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465 lines
21 KiB
Python
465 lines
21 KiB
Python
# -*- coding: utf-8 -*-
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"""
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***************************************************************************
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SagaAlgorithm.py
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---------------------
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Date : August 2012
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Copyright : (C) 2012 by Victor Olaya
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Email : volayaf at gmail dot com
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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__ = 'Victor Olaya'
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__date__ = 'August 2012'
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__copyright__ = '(C) 2012, Victor Olaya'
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import os
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import shutil
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import importlib
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from qgis.core import (Qgis,
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QgsApplication,
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QgsProcessingUtils,
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QgsProcessingException,
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QgsMessageLog,
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QgsProcessing,
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QgsProcessingAlgorithm,
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QgsProcessingParameterRasterLayer,
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QgsProcessingParameterFeatureSource,
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QgsProcessingParameterBoolean,
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QgsProcessingParameterNumber,
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QgsProcessingParameterEnum,
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QgsProcessingParameterMultipleLayers,
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QgsProcessingParameterMatrix,
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QgsProcessingParameterString,
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QgsProcessingParameterField,
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QgsProcessingParameterFile,
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QgsProcessingParameterExtent,
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QgsProcessingParameterRasterDestination,
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QgsProcessingParameterVectorDestination)
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from processing.core.ProcessingConfig import ProcessingConfig
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from processing.algs.help import shortHelp
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from processing.tools.system import getTempFilename
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from processing.algs.saga.SagaNameDecorator import decoratedAlgorithmName, decoratedGroupName
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from processing.algs.saga.SagaParameters import Parameters
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from . import SagaUtils
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from .SagaAlgorithmBase import SagaAlgorithmBase
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pluginPath = os.path.normpath(os.path.join(
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os.path.split(os.path.dirname(__file__))[0], os.pardir))
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sessionExportedLayers = {}
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class SagaAlgorithm(SagaAlgorithmBase):
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OUTPUT_EXTENT = 'OUTPUT_EXTENT'
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def __init__(self, descriptionfile):
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super().__init__()
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self.hardcoded_strings = []
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self.allow_nonmatching_grid_extents = False
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self.description_file = descriptionfile
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self.undecorated_group = None
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self._name = ''
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self._display_name = ''
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self._group = ''
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self._groupId = ''
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self.params = []
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self.known_issues = False
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self.defineCharacteristicsFromFile()
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def createInstance(self):
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return SagaAlgorithm(self.description_file)
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def initAlgorithm(self, config=None):
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for p in self.params:
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self.addParameter(p)
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def name(self):
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return self._name
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def displayName(self):
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return self._display_name
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def group(self):
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return self._group
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def groupId(self):
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return self._groupId
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def shortHelpString(self):
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return shortHelp.get(self.id(), None)
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def icon(self):
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return QgsApplication.getThemeIcon("/providerSaga.svg")
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def svgIconPath(self):
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return QgsApplication.iconPath("providerSaga.svg")
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def flags(self):
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# TODO - maybe it's safe to background thread this?
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f = super().flags() | QgsProcessingAlgorithm.FlagNoThreading
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if self.known_issues:
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f = f | QgsProcessingAlgorithm.FlagKnownIssues
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return f
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def defineCharacteristicsFromFile(self):
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with open(self.description_file, encoding="utf-8") as lines:
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line = lines.readline().strip('\n').strip()
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self._name = line
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if '|' in self._name:
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tokens = self._name.split('|')
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self._name = tokens[0]
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# cmdname is the name of the algorithm in SAGA, that is, the name to use to call it in the console
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self.cmdname = tokens[1]
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else:
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self.cmdname = self._name
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self._display_name = self.tr(str(self._name))
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self._name = decoratedAlgorithmName(self._name)
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self._display_name = self.tr(str(self._name))
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self._name = self._name.lower()
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validChars = \
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'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789:'
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self._name = ''.join(c for c in self._name if c in validChars)
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line = lines.readline().strip('\n').strip()
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if line == '##known_issues':
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self.known_issues = True
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line = lines.readline().strip('\n').strip()
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self.undecorated_group = line
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self._group = self.tr(decoratedGroupName(self.undecorated_group))
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validChars = 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789:'
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grpName = decoratedGroupName(self.undecorated_group).lower()
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self._groupId = ''.join(c for c in grpName if c in validChars)
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line = lines.readline().strip('\n').strip()
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while line != '':
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if line.startswith('Hardcoded'):
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self.hardcoded_strings.append(line[len('Hardcoded|'):])
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elif Parameters.is_parameter_line(line):
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self.params.append(Parameters.create_parameter_from_line(line))
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elif line.startswith('AllowUnmatching'):
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self.allow_nonmatching_grid_extents = True
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else:
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pass # TODO
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# self.addOutput(getOutputFromString(line))
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line = lines.readline().strip('\n').strip()
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def processAlgorithm(self, parameters, context, feedback):
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commands = []
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self.exportedLayers = {}
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self.preProcessInputs()
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extent = None
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crs = None
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# 1: Export rasters to sgrd and vectors to shp
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# Tables must be in dbf format. We check that.
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for param in self.parameterDefinitions():
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if isinstance(param, QgsProcessingParameterRasterLayer):
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if param.name() not in parameters or parameters[param.name()] is None:
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continue
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if isinstance(parameters[param.name()], str):
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if parameters[param.name()].lower().endswith('sdat'):
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self.exportedLayers[param.name()] = parameters[param.name()][:-4] + 'sgrd'
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elif parameters[param.name()].lower().endswith('sgrd'):
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self.exportedLayers[param.name()] = parameters[param.name()]
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else:
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layer = self.parameterAsRasterLayer(parameters, param.name(), context)
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exportCommand = self.exportRasterLayer(param.name(), layer)
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if exportCommand is not None:
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commands.append(exportCommand)
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else:
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if parameters[param.name()].source().lower().endswith('sdat'):
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self.exportedLayers[param.name()] = parameters[param.name()].source()[:-4] + 'sgrd'
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if parameters[param.name()].source().lower().endswith('sgrd'):
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self.exportedLayers[param.name()] = parameters[param.name()].source()
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else:
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exportCommand = self.exportRasterLayer(param.name(), parameters[param.name()])
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if exportCommand is not None:
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commands.append(exportCommand)
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elif isinstance(param, QgsProcessingParameterFeatureSource):
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if param.name() not in parameters or parameters[param.name()] is None:
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continue
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if not crs:
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source = self.parameterAsSource(parameters, param.name(), context)
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if source is None:
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raise QgsProcessingException(self.invalidSourceError(parameters, param.name()))
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crs = source.sourceCrs()
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layer_path = self.parameterAsCompatibleSourceLayerPath(parameters, param.name(), context, ['shp'], 'shp', feedback=feedback)
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if layer_path:
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self.exportedLayers[param.name()] = layer_path
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else:
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raise QgsProcessingException(
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self.tr('Unsupported file format'))
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elif isinstance(param, QgsProcessingParameterMultipleLayers):
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if param.name() not in parameters or parameters[param.name()] is None:
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continue
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layers = self.parameterAsLayerList(parameters, param.name(), context)
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if layers is None or len(layers) == 0:
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continue
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if param.layerType() == QgsProcessing.TypeRaster:
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files = []
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for i, layer in enumerate(layers):
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if layer.source().lower().endswith('sdat'):
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files.append(layer.source()[:-4] + 'sgrd')
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elif layer.source().lower().endswith('sgrd'):
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files.append(layer.source())
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else:
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exportCommand = self.exportRasterLayer(param.name(), layer)
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files.append(self.exportedLayers[param.name()])
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if exportCommand is not None:
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commands.append(exportCommand)
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self.exportedLayers[param.name()] = files
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else:
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for layer in layers:
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temp_params = {param.name(): layer}
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if not crs:
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source = self.parameterAsSource(temp_params, param.name(), context)
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if source is None:
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raise QgsProcessingException(self.invalidSourceError(parameters, param.name()))
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crs = source.sourceCrs()
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layer_path = self.parameterAsCompatibleSourceLayerPath(temp_params, param.name(), context, ['shp'], 'shp',
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feedback=feedback)
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if layer_path:
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if param.name() in self.exportedLayers:
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self.exportedLayers[param.name()].append(layer_path)
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else:
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self.exportedLayers[param.name()] = [layer_path]
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else:
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raise QgsProcessingException(
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self.tr('Unsupported file format'))
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# 2: Set parameters and outputs
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command = self.undecorated_group + ' "' + self.cmdname + '"'
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command += ' ' + ' '.join(self.hardcoded_strings)
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for param in self.parameterDefinitions():
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if param.name() not in parameters or parameters[param.name()] is None:
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continue
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if param.isDestination():
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continue
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if isinstance(param, (QgsProcessingParameterRasterLayer, QgsProcessingParameterFeatureSource)):
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command += ' -{} "{}"'.format(param.name(), self.exportedLayers[param.name()])
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elif isinstance(param, QgsProcessingParameterMultipleLayers):
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if parameters[param.name()]: # parameter may have been an empty list
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command += ' -{} "{}"'.format(param.name(), ';'.join(self.exportedLayers[param.name()]))
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elif isinstance(param, QgsProcessingParameterBoolean):
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if self.parameterAsBoolean(parameters, param.name(), context):
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command += ' -{} true'.format(param.name().strip())
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else:
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command += ' -{} false'.format(param.name().strip())
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elif isinstance(param, QgsProcessingParameterMatrix):
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tempTableFile = getTempFilename('txt')
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with open(tempTableFile, 'w') as f:
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f.write('\t'.join(param.headers()) + '\n')
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values = self.parameterAsMatrix(parameters, param.name(), context)
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for i in range(0, len(values), 3):
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s = '{}\t{}\t{}\n'.format(values[i], values[i + 1], values[i + 2])
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f.write(s)
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command += ' -{} "{}"'.format(param.name(), tempTableFile)
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elif isinstance(param, QgsProcessingParameterExtent):
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# 'We have to subtract/add half cell size, since SAGA is
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# center based, not corner based
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halfcell = self.getOutputCellsize(parameters, context) / 2
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offset = [halfcell, -halfcell, halfcell, -halfcell]
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rect = self.parameterAsExtent(parameters, param.name(), context)
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values = [
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rect.xMinimum(),
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rect.xMaximum(),
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rect.yMinimum(),
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rect.yMaximum(),
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]
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for i in range(4):
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command += ' -{} {}'.format(param.name().split(' ')[i], float(values[i]) + offset[i])
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elif isinstance(param, QgsProcessingParameterNumber):
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if param.dataType() == QgsProcessingParameterNumber.Integer:
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command += ' -{} {}'.format(param.name(), self.parameterAsInt(parameters, param.name(), context))
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else:
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command += ' -{} {}'.format(param.name(), self.parameterAsDouble(parameters, param.name(), context))
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elif isinstance(param, QgsProcessingParameterEnum):
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command += ' -{} {}'.format(param.name(), self.parameterAsEnum(parameters, param.name(), context))
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elif isinstance(param, (QgsProcessingParameterString, QgsProcessingParameterFile)):
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command += ' -{} "{}"'.format(param.name(), self.parameterAsFile(parameters, param.name(), context))
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elif isinstance(param, (QgsProcessingParameterString, QgsProcessingParameterField)):
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command += ' -{} "{}"'.format(param.name(), self.parameterAsString(parameters, param.name(), context))
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output_layers = []
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output_files = {}
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# If the user has entered an output file that has non-ascii chars, we use a different path with only ascii chars
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output_files_nonascii = {}
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for out in self.destinationParameterDefinitions():
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filePath = self.parameterAsOutputLayer(parameters, out.name(), context)
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if isinstance(out, (QgsProcessingParameterRasterDestination, QgsProcessingParameterVectorDestination)):
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output_layers.append(filePath)
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try:
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filePath.encode('ascii')
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except UnicodeEncodeError:
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nonAsciiFilePath = filePath
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filePath = QgsProcessingUtils.generateTempFilename(out.name() + os.path.splitext(filePath)[1])
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output_files_nonascii[filePath] = nonAsciiFilePath
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output_files[out.name()] = filePath
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command += ' -{} "{}"'.format(out.name(), filePath)
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commands.append(command)
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# special treatment for RGB algorithm
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# TODO: improve this and put this code somewhere else
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if self.cmdname == 'RGB Composite':
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for out in self.destinationParameterDefinitions():
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if isinstance(out, QgsProcessingParameterRasterDestination):
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filename = self.parameterAsOutputLayer(parameters, out.name(), context)
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filename2 = os.path.splitext(filename)[0] + '.sgrd'
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commands.append('io_grid_image 0 -COLOURING 4 -GRID:"{}" -FILE:"{}"'.format(filename2, filename))
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# 3: Run SAGA
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commands = self.editCommands(commands)
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SagaUtils.createSagaBatchJobFileFromSagaCommands(commands)
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loglines = [self.tr('SAGA execution commands')]
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for line in commands:
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feedback.pushCommandInfo(line)
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loglines.append(line)
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if ProcessingConfig.getSetting(SagaUtils.SAGA_LOG_COMMANDS):
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QgsMessageLog.logMessage('\n'.join(loglines), self.tr('Processing'), Qgis.Info)
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SagaUtils.executeSaga(feedback)
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if crs is not None:
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for out in output_layers:
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prjFile = os.path.splitext(out)[0] + '.prj'
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with open(prjFile, 'w') as f:
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f.write(crs.toWkt())
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for old, new in output_files_nonascii.items():
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oldFolder = os.path.dirname(old)
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newFolder = os.path.dirname(new)
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newName = os.path.splitext(os.path.basename(new))[0]
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files = [f for f in os.listdir(oldFolder)]
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for f in files:
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ext = os.path.splitext(f)[1]
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newPath = os.path.join(newFolder, newName + ext)
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oldPath = os.path.join(oldFolder, f)
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shutil.move(oldPath, newPath)
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return {
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o.name(): output_files[o.name()]
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for o in self.outputDefinitions()
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if o.name() in output_files
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}
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def preProcessInputs(self):
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name = self.name().replace('.', '_')
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try:
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module = importlib.import_module('processing.algs.saga.ext.' + name)
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except ImportError:
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return
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if hasattr(module, 'preProcessInputs'):
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func = getattr(module, 'preProcessInputs')
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func(self)
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def editCommands(self, commands):
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try:
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module = importlib.import_module('processing.algs.saga.ext.' + self.name())
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except ImportError:
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return commands
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if hasattr(module, 'editCommands'):
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func = getattr(module, 'editCommands')
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return func(commands)
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else:
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return commands
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def getOutputCellsize(self, parameters, context):
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"""Tries to guess the cell size of the output, searching for
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a parameter with an appropriate name for it.
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:param parameters:
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"""
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cellsize = 0
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for param in self.parameterDefinitions():
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if param.name() in parameters and param.name() == 'USER_SIZE':
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cellsize = self.parameterAsDouble(parameters, param.name(), context)
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break
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return cellsize
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def exportRasterLayer(self, parameterName, layer):
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global sessionExportedLayers
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if layer.source() in sessionExportedLayers:
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exportedLayer = sessionExportedLayers[layer.source()]
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if os.path.exists(exportedLayer):
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self.exportedLayers[parameterName] = exportedLayer
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return None
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else:
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del sessionExportedLayers[layer.source()]
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if layer:
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filename = layer.name()
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else:
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filename = os.path.basename(layer.source())
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validChars = 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789:'
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filename = ''.join(c for c in filename if c in validChars)
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if len(filename) == 0:
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filename = 'layer'
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destFilename = QgsProcessingUtils.generateTempFilename(filename + '.sgrd')
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sessionExportedLayers[layer.source()] = destFilename
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self.exportedLayers[parameterName] = destFilename
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return 'io_gdal 0 -TRANSFORM 1 -RESAMPLING 3 -GRIDS "{}" -FILES "{}"'.format(destFilename, layer.source())
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def checkParameterValues(self, parameters, context):
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"""
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We check that there are no multiband layers, which are not
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supported by SAGA, and that raster layers have the same grid extent
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"""
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extent = None
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raster_layer_params = []
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for param in self.parameterDefinitions():
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if param not in parameters or parameters[param.name()] is None:
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continue
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if isinstance(param, QgsProcessingParameterRasterLayer):
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raster_layer_params.append(param.name())
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elif (isinstance(param, QgsProcessingParameterMultipleLayers)
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and param.layerType() == QgsProcessing.TypeRaster):
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raster_layer_params.extend(param.name())
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for layer_param in raster_layer_params:
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layer = self.parameterAsRasterLayer(parameters, layer_param, context)
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if layer is None:
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continue
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if layer.bandCount() > 1:
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return False, self.tr('Input layer {0} has more than one band.\n'
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'Multiband layers are not supported by SAGA').format(layer.name())
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if not self.allow_nonmatching_grid_extents:
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if extent is None:
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extent = (layer.extent(), layer.height(), layer.width())
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else:
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extent2 = (layer.extent(), layer.height(), layer.width())
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if extent != extent2:
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return False, self.tr("Input layers do not have the same grid extent.")
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return super(SagaAlgorithm, self).checkParameterValues(parameters, context)
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