoordinateReferenceSystem,
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QgsMapRendererCustomPainterJob,
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QgsLabelingEngineSettings,
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QgsApplication,
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QgsExpressionContextUtils)
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from processing.algs.qgis.QgisAlgorithm import QgisAlgorithm
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import threading
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from concurrent.futures import ThreadPoolExecutor
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from processing.core.ProcessingConfig import ProcessingConfig
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# TMS functions taken from https://alastaira.wordpress.com/2011/07/06/converting-tms-tile-coordinates-to-googlebingosm-tile-coordinates/ #spellok
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def tms(ytile, zoom):
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n = 2.0 ** zoom
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ytile = n - ytile - 1
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return int(ytile)
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# Math functions taken from https://wiki.openstreetmap.org/wiki/Slippy_map_tilenames #spellok
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def deg2num(lat_deg, lon_deg, zoom):
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lat_rad = math.radians(lat_deg)
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n = 2.0 ** zoom
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xtile = int((lon_deg + 180.0) / 360.0 * n)
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ytile = int((1.0 - math.log(math.tan(lat_rad) + (1 / math.cos(lat_rad))) / math.pi) / 2.0 * n)
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return (xtile, ytile)
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# Math functions taken from https://wiki.openstreetmap.org/wiki/Slippy_map_tilenames #spellok
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def num2deg(xtile, ytile, zoom):
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n = 2.0 ** zoom
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lon_deg = xtile / n * 360.0 - 180.0
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lat_rad = math.atan(math.sinh(math.pi * (1 - 2 * ytile / n)))
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lat_deg = math.degrees(lat_rad)
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return (lat_deg, lon_deg)
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class Tile:
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def __init__(self, x, y, z):
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self.x = x
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self.y = y
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self.z = z
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def extent(self):
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lat1, lon1 = num2deg(self.x, self.y, self.z)
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lat2, lon2 = num2deg(self.x + 1, self.y + 1, self.z)
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return [lon1, lat2, lon2, lat1]
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class MetaTile:
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def __init__(self):
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# list of tuple(row index, column index, Tile)
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self.tiles = []
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def add_tile(self, row, column, tile):
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self.tiles.append((row, column, tile))
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def rows(self):
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return max([r for r, _, _ in self.tiles]) + 1
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def columns(self):
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return max([c for _, c, _ in self.tiles]) + 1
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def extent(self):
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_, _, first = self.tiles[0]
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_, _, last = self.tiles[-1]
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lat1, lon1 = num2deg(first.x, first.y, first.z)
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lat2, lon2 = num2deg(last.x + 1, last.y + 1, first.z)
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return [lon1, lat2, lon2, lat1]
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def get_metatiles(extent, zoom, size=4):
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west_edge, south_edge, east_edge, north_edge = extent
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left_tile, top_tile = deg2num(north_edge, west_edge, zoom)
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right_tile, bottom_tile = deg2num(south_edge, east_edge, zoom)
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metatiles = {}
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for i, x in enumerate(range(left_tile, right_tile + 1)):
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for j, y in enumerate(range(top_tile, bottom_tile + 1)):
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meta_key = '{}:{}'.format(int(i / size), int(j / size))
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if meta_key not in metatiles:
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metatiles[meta_key] = MetaTile()
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metatile = metatiles[meta_key]
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metatile.add_tile(i % size, j % size, Tile(x, y, zoom))
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return list(metatiles.values())
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class TilesXYZAlgorithmBase(QgisAlgorithm):
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EXTENT = 'EXTENT'
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ZOOM_MIN = 'ZOOM_MIN'
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ZOOM_MAX = 'ZOOM_MAX'
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DPI = 'DPI'
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BACKGROUND_COLOR = 'BACKGROUND_COLOR'
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TILE_FORMAT = 'TILE_FORMAT'
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QUALITY = 'QUALITY'
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METATILESIZE = 'METATILESIZE'
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def initAlgorithm(self, config=None):
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self.addParameter(QgsProcessingParameterExtent(self.EXTENT, self.tr('Extent')))
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self.addParameter(QgsProcessingParameterNumber(self.ZOOM_MIN,
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self.tr('Minimum zoom'),
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minValue=0,
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maxValue=25,
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defaultValue=12))
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self.addParameter(QgsProcessingParameterNumber(self.ZOOM_MAX,
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self.tr('Maximum zoom'),
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minValue=0,
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maxValue=25,
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defaultValue=12))
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self.addParameter(QgsProcessingParameterNumber(self.DPI,
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self.tr('DPI'),
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minValue=48,
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maxValue=600,
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defaultValue=96))
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self.addParameter(QgsProcessingParameterColor(self.BACKGROUND_COLOR,
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self.tr('Background color'),
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defaultValue=QColor(Qt.transparent),
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optional=True))
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self.formats = ['PNG', 'JPG']
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self.addParameter(QgsProcessingParameterEnum(self.TILE_FORMAT,
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self.tr('Tile format'),
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self.formats,
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defaultValue=0))
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self.addParameter(QgsProcessingParameterNumber(self.QUALITY,
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self.tr('Quality (JPG only)'),
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minValue=1,
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maxValue=100,
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defaultValue=75))
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self.addParameter(QgsProcessingParameterNumber(self.METATILESIZE,
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self.tr('Metatile size'),
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minValue=1,
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maxValue=20,
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defaultValue=4))
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self.thread_nr_re = re.compile('[0-9]+$') # thread number regex
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def prepareAlgorithm(self, parameters, context, feedback):
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project = context.project()
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visible_layers = [item.layer() for item in project.layerTreeRoot().findLayers() if item.isVisible()]
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self.layers = [l for l in project.layerTreeRoot().layerOrder() if l in visible_layers]
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return True
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def renderSingleMetatile(self, metatile):
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if self.feedback.isCanceled():
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return
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# Haven't found a better way to break than to make all the new threads return instantly
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if "Dummy" in threading.current_thread().name or len(self.settingsDictionary) == 1: # single thread testing
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threadSpecificSettings = list(self.settingsDictionary.values())[0]
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else:
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thread_nr = self.thread_nr_re.search(threading.current_thread().name)[0] # terminating number only
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threadSpecificSettings = self.settingsDictionary[thread_nr]
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size = QSize(self.tile_width * metatile.rows(), self.tile_height * metatile.columns())
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extent = QgsRectangle(*metatile.extent())
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threadSpecificSettings.setExtent(self.wgs_to_dest.transformBoundingBox(extent))
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threadSpecificSettings.setOutputSize(size)
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#Append MapSettings scope in order to update map variables (e.g @map_scale) with new extent data
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exp_context = threadSpecificSettings.expressionContext()
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exp_context.appendScope(QgsExpressionContextUtils.mapSettingsScope(threadSpecificSettings))
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threadSpecificSettings.setExpressionContext(exp_context)
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image = QImage(size, QImage.Format_ARGB32_Premultiplied)
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image.fill(self.color)
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dpm = threadSpecificSettings.outputDpi() / 25.4 * 1000
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image.setDotsPerMeterX(dpm)
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image.setDotsPerMeterY(dpm)
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painter = QPainter(image)
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job = QgsMapRendererCustomPainterJob(threadSpecificSettings, painter)
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job.renderSynchronously()
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painter.end()
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## For analysing metatiles (labels, etc.)
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## metatile_dir = os.path.join(output_dir, str(zoom))
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## os.makedirs(metatile_dir, exist_ok=True)
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## image.save(os.path.join(metatile_dir, 'metatile_%s.png' % i))
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for r, c, tile in metatile.tiles:
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tileImage = image.copy(self.tile_width * r, self.tile_height * c, self.tile_width, self.tile_height)
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self.writer.write_tile(tile, tileImage)
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# to stop thread sync issues
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with self.progressThreadLock:
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self.progress += 1
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self.feedback.setProgress(100 * (self.progress / self.totalMetatiles))
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def generate(self, writer, parameters, context, feedback):
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self.feedback = feedback
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feedback.setProgress(1)
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extent = self.parameterAsExtent(parameters, self.EXTENT, context)
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self.min_zoom = self.parameterAsInt(parameters, self.ZOOM_MIN, context)
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self.max_zoom = self.parameterAsInt(parameters, self.ZOOM_MAX, context)
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dpi = self.parameterAsInt(parameters, self.DPI, context)
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self.color = self.parameterAsColor(parameters, self.BACKGROUND_COLOR, context)
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self.tile_format = self.formats[self.parameterAsEnum(parameters, self.TILE_FORMAT, context)]
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self.quality = self.parameterAsInt(parameters, self.QUALITY, context)
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self.metatilesize = self.parameterAsInt(parameters, self.METATILESIZE, context)
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self.maxThreads = int(ProcessingConfig.getSetting(ProcessingConfig.MAX_THREADS))
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try:
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self.tile_width = self.parameterAsInt(parameters, self.TILE_WIDTH, context)
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self.tile_height = self.parameterAsInt(parameters, self.TILE_HEIGHT, context)
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except AttributeError:
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self.tile_width = 256
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self.tile_height = 256
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wgs_crs = QgsCoordinateReferenceSystem('EPSG:4326')
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dest_crs = QgsCoordinateReferenceSystem('EPSG:3857')
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project = context.project()
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self.src_to_wgs = QgsCoordinateTransform(project.crs(), wgs_crs, context.transformContext())
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self.wgs_to_dest = QgsCoordinateTransform(wgs_crs, dest_crs, context.transformContext())
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# without re-writing, we need a different settings for each thread to stop async errors
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# naming doesn't always line up, but the last number does
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self.settingsDictionary = {str(i): QgsMapSettings() for i in range(self.maxThreads)}
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for thread in self.settingsDictionary:
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self.settingsDictionary[thread].setOutputImageFormat(QImage.Format_ARGB32_Premultiplied)
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self.settingsDictionary[thread].setDestinationCrs(dest_crs)
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self.settingsDictionary[thread].setLayers(self.layers)
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self.settingsDictionary[thread].setOutputDpi(dpi)
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if self.tile_format == 'PNG':
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self.settingsDictionary[thread].setBackgroundColor(self.color)
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## disable partial labels (they would be cut at the edge of tiles)
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labeling_engine_settings = self.settingsDictionary[thread].labelingEngineSettings()
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labeling_engine_settings.setFlag(QgsLabelingEngineSettings.UsePartialCandidates, False)
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self.settingsDictionary[thread].setLabelingEngineSettings(labeling_engine_settings)
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# Transfer context scopes to MapSettings
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self.settingsDictionary[thread].setExpressionContext(context.expressionContext())
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self.wgs_extent = self.src_to_wgs.transformBoundingBox(extent)
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self.wgs_extent = [self.wgs_extent.xMinimum(), self.wgs_extent.yMinimum(), self.wgs_extent.xMaximum(),
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self.wgs_extent.yMaximum()]
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metatiles_by_zoom = {}
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self.totalMetatiles = 0
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allMetatiles = []
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for zoom in range(self.min_zoom, self.max_zoom + 1):
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metatiles = get_metatiles(self.wgs_extent, zoom, self.metatilesize)
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metatiles_by_zoom[zoom] = metatiles
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allMetatiles += metatiles
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self.totalMetatiles += len(metatiles)
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lab_buffer_px = 100
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self.progress = 0
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tile_params = {
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'format': self.tile_format,
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'quality': self.quality,
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'width': self.tile_width,
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'height': self.tile_height,
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'min_zoom': self.min_zoom,
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'max_zoom': self.max_zoom,
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'extent': self.wgs_extent,
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}
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writer.set_parameters(tile_params)
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self.writer = writer
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self.progressThreadLock = threading.Lock()
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if self.maxThreads > 1:
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feedback.pushConsoleInfo(self.tr('Using {max_threads} CPU Threads:').format(max_threads=self.maxThreads))
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for zoom in range(self.min_zoom, self.max_zoom + 1):
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feedback.pushConsoleInfo(self.tr('Generating tiles for zoom level: {zoom}').format(zoom=zoom))
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with ThreadPoolExecutor(max_workers=self.maxThreads) as threadPool:
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threadPool.map(self.renderSingleMetatile, metatiles_by_zoom[zoom])
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else:
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feedback.pushConsoleInfo(self.tr('Using 1 CPU Thread:'))
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for zoom in range(self.min_zoom, self.max_zoom + 1):
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feedback.pushConsoleInfo(self.tr('Generating tiles for zoom level: {zoom}').format(zoom=zoom))
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for i, metatile in enumerate(metatiles_by_zoom[zoom]):
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self.renderSingleMetatile(metatile)
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writer.close()
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def checkParameterValues(self, parameters, context):
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min_zoom = self.parameterAsInt(parameters, self.ZOOM_MIN, context)
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max_zoom = self.parameterAsInt(parameters, self.ZOOM_MAX, context)
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if max_zoom < min_zoom:
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return False, self.tr('Invalid zoom levels range.')
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return super().checkParameterValues(parameters, context)
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########################################################################
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# MBTiles
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########################################################################
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class MBTilesWriter:
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def __init__(self, filename):
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base_dir = os.path.dirname(filename)
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os.makedirs(base_dir, exist_ok=True)
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self.filename = filename
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def set_parameters(self, tile_params):
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self.extent = tile_params.get('extent')
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self.tile_width = tile_params.get('width', 256)
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self.tile_height = tile_params.get('height', 256)
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self.min_zoom = tile_params.get('min_zoom')
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self.max_zoom = tile_params.get('max_zoom')
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tile_format = tile_params['format']
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options = []
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if tile_format == 'JPG':
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tile_format = 'JPEG'
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options = ['QUALITY=%s' % tile_params.get('quality', 75)]
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driver = gdal.GetDriverByName('MBTiles')
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ds = driver.Create(self.filename, 1, 1, 1, options=['TILE_FORMAT=%s' % tile_format] + options)
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ds = None
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self._execute_sqlite(
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"INSERT INTO metadata(name, value) VALUES ('{}', '{}');".format('minzoom', self.min_zoom),
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"INSERT INTO metadata(name, value) VALUES ('{}', '{}');".format('maxzoom', self.max_zoom),
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# will be set properly after writing all tiles
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"INSERT INTO metadata(name, value) VALUES ('{}', '');".format('bounds')
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)
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self._zoom = None
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def _execute_sqlite(self, *commands):
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conn = sqlite3.connect(self.filename)
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for cmd in commands:
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conn.execute(cmd)
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conn.commit()
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conn.close()
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def _init_zoom_layer(self, zoom):
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self._zoom_ds = None
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west_edge, south_edge, east_edge, north_edge = self.extent
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first_tile = Tile(*deg2num(north_edge, west_edge, zoom), zoom)
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last_tile = Tile(*deg2num(south_edge, east_edge, zoom), zoom)
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first_tile_extent = first_tile.extent()
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last_tile_extent = last_tile.extent()
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zoom_extent = [
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first_tile_extent[0],
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last_tile_extent[1],
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last_tile_extent[2],
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first_tile_extent[3]
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]
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bounds = ','.join(map(str, zoom_extent))
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self._execute_sqlite("UPDATE metadata SET value='{}' WHERE name='bounds'".format(bounds))
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self._zoom_ds = gdal.OpenEx(self.filename, 1, open_options=['ZOOM_LEVEL=%s' % first_tile.z])
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self._first_tile = first_tile
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self._zoom = zoom
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def write_tile(self, tile, image):
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if tile.z != self._zoom:
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self._init_zoom_layer(tile.z)
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data = QByteArray()
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buff = QBuffer(data)
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image.save(buff, 'PNG')
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mmap_name = '/vsimem/' + uuid4().hex
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gdal.FileFromMemBuffer(mmap_name, data.data())
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gdal_dataset = gdal.Open(mmap_name)
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data = gdal_dataset.ReadRaster(0, 0, self.tile_width, self.tile_height)
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gdal_dataset = None
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gdal.Unlink(mmap_name)
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xoff = (tile.x - self._first_tile.x) * self.tile_width
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yoff = (tile.y - self._first_tile.y) * self.tile_height
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self._zoom_ds.WriteRaster(xoff, yoff, self.tile_width, self.tile_height, data)
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def close(self):
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self._zoom_ds = None
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bounds = ','.join(map(str, self.extent))
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self._execute_sqlite("UPDATE metadata SET value='{}' WHERE name='bounds'".format(bounds))
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class TilesXYZAlgorithmMBTiles(TilesXYZAlgorithmBase):
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OUTPUT_FILE = 'OUTPUT_FILE'
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def initAlgorithm(self, config=None):
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super(TilesXYZAlgorithmMBTiles, self).initAlgorithm()
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self.addParameter(QgsProcessingParameterFileDestination(self.OUTPUT_FILE,
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self.tr('Output file (for MBTiles)'),
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self.tr('MBTiles files (*.mbtiles)'),
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optional=True))
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def name(self):
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return 'tilesxyzmbtiles'
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def displayName(self):
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return self.tr('Generate XYZ tiles (MBTiles)')
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def group(self):
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return self.tr('Raster tools')
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def groupId(self):
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return 'rastertools'
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def processAlgorithm(self, parameters, context, feedback):
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output_file = self.parameterAsString(parameters, self.OUTPUT_FILE, context)
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if not output_file:
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raise QgsProcessingException(self.tr('You need to specify output filename.'))
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writer = MBTilesWriter(output_file)
|
|
self.generate(writer, parameters, context, feedback)
|
|
|
|
results = {'OUTPUT_FILE': output_file}
|
|
return results
|
|
|
|
|
|
########################################################################
|
|
# Directory
|
|
########################################################################
|
|
LEAFLET_TEMPLATE = '''
|
|
<!DOCTYPE html>
|
|
<html>
|
|
<head>
|
|
<title>{tilesetname}</title>
|
|
<meta charset="utf-8" />
|
|
<meta name="viewport" content="width=device-width, initial-scale=1.0">
|
|
|
|
<link rel="stylesheet" href="https://unpkg.com/leaflet@1.5.1/dist/leaflet.css"
|
|
integrity="sha512-xwE/Az9zrjBIphAcBb3F6JVqxf46+CDLwfLMHloNu6KEQCAWi6HcDUbeOfBIptF7tcCzusKFjFw2yuvEpDL9wQ=="
|
|
crossorigin=""/>
|
|
<script src="https://unpkg.com/leaflet@1.5.1/dist/leaflet.js"
|
|
integrity="sha512-GffPMF3RvMeYyc1LWMHtK8EbPv0iNZ8/oTtHPx9/cc2ILxQ+u905qIwdpULaqDkyBKgOaB57QTMg7ztg8Jm2Og=="
|
|
crossorigin=""></script>
|
|
<style type="text/css">
|
|
body {{
|
|
margin: 0;
|
|
padding: 0;
|
|
}}
|
|
html, body, #map{{
|
|
width: 100%;
|
|
height: 100%;
|
|
}}
|
|
</style>
|
|
</head>
|
|
<body>
|
|
<div id="map"></div>
|
|
<script>
|
|
var map = L.map('map').setView([{centery}, {centerx}], {avgzoom});
|
|
L.tileLayer({tilesource}, {{
|
|
minZoom: {minzoom},
|
|
maxZoom: {maxzoom},
|
|
tms: {tms},
|
|
attribution: 'Generated by TilesXYZ'
|
|
}}).addTo(map);
|
|
</script>
|
|
</body>
|
|
</html>
|
|
'''
|
|
|
|
|
|
class DirectoryWriter:
|
|
|
|
def __init__(self, folder, is_tms):
|
|
self.folder = folder
|
|
self.is_tms = is_tms
|
|
|
|
def set_parameters(self, tile_params):
|
|
self.format = tile_params.get('format', 'PNG')
|
|
self.quality = tile_params.get('quality', -1)
|
|
|
|
def write_tile(self, tile, image):
|
|
directory = os.path.join(self.folder, str(tile.z), str(tile.x))
|
|
os.makedirs(directory, exist_ok=True)
|
|
ytile = tile.y
|
|
if self.is_tms:
|
|
ytile = tms(ytile, tile.z)
|
|
path = os.path.join(directory, '{}.{}'.format(ytile, self.format.lower()))
|
|
image.save(path, self.format, self.quality)
|
|
return path
|
|
|
|
def close(self):
|
|
pass
|
|
|
|
|
|
class TilesXYZAlgorithmDirectory(TilesXYZAlgorithmBase):
|
|
TMS_CONVENTION = 'TMS_CONVENTION'
|
|
OUTPUT_DIRECTORY = 'OUTPUT_DIRECTORY'
|
|
OUTPUT_HTML = 'OUTPUT_HTML'
|
|
TILE_WIDTH = 'TILE_WIDTH'
|
|
TILE_HEIGHT = 'TILE_HEIGHT'
|
|
|
|
def initAlgorithm(self, config=None):
|
|
super(TilesXYZAlgorithmDirectory, self).initAlgorithm()
|
|
self.addParameter(QgsProcessingParameterNumber(self.TILE_WIDTH,
|
|
self.tr('Tile width'),
|
|
minValue=1,
|
|
maxValue=4096,
|
|
defaultValue=256))
|
|
self.addParameter(QgsProcessingParameterNumber(self.TILE_HEIGHT,
|
|
self.tr('Tile height'),
|
|
minValue=1,
|
|
maxValue=4096,
|
|
defaultValue=256))
|
|
self.addParameter(QgsProcessingParameterBoolean(self.TMS_CONVENTION,
|
|
self.tr('Use inverted tile Y axis (TMS convention)'),
|
|
defaultValue=False,
|
|
optional=True))
|
|
self.addParameter(QgsProcessingParameterFolderDestination(self.OUTPUT_DIRECTORY,
|
|
self.tr('Output directory'),
|
|
optional=True))
|
|
self.addParameter(QgsProcessingParameterFileDestination(self.OUTPUT_HTML,
|
|
self.tr('Output html (Leaflet)'),
|
|
self.tr('HTML files (*.html)'),
|
|
optional=True))
|
|
|
|
def name(self):
|
|
return 'tilesxyzdirectory'
|
|
|
|
def displayName(self):
|
|
return self.tr('Generate XYZ tiles (Directory)')
|
|
|
|
def group(self):
|
|
return self.tr('Raster tools')
|
|
|
|
def groupId(self):
|
|
return 'rastertools'
|
|
|
|
def processAlgorithm(self, parameters, context, feedback):
|
|
is_tms = self.parameterAsBoolean(parameters, self.TMS_CONVENTION, context)
|
|
output_html = self.parameterAsString(parameters, self.OUTPUT_HTML, context)
|
|
output_dir = self.parameterAsString(parameters, self.OUTPUT_DIRECTORY, context)
|
|
if not output_dir:
|
|
raise QgsProcessingException(self.tr('You need to specify output directory.'))
|
|
|
|
writer = DirectoryWriter(output_dir, is_tms)
|
|
self.generate(writer, parameters, context, feedback)
|
|
|
|
results = {'OUTPUT_DIRECTORY': output_dir}
|
|
|
|
if output_html:
|
|
output_dir_safe = urllib.parse.quote(output_dir.replace('\\', '/'))
|
|
html_code = LEAFLET_TEMPLATE.format(
|
|
tilesetname="Leaflet Preview",
|
|
centerx=self.wgs_extent[0] + (self.wgs_extent[2] - self.wgs_extent[0]) / 2,
|
|
centery=self.wgs_extent[1] + (self.wgs_extent[3] - self.wgs_extent[1]) / 2,
|
|
avgzoom=(self.max_zoom + self.min_zoom) / 2,
|
|
tilesource="'file:///{}/{{z}}/{{x}}/{{y}}.{}'".format(output_dir_safe, self.tile_format.lower()),
|
|
minzoom=self.min_zoom,
|
|
maxzoom=self.max_zoom,
|
|
tms='true' if is_tms else 'false'
|
|
)
|
|
with open(output_html, "w") as fh:
|
|
fh.write(html_code)
|
|
results['OUTPUT_HTML'] = output_html
|
|
|
|
return results
|