# -*- coding: utf-8 -*- """ *************************************************************************** self.py --------------------- Date : August 2012 Copyright : (C) 2012 by Victor Olaya Email : volayaf at gmail dot com *************************************************************************** * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * *************************************************************************** """ __author__ = 'Victor Olaya' __date__ = 'August 2012' __copyright__ = '(C) 2012, Victor Olaya' # This will get replaced with a git SHA1 when you do a git archive __revision__ = '$Format:%H$' import os from qgis.PyQt.QtGui import QIcon from qgis.core import (QgsRasterFileWriter, QgsProcessingException, QgsProcessingParameterDefinition, QgsProcessingParameterRasterLayer, QgsProcessingParameterCrs, QgsProcessingParameterString, QgsProcessingParameterNumber, QgsProcessingParameterEnum, QgsProcessingParameterBoolean, QgsProcessingParameterExtent, QgsProcessingParameterRasterDestination, QgsProcessingUtils) from processing.algs.gdal.GdalAlgorithm import GdalAlgorithm from processing.algs.gdal.GdalUtils import GdalUtils pluginPath = os.path.split(os.path.split(os.path.dirname(__file__))[0])[0] class warp(GdalAlgorithm): INPUT = 'INPUT' SOURCE_CRS = 'SOURCE_CRS' TARGET_CRS = 'TARGET_CRS' NODATA = 'NODATA' TARGET_RESOLUTION = 'TARGET_RESOLUTION' OPTIONS = 'OPTIONS' RESAMPLING = 'RESAMPLING' DATA_TYPE = 'DATA_TYPE' TARGET_EXTENT = 'TARGET_EXTENT' TARGET_EXTENT_CRS = 'TARGET_EXTENT_CRS' MULTITHREADING = 'MULTITHREADING' OUTPUT = 'OUTPUT' TYPES = ['Byte', 'Int16', 'UInt16', 'UInt32', 'Int32', 'Float32', 'Float64', 'CInt16', 'CInt32', 'CFloat32', 'CFloat64'] def __init__(self): super().__init__() def initAlgorithm(self, config=None): self.methods = ((self.tr('Nearest neighbour'), 'near'), (self.tr('Bilinear'), 'bilinear'), (self.tr('Cubic'), 'cubic'), (self.tr('Cubic spline'), 'cubicspline'), (self.tr('Lanczos windowed sinc'), 'lanczos'), (self.tr('Average'), 'average'), (self.tr('Mode'), 'mode'), (self.tr('Maximum'), 'max'), (self.tr('Minimum'), 'min'), (self.tr('Median'), 'med'), (self.tr('First quartile'), 'q1'), (self.tr('Third quartile'), 'q3')) self.addParameter(QgsProcessingParameterRasterLayer(self.INPUT, self.tr('Input layer'))) self.addParameter(QgsProcessingParameterCrs(self.SOURCE_CRS, self.tr('Source CRS'), optional=True)) self.addParameter(QgsProcessingParameterCrs(self.TARGET_CRS, self.tr('Target CRS'), 'EPSG:4326')) self.addParameter(QgsProcessingParameterEnum(self.RESAMPLING, self.tr('Resampling method to use'), options=[i[0] for i in self.methods], defaultValue=0)) self.addParameter(QgsProcessingParameterNumber(self.NODATA, self.tr('Nodata value for output bands'), type=QgsProcessingParameterNumber.Double, defaultValue=None, optional=True)) self.addParameter(QgsProcessingParameterNumber(self.TARGET_RESOLUTION, self.tr('Output file resolution in target georeferenced units'), type=QgsProcessingParameterNumber.Double, minValue=0.0, defaultValue=None, optional=True)) options_param = QgsProcessingParameterString(self.OPTIONS, self.tr('Additional creation parameters'), defaultValue='', optional=True) options_param.setFlags(options_param.flags() | QgsProcessingParameterDefinition.FlagAdvanced) options_param.setMetadata({ 'widget_wrapper': { 'class': 'processing.algs.gdal.ui.RasterOptionsWidget.RasterOptionsWidgetWrapper'}}) self.addParameter(options_param) dataType_param = QgsProcessingParameterEnum(self.DATA_TYPE, self.tr('Output data type'), self.TYPES, allowMultiple=False, defaultValue=5) dataType_param.setFlags(dataType_param.flags() | QgsProcessingParameterDefinition.FlagAdvanced) self.addParameter(dataType_param) target_extent_param = QgsProcessingParameterExtent(self.TARGET_EXTENT, self.tr('Georeferenced extents of output file to be created'), optional=True) target_extent_param.setFlags(target_extent_param.flags() | QgsProcessingParameterDefinition.FlagAdvanced) self.addParameter(target_extent_param) target_extent_crs_param = QgsProcessingParameterCrs(self.TARGET_EXTENT_CRS, self.tr('CRS of the target raster extent'), optional=True) target_extent_crs_param.setFlags(target_extent_crs_param.flags() | QgsProcessingParameterDefinition.FlagAdvanced) self.addParameter(target_extent_crs_param) multithreading_param = QgsProcessingParameterBoolean(self.MULTITHREADING, self.tr('Use multithreaded warping implementation'), defaultValue=False) multithreading_param.setFlags(multithreading_param.flags() | QgsProcessingParameterDefinition.FlagAdvanced) self.addParameter(multithreading_param) self.addParameter(QgsProcessingParameterRasterDestination(self.OUTPUT, self.tr('Reprojected'))) def name(self): return 'warpreproject' def displayName(self): return self.tr('Warp (reproject)') def group(self): return self.tr('Raster projections') def groupId(self): return 'rasterprojections' def icon(self): return QIcon(os.path.join(pluginPath, 'images', 'gdaltools', 'warp.png')) def commandName(self): return 'gdalwarp' def tags(self): tags = self.tr('transform,reproject,crs,srs').split(',') tags.extend(super().tags()) return tags def getConsoleCommands(self, parameters, context, feedback, executing=True): inLayer = self.parameterAsRasterLayer(parameters, self.INPUT, context) if inLayer is None: raise QgsProcessingException(self.invalidRasterError(parameters, self.INPUT)) out = self.parameterAsOutputLayer(parameters, self.OUTPUT, context) sourceCrs = self.parameterAsCrs(parameters, self.SOURCE_CRS, context) targetCrs = self.parameterAsCrs(parameters, self.TARGET_CRS, context) if self.NODATA in parameters and parameters[self.NODATA] is not None: nodata = self.parameterAsDouble(parameters, self.NODATA, context) else: nodata = None resolution = self.parameterAsDouble(parameters, self.TARGET_RESOLUTION, context) arguments = [] if sourceCrs.isValid(): arguments.append('-s_srs') arguments.append(GdalUtils.gdal_crs_string(sourceCrs)) if targetCrs.isValid(): arguments.append('-t_srs') arguments.append(GdalUtils.gdal_crs_string(targetCrs)) if nodata is not None: arguments.append('-dstnodata') arguments.append(str(nodata)) if resolution: arguments.append('-tr') arguments.append(str(resolution)) arguments.append(str(resolution)) arguments.append('-r') arguments.append(self.methods[self.parameterAsEnum(parameters, self.RESAMPLING, context)][1]) extent = self.parameterAsExtent(parameters, self.TARGET_EXTENT, context) if not extent.isNull(): arguments.append('-te') arguments.append(extent.xMinimum()) arguments.append(extent.yMinimum()) arguments.append(extent.xMaximum()) arguments.append(extent.yMaximum()) extentCrs = self.parameterAsCrs(parameters, self.TARGET_EXTENT_CRS, context) if extentCrs: arguments.append('-te_srs') arguments.append(extentCrs.authid()) if self.parameterAsBool(parameters, self.MULTITHREADING, context): arguments.append('-multi') arguments.append('-ot') arguments.append(self.TYPES[self.parameterAsEnum(parameters, self.DATA_TYPE, context)]) out = self.parameterAsOutputLayer(parameters, self.OUTPUT, context) arguments.append('-of') arguments.append(QgsRasterFileWriter.driverForExtension(os.path.splitext(out)[1])) options = self.parameterAsString(parameters, self.OPTIONS, context) if options: arguments.extend(GdalUtils.parseCreationOptions(options)) arguments.append(inLayer.source()) arguments.append(out) return [self.commandName(), GdalUtils.escapeAndJoin(arguments)]