# -*- coding: utf-8 -*- """ *************************************************************************** Processing.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 sys from PyQt4.QtCore import Qt, QCoreApplication from PyQt4.QtGui import QApplication, QCursor from qgis.utils import iface from qgis.core import QgsMessageLog import processing from processing.gui import AlgorithmClassification from processing.modeler.ModelerUtils import ModelerUtils from processing.core.ProcessingConfig import ProcessingConfig from processing.core.GeoAlgorithm import GeoAlgorithm from processing.core.ProcessingLog import ProcessingLog from processing.gui.MessageBarProgress import MessageBarProgress from processing.gui.RenderingStyles import RenderingStyles from processing.gui.Postprocessing import handleAlgorithmResults from processing.gui.AlgorithmExecutor import runalg from processing.modeler.ModelerAlgorithmProvider import ModelerAlgorithmProvider from processing.modeler.ModelerOnlyAlgorithmProvider import ModelerOnlyAlgorithmProvider from processing.algs.qgis.QGISAlgorithmProvider import QGISAlgorithmProvider from processing.algs.grass.GrassAlgorithmProvider import GrassAlgorithmProvider from processing.algs.grass7.Grass7AlgorithmProvider import Grass7AlgorithmProvider from processing.algs.lidar.LidarToolsAlgorithmProvider import LidarToolsAlgorithmProvider from processing.algs.gdal.GdalOgrAlgorithmProvider import GdalOgrAlgorithmProvider from processing.algs.otb.OTBAlgorithmProvider import OTBAlgorithmProvider from processing.algs.r.RAlgorithmProvider import RAlgorithmProvider from processing.algs.saga.SagaAlgorithmProvider import SagaAlgorithmProvider from processing.script.ScriptAlgorithmProvider import ScriptAlgorithmProvider from processing.algs.taudem.TauDEMAlgorithmProvider import TauDEMAlgorithmProvider from processing.tools import dataobjects class Processing: listeners = [] providers = [] # A dictionary of algorithms. Keys are names of providers # and values are list with all algorithms from that provider algs = {} # Same structure as algs actions = {} # All the registered context menu actions for the toolbox contextMenuActions = [] modeler = ModelerAlgorithmProvider() @staticmethod def addProvider(provider, updateList=True): """Use this method to add algorithms from external providers. """ # Note: this might slow down the initialization process if # there are many new providers added. Should think of a # different solution try: provider.initializeSettings() Processing.providers.append(provider) ProcessingConfig.readSettings() if updateList: Processing.updateAlgsList() except: ProcessingLog.addToLog( ProcessingLog.LOG_ERROR, Processing.tr('Could not load provider: %s\n%s') % (provider.getDescription(), unicode(sys.exc_info()[1]))) Processing.removeProvider(provider) @staticmethod def removeProvider(provider): """Use this method to remove a provider. This method should be called when unloading a plugin that contributes a provider. """ try: provider.unload() Processing.providers.remove(provider) ProcessingConfig.readSettings() Processing.updateAlgsList() except: # This try catch block is here to avoid problems if the # plugin with a provider is unloaded after the Processing # framework itself has been unloaded. It is a quick fix # before I found out how to properly avoid that. pass @staticmethod def getProviderFromName(name): """Returns the provider with the given name.""" for provider in Processing.providers: if provider.getName() == name: return provider return Processing.modeler @staticmethod def initialize(): # Add the basic providers Processing.addProvider(QGISAlgorithmProvider(), updateList=False) Processing.addProvider(ModelerOnlyAlgorithmProvider(), updateList=False) Processing.addProvider(GdalOgrAlgorithmProvider(), updateList=False) Processing.addProvider(LidarToolsAlgorithmProvider(), updateList=False) Processing.addProvider(OTBAlgorithmProvider(), updateList=False) Processing.addProvider(RAlgorithmProvider(), updateList=False) Processing.addProvider(SagaAlgorithmProvider(), updateList=False) Processing.addProvider(GrassAlgorithmProvider(), updateList=False) Processing.addProvider(Grass7AlgorithmProvider(), updateList=False) Processing.addProvider(ScriptAlgorithmProvider(), updateList=False) Processing.addProvider(TauDEMAlgorithmProvider(), updateList=False) Processing.addProvider(Processing.modeler, updateList=False) Processing.modeler.initializeSettings() # And initialize AlgorithmClassification.loadClassification() AlgorithmClassification.loadDisplayNames() ProcessingLog.startLogging() ProcessingConfig.initialize() ProcessingConfig.readSettings() RenderingStyles.loadStyles() Processing.loadFromProviders() # Inform registered listeners that all providers' algorithms have been loaded Processing.fireAlgsListHasChanged() @staticmethod def updateAlgsList(): """Call this method when there has been any change that requires the list of algorithms to be created again from algorithm providers. """ Processing.loadFromProviders() Processing.fireAlgsListHasChanged() @staticmethod def loadFromProviders(): Processing.loadAlgorithms() Processing.loadActions() Processing.loadContextMenuActions() @staticmethod def updateProviders(): providers = [p for p in Processing.providers if p.getName() != "model"] for provider in providers: provider.loadAlgorithms() @staticmethod def addAlgListListener(listener): """ Listener should implement a algsListHasChanged() method. Whenever the list of algorithms changes, that method will be called for all registered listeners. """ Processing.listeners.append(listener) @staticmethod def removeAlgListListener(listener): try: Processing.listeners.remove(listener) except: pass @staticmethod def fireAlgsListHasChanged(): for listener in Processing.listeners: listener.algsListHasChanged() @staticmethod def loadAlgorithms(): Processing.algs = {} Processing.updateProviders() providers = [p for p in Processing.providers if p.getName() != "model"] for provider in providers: providerAlgs = provider.algs algs = {} for alg in providerAlgs: algs[alg.commandLineName()] = alg Processing.algs[provider.getName()] = algs provs = {} for provider in Processing.providers: provs[provider.getName()] = provider ModelerUtils.allAlgs = Processing.algs ModelerUtils.providers = provs Processing.modeler.loadAlgorithms() algs = {} for alg in Processing.modeler.algs: algs[alg.commandLineName()] = alg Processing.algs[Processing.modeler.getName()] = algs @staticmethod def loadActions(): for provider in Processing.providers: providerActions = provider.actions actions = list() for action in providerActions: actions.append(action) Processing.actions[provider.getName()] = actions Processing.actions[provider.getName()] = actions @staticmethod def loadContextMenuActions(): Processing.contextMenuActions = [] for provider in Processing.providers: providerActions = provider.contextMenuActions for action in providerActions: Processing.contextMenuActions.append(action) @staticmethod def getAlgorithm(name): for provider in Processing.algs.values(): if name in provider: return provider[name] return None @staticmethod def getAlgorithmFromFullName(name): for provider in Processing.algs.values(): for alg in provider.values(): if alg.name == name: return alg return None @staticmethod def getObject(uri): """Returns the QGIS object identified by the given URI.""" return dataobjects.getObjectFromUri(uri) @staticmethod def runandload(name, *args): Processing.runAlgorithm(name, handleAlgorithmResults, *args) @staticmethod def runAlgorithm(algOrName, onFinish, *args): if isinstance(algOrName, GeoAlgorithm): alg = algOrName else: alg = Processing.getAlgorithm(algOrName) if alg is None: QgsMessageLog.logMessage(Processing.tr('Error: Algorithm {0} not found\n').format(algOrName), Processing.tr("Processing")) return alg = alg.getCopy() if len(args) == 1 and isinstance(args[0], dict): # Set params by name and try to run the alg even if not all parameter values are provided, # by using the default values instead. setParams = [] for (name, value) in args[0].items(): param = alg.getParameterFromName(name) if param and param.setValue(value): setParams.append(name) continue output = alg.getOutputFromName(name) if output and output.setValue(value): continue QgsMessageLog.logMessage(Processing.tr('Error: Wrong parameter value {0} for parameter {1}.').format(value, name), Processing.tr("Processing")) ProcessingLog.addToLog( ProcessingLog.LOG_ERROR, Processing.tr('Error in %s. Wrong parameter value %s for parameter %s.') % ( alg.name, value, name) ) return # fill any missing parameters with default values if allowed for param in alg.parameters: if param.name not in setParams: if not param.setValue(None): QgsMessageLog.logMessage(Processing.tr('Error: Missing parameter value for parameter {0}.').format(param.name), Processing.tr("Processing")) ProcessingLog.addToLog( ProcessingLog.LOG_ERROR, Processing.tr('Error in %s. Missing parameter value for parameter %s.') % ( alg.name, param.name) ) return else: if len(args) != alg.getVisibleParametersCount() + alg.getVisibleOutputsCount(): QgsMessageLog.logMessage(Processing.tr('Error: Wrong number of parameters'), Processing.tr("Processing")) processing.alghelp(algOrName) return i = 0 for param in alg.parameters: if not param.hidden: if not param.setValue(args[i]): QgsMessageLog.logMessage(Processing.tr('Error: Wrong parameter value: ') + unicode(args[i]), Processing.tr("Processing")) return i = i + 1 for output in alg.outputs: if not output.hidden: if not output.setValue(args[i]): QgsMessageLog.logMessage(Processing.tr('Error: Wrong output value: ') + unicode(args[i]), Processing.tr("Processing")) return i = i + 1 msg = alg._checkParameterValuesBeforeExecuting() if msg: QgsMessageLog.logMessage(Processing.tr('Unable to execute algorithm\n{0}').format(msg), Processing.tr("Processing")) return if not alg.checkInputCRS(): QgsMessageLog.logMessage(Processing.tr('Warning: Not all input layers use the same CRS.\nThis can cause unexpected results.'), Processing.tr("Processing")) if iface is not None: # Don't set the wait cursor twice, because then when you # restore it, it will still be a wait cursor. cursor = QApplication.overrideCursor() if cursor is None or cursor == 0: QApplication.setOverrideCursor(QCursor(Qt.WaitCursor)) elif cursor.shape() != Qt.WaitCursor: QApplication.setOverrideCursor(QCursor(Qt.WaitCursor)) progress = None if iface is not None: progress = MessageBarProgress(alg.name) ret = runalg(alg, progress) if ret: if onFinish is not None: onFinish(alg, progress) else: QgsMessageLog.logMessage(Processing.tr("There were errors executing the algorithm."), Processing.tr("Processing")) if iface is not None: QApplication.restoreOverrideCursor() progress.close() return alg @staticmethod def tr(string, context=''): if context == '': context = 'Processing' return QCoreApplication.translate(context, string)