# -*- coding: utf-8 -*- """ *************************************************************************** ProcessingConfig.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' import os import tempfile from qgis.PyQt.QtCore import QCoreApplication, QObject, pyqtSignal from qgis.core import (NULL, QgsApplication, QgsSettings, QgsVectorFileWriter, QgsRasterFileWriter, QgsProcessingUtils) from processing.tools.system import defaultOutputFolder import processing.tools.dataobjects from multiprocessing import cpu_count class SettingsWatcher(QObject): settingsChanged = pyqtSignal() settingsWatcher = SettingsWatcher() class ProcessingConfig: OUTPUT_FOLDER = 'OUTPUTS_FOLDER' RASTER_STYLE = 'RASTER_STYLE' VECTOR_POINT_STYLE = 'VECTOR_POINT_STYLE' VECTOR_LINE_STYLE = 'VECTOR_LINE_STYLE' VECTOR_POLYGON_STYLE = 'VECTOR_POLYGON_STYLE' FILTER_INVALID_GEOMETRIES = 'FILTER_INVALID_GEOMETRIES' PREFER_FILENAME_AS_LAYER_NAME = 'PREFER_FILENAME_AS_LAYER_NAME' KEEP_DIALOG_OPEN = 'KEEP_DIALOG_OPEN' PRE_EXECUTION_SCRIPT = 'PRE_EXECUTION_SCRIPT' POST_EXECUTION_SCRIPT = 'POST_EXECUTION_SCRIPT' SHOW_CRS_DEF = 'SHOW_CRS_DEF' WARN_UNMATCHING_CRS = 'WARN_UNMATCHING_CRS' SHOW_PROVIDERS_TOOLTIP = 'SHOW_PROVIDERS_TOOLTIP' SHOW_ALGORITHMS_KNOWN_ISSUES = 'SHOW_ALGORITHMS_KNOWN_ISSUES' MAX_THREADS = 'MAX_THREADS' DEFAULT_OUTPUT_RASTER_LAYER_EXT = 'DefaultOutputRasterLayerExt' DEFAULT_OUTPUT_VECTOR_LAYER_EXT = 'DefaultOutputVectorLayerExt' TEMP_PATH = 'TEMP_PATH2' settings = {} settingIcons = {} @staticmethod def initialize(): icon = QgsApplication.getThemeIcon("/processingAlgorithm.svg") ProcessingConfig.settingIcons['General'] = icon ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.KEEP_DIALOG_OPEN, ProcessingConfig.tr('Keep dialog open after running an algorithm'), True)) ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.PREFER_FILENAME_AS_LAYER_NAME, ProcessingConfig.tr('Prefer output filename for layer names'), True)) ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.SHOW_PROVIDERS_TOOLTIP, ProcessingConfig.tr('Show tooltip when there are disabled providers'), True)) ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.OUTPUT_FOLDER, ProcessingConfig.tr('Output folder'), defaultOutputFolder(), valuetype=Setting.FOLDER)) ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.SHOW_CRS_DEF, ProcessingConfig.tr('Show layer CRS definition in selection boxes'), True)) ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.WARN_UNMATCHING_CRS, ProcessingConfig.tr("Warn before executing if parameter CRS's do not match"), True)) ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.SHOW_ALGORITHMS_KNOWN_ISSUES, ProcessingConfig.tr("Show algorithms with known issues"), False)) ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.RASTER_STYLE, ProcessingConfig.tr('Style for raster layers'), '', valuetype=Setting.FILE)) ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.VECTOR_POINT_STYLE, ProcessingConfig.tr('Style for point layers'), '', valuetype=Setting.FILE)) ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.VECTOR_LINE_STYLE, ProcessingConfig.tr('Style for line layers'), '', valuetype=Setting.FILE)) ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.VECTOR_POLYGON_STYLE, ProcessingConfig.tr('Style for polygon layers'), '', valuetype=Setting.FILE)) ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.PRE_EXECUTION_SCRIPT, ProcessingConfig.tr('Pre-execution script'), '', valuetype=Setting.FILE)) ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.POST_EXECUTION_SCRIPT, ProcessingConfig.tr('Post-execution script'), '', valuetype=Setting.FILE)) invalidFeaturesOptions = [ProcessingConfig.tr('Do not filter (better performance)'), ProcessingConfig.tr('Skip (ignore) features with invalid geometries'), ProcessingConfig.tr('Stop algorithm execution when a geometry is invalid')] ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.FILTER_INVALID_GEOMETRIES, ProcessingConfig.tr('Invalid features filtering'), invalidFeaturesOptions[2], valuetype=Setting.SELECTION, options=invalidFeaturesOptions)) threads = QgsApplication.maxThreads() # if user specified limit for rendering, lets keep that as default here, otherwise max threads = cpu_count() if threads == -1 else threads # if unset, maxThreads() returns -1 ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.MAX_THREADS, ProcessingConfig.tr('Max Threads'), threads, valuetype=Setting.INT)) extensions = QgsVectorFileWriter.supportedFormatExtensions() ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.DEFAULT_OUTPUT_VECTOR_LAYER_EXT, ProcessingConfig.tr('Default output vector layer extension'), QgsVectorFileWriter.supportedFormatExtensions()[0], valuetype=Setting.SELECTION, options=extensions)) extensions = QgsRasterFileWriter.supportedFormatExtensions() ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.DEFAULT_OUTPUT_RASTER_LAYER_EXT, ProcessingConfig.tr('Default output raster layer extension'), 'tif', valuetype=Setting.SELECTION, options=extensions)) ProcessingConfig.addSetting(Setting( ProcessingConfig.tr('General'), ProcessingConfig.TEMP_PATH, ProcessingConfig.tr('Override temporary output folder path (leave blank for default)'), None, valuetype=Setting.FOLDER)) @staticmethod def setGroupIcon(group, icon): ProcessingConfig.settingIcons[group] = icon @staticmethod def getGroupIcon(group): if group == ProcessingConfig.tr('General'): return QgsApplication.getThemeIcon("/processingAlgorithm.svg") if group in ProcessingConfig.settingIcons: return ProcessingConfig.settingIcons[group] else: return QgsApplication.getThemeIcon("/processingAlgorithm.svg") @staticmethod def addSetting(setting): ProcessingConfig.settings[setting.name] = setting @staticmethod def removeSetting(name): del ProcessingConfig.settings[name] @staticmethod def getSettings(): '''Return settings as a dict with group names as keys and lists of settings as values''' settings = {} for setting in list(ProcessingConfig.settings.values()): if setting.group not in settings: group = [] settings[setting.group] = group else: group = settings[setting.group] group.append(setting) return settings @staticmethod def readSettings(): for setting in list(ProcessingConfig.settings.values()): setting.read() @staticmethod def getSetting(name, readable=False): if name in list(ProcessingConfig.settings.keys()): v = ProcessingConfig.settings[name].value try: if v == NULL: v = None except: pass if ProcessingConfig.settings[name].valuetype == Setting.SELECTION: if readable: return v return ProcessingConfig.settings[name].options.index(v) else: return v else: return None @staticmethod def setSettingValue(name, value): if name in list(ProcessingConfig.settings.keys()): if ProcessingConfig.settings[name].valuetype == Setting.SELECTION: ProcessingConfig.settings[name].setValue(ProcessingConfig.settings[name].options[value]) else: ProcessingConfig.settings[name].setValue(value) ProcessingConfig.settings[name].save() @staticmethod def tr(string, context=''): if context == '': context = 'ProcessingConfig' return QCoreApplication.translate(context, string) class Setting: """A simple config parameter that will appear on the config dialog. """ STRING = 0 FILE = 1 FOLDER = 2 SELECTION = 3 FLOAT = 4 INT = 5 MULTIPLE_FOLDERS = 6 def __init__(self, group, name, description, default, hidden=False, valuetype=None, validator=None, options=None): self.group = group self.name = name self.qname = "Processing/Configuration/" + self.name self.description = description self.default = default self.hidden = hidden self.valuetype = valuetype self.options = options if self.valuetype is None: if isinstance(default, int): self.valuetype = self.INT elif isinstance(default, float): self.valuetype = self.FLOAT if validator is None: if self.valuetype == self.FLOAT: def checkFloat(v): try: float(v) except ValueError: raise ValueError(self.tr('Wrong parameter value:\n{0}').format(v)) validator = checkFloat elif self.valuetype == self.INT: def checkInt(v): try: int(v) except ValueError: raise ValueError(self.tr('Wrong parameter value:\n{0}').format(v)) validator = checkInt elif self.valuetype in [self.FILE, self.FOLDER]: def checkFileOrFolder(v): if v and not os.path.exists(v): raise ValueError(self.tr('Specified path does not exist:\n{0}').format(v)) validator = checkFileOrFolder elif self.valuetype == self.MULTIPLE_FOLDERS: def checkMultipleFolders(v): folders = v.split(';') for f in folders: if f and not os.path.exists(f): raise ValueError(self.tr('Specified path does not exist:\n{0}').format(f)) validator = checkMultipleFolders else: def validator(x): return True self.validator = validator self.value = default def setValue(self, value): self.validator(value) self.value = value def read(self, qsettings=None): if not qsettings: qsettings = QgsSettings() value = qsettings.value(self.qname, None) if value is not None: if isinstance(self.value, bool): value = str(value).lower() == str(True).lower() if self.valuetype == self.SELECTION: try: self.value = self.options[int(value)] except: self.value = self.options[0] else: self.value = value def save(self, qsettings=None): if not qsettings: qsettings = QgsSettings() if self.valuetype == self.SELECTION: qsettings.setValue(self.qname, self.options.index(self.value)) else: qsettings.setValue(self.qname, self.value) def __str__(self): return self.name + '=' + str(self.value) def tr(self, string, context=''): if context == '': context = 'ProcessingConfig' return QCoreApplication.translate(context, string)