# -*- coding: utf-8 -*-
__author__ = 'Marcel Dancak'
__date__ = 'April 2019'
__copyright__ = '(C) 2019 by Lutra Consulting Limited'
import os
import math
import re
import urllib.parse
from uuid import uuid4
import sqlite3
from osgeo import gdal
from qgis.PyQt.QtCore import QSize, Qt, QByteArray, QBuffer
from qgis.PyQt.QtGui import QColor, QImage, QPainter
from qgis.core import (QgsProcessingException,
QgsProcessingParameterEnum,
QgsProcessingParameterNumber,
QgsProcessingParameterBoolean,
QgsProcessingParameterString,
QgsProcessingParameterExtent,
QgsProcessingParameterColor,
QgsProcessingOutputFile,
QgsProcessingParameterFileDestination,
QgsProcessingParameterFolderDestination,
QgsGeometry,
QgsRectangle,
QgsMapSettings,
QgsCoordinateTransform,
QgsCoordinateReferenceSystem,
QgsMapRendererCustomPainterJob,
QgsLabelingEngineSettings,
QgsApplication,
QgsExpressionContextUtils,
QgsProcessingAlgorithm)
from processing.algs.qgis.QgisAlgorithm import QgisAlgorithm
import threading
from concurrent.futures import ThreadPoolExecutor
from processing.core.ProcessingConfig import ProcessingConfig
# TMS functions taken from https://alastaira.wordpress.com/2011/07/06/converting-tms-tile-coordinates-to-googlebingosm-tile-coordinates/ #spellok
def tms(ytile, zoom):
n = 2.0 ** zoom
ytile = n - ytile - 1
return int(ytile)
# Math functions taken from https://wiki.openstreetmap.org/wiki/Slippy_map_tilenames #spellok
def deg2num(lat_deg, lon_deg, zoom):
lat_rad = math.radians(lat_deg)
n = 2.0 ** zoom
xtile = int((lon_deg + 180.0) / 360.0 * n)
ytile = int((1.0 - math.log(math.tan(lat_rad) + (1 / math.cos(lat_rad))) / math.pi) / 2.0 * n)
return (xtile, ytile)
# Math functions taken from https://wiki.openstreetmap.org/wiki/Slippy_map_tilenames #spellok
def num2deg(xtile, ytile, zoom):
n = 2.0 ** zoom
lon_deg = xtile / n * 360.0 - 180.0
lat_rad = math.atan(math.sinh(math.pi * (1 - 2 * ytile / n)))
lat_deg = math.degrees(lat_rad)
return (lat_deg, lon_deg)
class Tile:
def __init__(self, x, y, z):
self.x = x
self.y = y
self.z = z
def extent(self):
lat1, lon1 = num2deg(self.x, self.y, self.z)
lat2, lon2 = num2deg(self.x + 1, self.y + 1, self.z)
return [lon1, lat2, lon2, lat1]
class MetaTile:
def __init__(self):
# list of tuple(row index, column index, Tile)
self.tiles = []
def add_tile(self, row, column, tile):
self.tiles.append((row, column, tile))
def rows(self):
return max([r for r, _, _ in self.tiles]) + 1
def columns(self):
return max([c for _, c, _ in self.tiles]) + 1
def extent(self):
_, _, first = self.tiles[0]
_, _, last = self.tiles[-1]
lat1, lon1 = num2deg(first.x, first.y, first.z)
lat2, lon2 = num2deg(last.x + 1, last.y + 1, first.z)
return [lon1, lat2, lon2, lat1]
def get_metatiles(extent, zoom, size=4):
west_edge, south_edge, east_edge, north_edge = extent
left_tile, top_tile = deg2num(north_edge, west_edge, zoom)
right_tile, bottom_tile = deg2num(south_edge, east_edge, zoom)
metatiles = {}
for i, x in enumerate(range(left_tile, right_tile + 1)):
for j, y in enumerate(range(top_tile, bottom_tile + 1)):
meta_key = '{}:{}'.format(int(i / size), int(j / size))
if meta_key not in metatiles:
metatiles[meta_key] = MetaTile()
metatile = metatiles[meta_key]
metatile.add_tile(i % size, j % size, Tile(x, y, zoom))
return list(metatiles.values())
class TilesXYZAlgorithmBase(QgisAlgorithm):
EXTENT = 'EXTENT'
ZOOM_MIN = 'ZOOM_MIN'
ZOOM_MAX = 'ZOOM_MAX'
DPI = 'DPI'
BACKGROUND_COLOR = 'BACKGROUND_COLOR'
TILE_FORMAT = 'TILE_FORMAT'
QUALITY = 'QUALITY'
METATILESIZE = 'METATILESIZE'
def initAlgorithm(self, config=None):
self.addParameter(QgsProcessingParameterExtent(self.EXTENT, self.tr('Extent')))
self.addParameter(QgsProcessingParameterNumber(self.ZOOM_MIN,
self.tr('Minimum zoom'),
minValue=0,
maxValue=25,
defaultValue=12))
self.addParameter(QgsProcessingParameterNumber(self.ZOOM_MAX,
self.tr('Maximum zoom'),
minValue=0,
maxValue=25,
defaultValue=12))
self.addParameter(QgsProcessingParameterNumber(self.DPI,
self.tr('DPI'),
minValue=48,
maxValue=600,
defaultValue=96))
self.addParameter(QgsProcessingParameterColor(self.BACKGROUND_COLOR,
self.tr('Background color'),
defaultValue=QColor(Qt.transparent),
optional=True))
self.formats = ['PNG', 'JPG']
self.addParameter(QgsProcessingParameterEnum(self.TILE_FORMAT,
self.tr('Tile format'),
self.formats,
defaultValue=0))
self.addParameter(QgsProcessingParameterNumber(self.QUALITY,
self.tr('Quality (JPG only)'),
minValue=1,
maxValue=100,
defaultValue=75))
self.addParameter(QgsProcessingParameterNumber(self.METATILESIZE,
self.tr('Metatile size'),
minValue=1,
maxValue=20,
defaultValue=4))
self.thread_nr_re = re.compile('[0-9]+$') # thread number regex
def prepareAlgorithm(self, parameters, context, feedback):
project = context.project()
visible_layers = [item.layer() for item in project.layerTreeRoot().findLayers() if item.isVisible()]
self.layers = [l for l in project.layerTreeRoot().layerOrder() if l in visible_layers]
return True
def renderSingleMetatile(self, metatile):
if self.feedback.isCanceled():
return
# Haven't found a better way to break than to make all the new threads return instantly
if "Dummy" in threading.current_thread().name or len(self.settingsDictionary) == 1: # single thread testing
threadSpecificSettings = list(self.settingsDictionary.values())[0]
else:
thread_nr = self.thread_nr_re.search(threading.current_thread().name)[0] # terminating number only
threadSpecificSettings = self.settingsDictionary[thread_nr]
size = QSize(self.tile_width * metatile.rows(), self.tile_height * metatile.columns())
extent = QgsRectangle(*metatile.extent())
threadSpecificSettings.setExtent(self.wgs_to_dest.transformBoundingBox(extent))
threadSpecificSettings.setOutputSize(size)
# Append MapSettings scope in order to update map variables (e.g @map_scale) with new extent data
exp_context = threadSpecificSettings.expressionContext()
exp_context.appendScope(QgsExpressionContextUtils.mapSettingsScope(threadSpecificSettings))
threadSpecificSettings.setExpressionContext(exp_context)
image = QImage(size, QImage.Format_ARGB32_Premultiplied)
image.fill(self.color)
dpm = threadSpecificSettings.outputDpi() / 25.4 * 1000
image.setDotsPerMeterX(dpm)
image.setDotsPerMeterY(dpm)
painter = QPainter(image)
job = QgsMapRendererCustomPainterJob(threadSpecificSettings, painter)
job.renderSynchronously()
painter.end()
for r, c, tile in metatile.tiles:
tileImage = image.copy(self.tile_width * r, self.tile_height * c, self.tile_width, self.tile_height)
self.writer.write_tile(tile, tileImage)
# to stop thread sync issues
with self.progressThreadLock:
self.progress += 1
self.feedback.setProgress(100 * (self.progress / self.totalMetatiles))
def generate(self, writer, parameters, context, feedback):
self.feedback = feedback
feedback.setProgress(1)
extent = self.parameterAsExtent(parameters, self.EXTENT, context)
self.min_zoom = self.parameterAsInt(parameters, self.ZOOM_MIN, context)
self.max_zoom = self.parameterAsInt(parameters, self.ZOOM_MAX, context)
dpi = self.parameterAsInt(parameters, self.DPI, context)
self.color = self.parameterAsColor(parameters, self.BACKGROUND_COLOR, context)
self.tile_format = self.formats[self.parameterAsEnum(parameters, self.TILE_FORMAT, context)]
self.quality = self.parameterAsInt(parameters, self.QUALITY, context)
self.metatilesize = self.parameterAsInt(parameters, self.METATILESIZE, context)
self.maxThreads = int(ProcessingConfig.getSetting(ProcessingConfig.MAX_THREADS))
try:
self.tile_width = self.parameterAsInt(parameters, self.TILE_WIDTH, context)
self.tile_height = self.parameterAsInt(parameters, self.TILE_HEIGHT, context)
except AttributeError:
self.tile_width = 256
self.tile_height = 256
wgs_crs = QgsCoordinateReferenceSystem('EPSG:4326')
dest_crs = QgsCoordinateReferenceSystem('EPSG:3857')
project = context.project()
self.src_to_wgs = QgsCoordinateTransform(project.crs(), wgs_crs, context.transformContext())
self.wgs_to_dest = QgsCoordinateTransform(wgs_crs, dest_crs, context.transformContext())
# without re-writing, we need a different settings for each thread to stop async errors
# naming doesn't always line up, but the last number does
self.settingsDictionary = {str(i): QgsMapSettings() for i in range(self.maxThreads)}
for thread in self.settingsDictionary:
self.settingsDictionary[thread].setOutputImageFormat(QImage.Format_ARGB32_Premultiplied)
self.settingsDictionary[thread].setDestinationCrs(dest_crs)
self.settingsDictionary[thread].setLayers(self.layers)
self.settingsDictionary[thread].setOutputDpi(dpi)
if self.tile_format == 'PNG':
self.settingsDictionary[thread].setBackgroundColor(self.color)
# disable partial labels (they would be cut at the edge of tiles)
labeling_engine_settings = self.settingsDictionary[thread].labelingEngineSettings()
labeling_engine_settings.setFlag(QgsLabelingEngineSettings.UsePartialCandidates, False)
self.settingsDictionary[thread].setLabelingEngineSettings(labeling_engine_settings)
# Transfer context scopes to MapSettings
self.settingsDictionary[thread].setExpressionContext(context.expressionContext())
self.wgs_extent = self.src_to_wgs.transformBoundingBox(extent)
self.wgs_extent = [self.wgs_extent.xMinimum(), self.wgs_extent.yMinimum(), self.wgs_extent.xMaximum(),
self.wgs_extent.yMaximum()]
metatiles_by_zoom = {}
self.totalMetatiles = 0
allMetatiles = []
for zoom in range(self.min_zoom, self.max_zoom + 1):
metatiles = get_metatiles(self.wgs_extent, zoom, self.metatilesize)
metatiles_by_zoom[zoom] = metatiles
allMetatiles += metatiles
self.totalMetatiles += len(metatiles)
lab_buffer_px = 100
self.progress = 0
tile_params = {
'format': self.tile_format,
'quality': self.quality,
'width': self.tile_width,
'height': self.tile_height,
'min_zoom': self.min_zoom,
'max_zoom': self.max_zoom,
'extent': self.wgs_extent,
}
writer.set_parameters(tile_params)
self.writer = writer
self.progressThreadLock = threading.Lock()
if self.maxThreads > 1:
feedback.pushConsoleInfo(self.tr('Using {max_threads} CPU Threads:').format(max_threads=self.maxThreads))
for zoom in range(self.min_zoom, self.max_zoom + 1):
feedback.pushConsoleInfo(self.tr('Generating tiles for zoom level: {zoom}').format(zoom=zoom))
with ThreadPoolExecutor(max_workers=self.maxThreads) as threadPool:
threadPool.map(self.renderSingleMetatile, metatiles_by_zoom[zoom])
else:
feedback.pushConsoleInfo(self.tr('Using 1 CPU Thread:'))
for zoom in range(self.min_zoom, self.max_zoom + 1):
feedback.pushConsoleInfo(self.tr('Generating tiles for zoom level: {zoom}').format(zoom=zoom))
for i, metatile in enumerate(metatiles_by_zoom[zoom]):
self.renderSingleMetatile(metatile)
writer.close()
def checkParameterValues(self, parameters, context):
min_zoom = self.parameterAsInt(parameters, self.ZOOM_MIN, context)
max_zoom = self.parameterAsInt(parameters, self.ZOOM_MAX, context)
if max_zoom < min_zoom:
return False, self.tr('Invalid zoom levels range.')
return super().checkParameterValues(parameters, context)
########################################################################
# Directory
########################################################################
LEAFLET_TEMPLATE = '''
{tilesetname}
'''
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