Beispiel #1
0
def _executeAlgorithm(alg):
    message = alg.checkBeforeOpeningParametersDialog()
    if message:
        dlg = MessageDialog()
        dlg.setTitle(Processing.tr('Missing dependency'))
        dlg.setMessage(
            Processing.tr('<h3>Missing dependency. This algorithm cannot '
                          'be run :-( </h3>\n{0}').format(message))
        dlg.exec_()
        return
    alg = alg.getCopy()
    if (alg.getVisibleParametersCount() + alg.getVisibleOutputsCount()) > 0:
        dlg = alg.getCustomParametersDialog()
        if not dlg:
            dlg = AlgorithmDialog(alg)
        canvas = iface.mapCanvas()
        prevMapTool = canvas.mapTool()
        dlg.show()
        dlg.exec_()
        if canvas.mapTool() != prevMapTool:
            try:
                canvas.mapTool().reset()
            except:
                pass
            canvas.setMapTool(prevMapTool)
    else:
        feedback = MessageBarProgress()
        execute(alg, feedback)
        handleAlgorithmResults(alg, feedback)
        feedback.close()
    def executeAlgorithm(self):
        alg = self.algorithmTree.selectedAlgorithm()
        if alg is not None:
            ok, message = alg.canExecute()
            if not ok:
                dlg = MessageDialog()
                dlg.setTitle(self.tr('Error executing algorithm'))
                dlg.setMessage(
                    self.tr('<h3>This algorithm cannot '
                            'be run :-( </h3>\n{0}').format(message))
                dlg.exec_()
                return

            if alg.countVisibleParameters() > 0:
                dlg = alg.createCustomParametersWidget(self)

                if not dlg:
                    dlg = AlgorithmDialog(alg)
                canvas = iface.mapCanvas()
                prevMapTool = canvas.mapTool()
                dlg.show()
                dlg.exec_()
                if canvas.mapTool() != prevMapTool:
                    try:
                        canvas.mapTool().reset()
                    except:
                        pass
                    canvas.setMapTool(prevMapTool)
            else:
                feedback = MessageBarProgress()
                context = dataobjects.createContext(feedback)
                parameters = {}
                ret, results = execute(alg, parameters, context, feedback)
                handleAlgorithmResults(alg, context, feedback)
                feedback.close()
 def accept(self):
     keepOpen = ProcessingConfig.getSetting(
             ProcessingConfig.KEEP_DIALOG_OPEN)
     try:
         if self.setParamValues():
             QApplication.setOverrideCursor(QCursor(Qt.WaitCursor))
             ProcessingLog.addToLog(ProcessingLog.LOG_ALGORITHM,
                                  self.alg.getAsCommand())
             ret = runalg(self.alg, self)
             QApplication.restoreOverrideCursor()
             if ret:
                 handleAlgorithmResults(self.alg,
                                                       self,
                                                       not keepOpen)
             self.executed = True
             QDialog.reject(self)
         else:
             QMessageBox.critical(self,
                                  self.tr('Unable to execute algorithm'),
                                  self.tr('Wrong or missing parameter '
                                          'values'))
             return
     except GeoAlgorithmExecutionException, e:
         QApplication.restoreOverrideCursor()
         QMessageBox.critical(self, "Error",e.msg)
         ProcessingLog.addToLog(ProcessingLog.LOG_ERROR, e.msg)
         self.executed = False
         QDialog.reject(self)
Beispiel #4
0
def _executeAlgorithm(alg):
    ok, message = alg.canExecute()
    if not ok:
        dlg = MessageDialog()
        dlg.setTitle(Processing.tr('Missing dependency'))
        dlg.setMessage(
            Processing.tr('<h3>Missing dependency. This algorithm cannot '
                          'be run :-( </h3>\n{0}').format(message))
        dlg.exec_()
        return

    if (alg.countVisibleParameters()) > 0:
        dlg = alg.createCustomParametersWidget(None)
        if not dlg:
            dlg = AlgorithmDialog(alg)
        canvas = iface.mapCanvas()
        prevMapTool = canvas.mapTool()
        dlg.show()
        dlg.exec_()
        if canvas.mapTool() != prevMapTool:
            try:
                canvas.mapTool().reset()
            except:
                pass
            canvas.setMapTool(prevMapTool)
    else:
        feedback = MessageBarProgress()
        context = dataobjects.createContext(feedback)
        parameters = {}
        ret, results = execute(alg, parameters, context, feedback)
        handleAlgorithmResults(alg, context, feedback)
        feedback.close()
Beispiel #5
0
    def accept(self):
        self.canceled = False
        self.algs = []
        self.load = []
        for row in range(self.table.rowCount()):
            alg = self.alg.getCopy()
            col = 0
            for param in alg.parameters:
                if param.hidden:
                    continue
                widget = self.table.cellWidget(row, col)
                if not self.setParameterValueFromWidget(param, widget, alg):
                    self.progressLabel.setText(
                        self.tr('<b>Missing parameter value: %s (row %d)</b>') % (param.description, row + 1))
                    self.algs = None
                    return
                col += 1
            for out in alg.outputs:
                if out.hidden:
                    continue
                widget = self.table.cellWidget(row, col)
                text = widget.getValue()
                if text.strip() != '':
                    out.value = text
                    col += 1
                else:
                    self.progressLabel.setText(
                        self.tr('<b>Wrong or missing parameter value: %s (row %d)</b>') % (out.description, row + 1))
                    self.algs = None
                    return
            self.algs.append(alg)
            if self.alg.getVisibleOutputsCount():
                widget = self.table.cellWidget(row, col)
                self.load.append(widget.currentIndex() == 0)
            else:
                self.load.append(False)

        QApplication.setOverrideCursor(QCursor(Qt.WaitCursor))
        self.table.setEnabled(False)
        self.tabWidget.setCurrentIndex(1)
        self.progress.setMaximum(len(self.algs))
        # make sure the log tab is visible before executing the algorithm
        try:
            self.repaint()
        except:
            pass
        for (i, alg) in enumerate(self.algs):
            self.setBaseText(self.tr('Processing algorithm %d/%d...') %(i + 1, len(self.algs)))
            self.setInfo(self.tr('<b>Algorithm %s starting...</b>' % alg.name))
            if runalg(alg, self) and not self.canceled:
                if self.load[i]:
                    handleAlgorithmResults(alg, self, False)
                self.setInfo(self.tr('Algorithm %s correctly executed...') % alg.name)
            else:
                QApplication.restoreOverrideCursor()
                return

        self.finishAll()
    def accept(self):
        self.canceled = False
        self.algs = []
        self.load = []
        for row in range(self.table.rowCount()):
            alg = self.alg.getCopy()
            col = 0
            for param in alg.parameters:
                if param.hidden:
                    continue
                widget = self.table.cellWidget(row, col)
                if not self.setParameterValueFromWidget(param, widget, alg):
                    self.progressLabel.setText('<b>Missing parameter value: '
                            + param.description + ' (row ' + str(row + 1)
                            + ')</b>')
                    self.algs = None
                    return
                col += 1
            for out in alg.outputs:
                if out.hidden:
                    continue
                widget = self.table.cellWidget(row, col)
                text = widget.getValue()
                if text.strip() != '':
                    out.value = text
                    col += 1
                else:
                    self.progressLabel.setText(
                            '<b>Wrong or missing parameter value: '
                             + out.description + ' (row ' + str(row + 1)
                             + ')</b>')
                    self.algs = None
                    return
            self.algs.append(alg)
            widget = self.table.cellWidget(row, col)
            self.load.append(widget.currentIndex() == 0)

        QApplication.setOverrideCursor(QCursor(Qt.WaitCursor))
        self.table.setEnabled(False)
        self.tabWidget.setCurrentIndex(1)
        self.progress.setMaximum(len(self.algs))
        for (i, alg) in enumerate(self.algs):
            self.setBaseText('Processing algorithm ' + str(i + 1) + '/'
                             + str(len(self.algs)) + '...')
            # make sure the log tab is visible before executing the algorithm
            try:
                self.repaint()
            except:
                pass
            if UnthreadedAlgorithmExecutor.runalg(alg, self) \
                and not self.canceled:
                if self.load[i]:
                    handleAlgorithmResults(alg, self, False)
            else:
                QApplication.restoreOverrideCursor()
                return

        self.finishAll()
Beispiel #7
0
    def executeAlgorithm(self):
        item = self.algorithmTree.currentItem()
        if isinstance(item, TreeAlgorithmItem):
            alg = QgsApplication.processingRegistry().createAlgorithmById(item.alg.id())
            if not alg:
                return

            ok, message = alg.canExecute()
            if not ok:
                dlg = MessageDialog()
                dlg.setTitle(self.tr('Error executing algorithm'))
                dlg.setMessage(
                    self.tr('<h3>This algorithm cannot '
                            'be run :-( </h3>\n{0}').format(message))
                dlg.exec_()
                return

            if alg.countVisibleParameters() > 0:
                dlg = alg.createCustomParametersWidget(self)

                if not dlg:
                    dlg = AlgorithmDialog(alg)
                canvas = iface.mapCanvas()
                prevMapTool = canvas.mapTool()
                dlg.show()
                dlg.exec_()
                if canvas.mapTool() != prevMapTool:
                    try:
                        canvas.mapTool().reset()
                    except:
                        pass
                    canvas.setMapTool(prevMapTool)
                if dlg.executed:
                    showRecent = ProcessingConfig.getSetting(
                        ProcessingConfig.SHOW_RECENT_ALGORITHMS)
                    if showRecent:
                        self.addRecentAlgorithms(True)
                # have to manually delete the dialog - otherwise it's owned by the
                # iface mainWindow and never deleted
                dlg.deleteLater()
            else:
                feedback = MessageBarProgress()
                context = dataobjects.createContext(feedback)
                parameters = {}
                ret, results = execute(alg, parameters, context, feedback)
                handleAlgorithmResults(alg, context, feedback)
                feedback.close()
        if isinstance(item, TreeActionItem):
            action = item.action
            action.setData(self)
            action.execute()
Beispiel #8
0
    def accept(self):
        keepOpen = ProcessingConfig.getSetting(ProcessingConfig.KEEP_DIALOG_OPEN)
        try:
            if self.setParamValues():
                QApplication.setOverrideCursor(QCursor(Qt.WaitCursor))
                ProcessingLog.addToLog(ProcessingLog.LOG_ALGORITHM, self.alg.getAsCommand())

                self.executed = runalg(self.alg, self.feedback)
                if self.executed:
                    handleAlgorithmResults(self.alg, self.feedback, not keepOpen)
                if not keepOpen:
                    QDialog.reject(self)
        finally:
            QApplication.restoreOverrideCursor()
def executeIterating(alg, parameters, paramToIter, context, feedback):
    # Generate all single-feature layers
    parameter_definition = alg.parameterDefinition(paramToIter)
    if not parameter_definition:
        return False

    iter_source = QgsProcessingParameters.parameterAsSource(parameter_definition, parameters, context)
    sink_list = []
    if iter_source.featureCount() == 0:
        return False

    total = 100.0 / iter_source.featureCount()
    for current, feat in enumerate(iter_source.getFeatures()):
        if feedback.isCanceled():
            return False

        sink, sink_id = QgsProcessingUtils.createFeatureSink('memory:', context, iter_source.fields(), iter_source.wkbType(), iter_source.sourceCrs())
        sink_list.append(sink_id)
        sink.addFeature(feat, QgsFeatureSink.FastInsert)
        del sink

        feedback.setProgress(int(current * total))

    # store output values to use them later as basenames for all outputs
    outputs = {}
    for out in alg.destinationParameterDefinitions():
        if out.name() in parameters:
            outputs[out.name()] = parameters[out.name()]

    # now run all the algorithms
    for i, f in enumerate(sink_list):
        if feedback.isCanceled():
            return False

        parameters[paramToIter] = f
        for out in alg.destinationParameterDefinitions():
            if out.name() not in outputs:
                continue

            o = outputs[out.name()]
            parameters[out.name()] = QgsProcessingUtils.generateIteratingDestination(o, i, context)
        feedback.setProgressText(QCoreApplication.translate('AlgorithmExecutor', 'Executing iteration {0}/{1}…').format(i + 1, len(sink_list)))
        feedback.setProgress(i * 100 / len(sink_list))
        ret, results = execute(alg, parameters, context, feedback)
        if not ret:
            return False

    handleAlgorithmResults(alg, context, feedback, False)
    return True
Beispiel #10
0
 def finish(self):
     keepOpen = ProcessingConfig.getSetting(
             ProcessingConfig.KEEP_DIALOG_OPEN)
     if self.iterateParam is None:
         handleAlgorithmResults(self.alg, self, not keepOpen)
     self.executed = True
     self.setInfo('Algorithm %s finished' % self.alg.name)
     QApplication.restoreOverrideCursor()
     if not keepOpen:
         self.close()
     else:
         self.resetGUI()
         if self.alg.getHTMLOutputsCount() > 0:
             self.setInfo('HTML output has been generated by this '
                     + 'algorithm.\nOpen the results dialog to check it.')
Beispiel #11
0
    def finish(self, successful, result, context, feedback):
        keepOpen = not successful or ProcessingConfig.getSetting(ProcessingConfig.KEEP_DIALOG_OPEN)

        if self.iterateParam is None:

            # add html results to results dock
            for out in self.algorithm().outputDefinitions():
                if isinstance(out, QgsProcessingOutputHtml) and out.name() in result and result[out.name()]:
                    resultsList.addResult(icon=self.algorithm().icon(), name=out.description(), timestamp=time.localtime(),
                                          result=result[out.name()])
            if not handleAlgorithmResults(self.algorithm(), context, feedback, not keepOpen, result):
                self.resetGui()
                return

        self.setExecuted(True)
        self.setResults(result)
        self.setInfo(self.tr('Algorithm \'{0}\' finished').format(self.algorithm().displayName()), escapeHtml=False)

        if not keepOpen:
            self.close()
        else:
            self.resetGui()
            if self.algorithm().hasHtmlOutputs():
                self.setInfo(
                    self.tr('HTML output has been generated by this algorithm.'
                            '\nOpen the results dialog to check it.'), escapeHtml=False)
Beispiel #12
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    def finish(self, result, context, feedback):
        keepOpen = ProcessingConfig.getSetting(ProcessingConfig.KEEP_DIALOG_OPEN)

        if self.iterateParam is None:

            # add html results to results dock
            for out in self.alg.outputDefinitions():
                if isinstance(out, QgsProcessingOutputHtml) and out.name() in result and result[out.name()]:
                    resultsList.addResult(icon=self.alg.icon(), name=out.description(),
                                          result=result[out.name()])

            if not handleAlgorithmResults(self.alg, context, feedback, not keepOpen):
                self.resetGUI()
                return

        self.executed = True
        self.setInfo(self.tr('Algorithm \'{0}\' finished').format(self.alg.displayName()), escape_html=False)
        QApplication.restoreOverrideCursor()

        if not keepOpen:
            self.close()
        else:
            self.resetGUI()
            if self.alg.hasHtmlOutputs():
                self.setInfo(
                    self.tr('HTML output has been generated by this algorithm.'
                            '\nOpen the results dialog to check it.'), escape_html=False)
Beispiel #13
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    def accept(self):
        keepOpen = ProcessingConfig.getSetting(ProcessingConfig.KEEP_DIALOG_OPEN)
        parameters = self.getParamValues()
        if parameters:
            with OverrideCursor(Qt.WaitCursor):
                context = dataobjects.createContext()
                ProcessingLog.addToLog(self.alg.asPythonCommand(parameters, context))

                self.executed, results = execute(self.alg, parameters, context, self.feedback)
                if self.executed:
                    handleAlgorithmResults(self.alg,
                                           context,
                                           self.feedback,
                                           not keepOpen)
                if not keepOpen:
                    QDialog.reject(self)
Beispiel #14
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    def executeAlgorithm(self):
        alg = self.algorithmTree.selectedAlgorithm().create() if self.algorithmTree.selectedAlgorithm() is not None else None
        if alg is not None:
            ok, message = alg.canExecute()
            if not ok:
                dlg = MessageDialog()
                dlg.setTitle(self.tr('Error executing algorithm'))
                dlg.setMessage(
                    self.tr('<h3>This algorithm cannot '
                            'be run :-( </h3>\n{0}').format(message))
                dlg.exec_()
                return

            if self.in_place_mode and not [d for d in alg.parameterDefinitions() if d.name() not in ('INPUT', 'OUTPUT')]:
                parameters = {}
                feedback = MessageBarProgress(algname=alg.displayName())
                ok, results = execute_in_place(alg, parameters, feedback=feedback)
                if ok:
                    iface.messageBar().pushSuccess('', self.tr('{} complete').format(alg.displayName()))
                feedback.close()
                # MessageBarProgress handles errors
                return

            if alg.countVisibleParameters() > 0:
                dlg = alg.createCustomParametersWidget(self)

                if not dlg:
                    dlg = AlgorithmDialog(alg, self.in_place_mode, iface.mainWindow())
                dlg.setAttribute(Qt.WA_DeleteOnClose)
                canvas = iface.mapCanvas()
                prevMapTool = canvas.mapTool()
                dlg.show()
                dlg.exec_()
                if canvas.mapTool() != prevMapTool:
                    try:
                        canvas.mapTool().reset()
                    except:
                        pass
                    canvas.setMapTool(prevMapTool)
            else:
                feedback = MessageBarProgress(algname=alg.displayName())
                context = dataobjects.createContext(feedback)
                parameters = {}
                ret, results = execute(alg, parameters, context, feedback)
                handleAlgorithmResults(alg, context, feedback)
                feedback.close()
Beispiel #15
0
 def executeAlgorithm(self):
     item = self.algorithmTree.currentItem()
     if isinstance(item, TreeAlgorithmItem):
         alg = Processing.getAlgorithm(item.alg.commandLineName())
         message = alg.checkBeforeOpeningParametersDialog()
         if message:
             dlg = MessageDialog()
             dlg.setTitle(self.tr('Error executing algorithm'))
             dlg.setMessage(
                 self.tr('<h3>This algorithm cannot '
                         'be run :-( </h3>\n%s') % message)
             dlg.exec_()
             return
         alg = alg.getCopy()
         if (alg.getVisibleParametersCount() + alg.getVisibleOutputsCount()) > 0:
             dlg = alg.getCustomParametersDialog()
             if not dlg:
                 dlg = AlgorithmDialog(alg)
             canvas = iface.mapCanvas()
             prevMapTool = canvas.mapTool()
             dlg.show()
             dlg.exec_()
             if canvas.mapTool() != prevMapTool:
                 try:
                     canvas.mapTool().reset()
                 except:
                     pass
                 canvas.setMapTool(prevMapTool)
             if dlg.executed:
                 showRecent = ProcessingConfig.getSetting(
                     ProcessingConfig.SHOW_RECENT_ALGORITHMS)
                 if showRecent:
                     self.addRecentAlgorithms(True)
         else:
             progress = MessageBarProgress()
             runalg(alg, progress)
             handleAlgorithmResults(alg, progress)
             progress.close()
     if isinstance(item, TreeActionItem):
         action = item.action
         action.setData(self)
         action.execute()
Beispiel #16
0
def _executeAlgorithm(alg_id):
    alg = QgsApplication.processingRegistry().createAlgorithmById(alg_id)
    if alg is None:
        dlg = MessageDialog()
        dlg.setTitle(Processing.tr('Missing Algorithm'))
        dlg.setMessage(
            Processing.tr('The algorithm "{}" is no longer available. (Perhaps a plugin was uninstalled?)').format(alg_id))
        dlg.exec_()
        return

    ok, message = alg.canExecute()
    if not ok:
        dlg = MessageDialog()
        dlg.setTitle(Processing.tr('Missing Dependency'))
        dlg.setMessage(
            Processing.tr('<h3>Missing dependency. This algorithm cannot '
                          'be run :-( </h3>\n{0}').format(message))
        dlg.exec_()
        return

    if (alg.countVisibleParameters()) > 0:
        dlg = alg.createCustomParametersWidget(parent=iface.mainWindow())
        if not dlg:
            dlg = AlgorithmDialog(alg, parent=iface.mainWindow())
        canvas = iface.mapCanvas()
        prevMapTool = canvas.mapTool()
        dlg.show()
        dlg.exec_()
        if canvas.mapTool() != prevMapTool:
            try:
                canvas.mapTool().reset()
            except:
                pass
            canvas.setMapTool(prevMapTool)
    else:
        feedback = MessageBarProgress()
        context = dataobjects.createContext(feedback)
        parameters = {}
        ret, results = execute(alg, parameters, context, feedback)
        handleAlgorithmResults(alg, context, feedback)
        feedback.close()
    def runalgIterating(alg, paramToIter, progress):
        # Generate all single-feature layers
        settings = QSettings()
        systemEncoding = settings.value('/UI/encoding', 'System')
        layerfile = alg.getParameterValue(paramToIter)
        layer = dataobjects.getObjectFromUri(layerfile, False)
        feat = QgsFeature()
        filelist = []
        outputs = {}
        provider = layer.dataProvider()
        features = vector.features(layer)
        for feat in features:
            output = getTempFilename('shp')
            filelist.append(output)
            writer = QgsVectorFileWriter(output, systemEncoding,
                    provider.fields(), provider.geometryType(), layer.crs())
            writer.addFeature(feat)
            del writer

        # store output values to use them later as basenames for all outputs
        for out in alg.outputs:
            outputs[out.name] = out.value

        # now run all the algorithms        
        for i,f in enumerate(filelist):
            alg.setParameterValue(paramToIter, f)
            for out in alg.outputs:
                filename = outputs[out.name]
                if filename:
                    filename = filename[:filename.rfind('.')] + '_' + str(i) \
                        + filename[filename.rfind('.'):]
                out.value = filename
            progress.setText('Executing iteration ' + str(i) + '/'
                             + str(len(filelist)) + '...')
            progress.setPercentage(i * 100 / len(filelist))
            if UnthreadedAlgorithmExecutor.runalg(alg, SilentProgress()):
                handleAlgorithmResults(alg, SilentProgress(), False)                 
            else:
                return False

        return True
Beispiel #18
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    def accept(self):
        keepOpen = ProcessingConfig.getSetting(ProcessingConfig.KEEP_DIALOG_OPEN)
        parameters = self.getParamValues()
        if parameters:
            with OverrideCursor(Qt.WaitCursor):
                self.feedback = FieldCalculatorFeedback(self)
                self.feedback.progressChanged.connect(self.setPercentage)

                context = dataobjects.createContext()
                ProcessingLog.addToLog(self.alg.asPythonCommand(parameters, context))

                self.executed, results = execute(self.alg, parameters, context, self.feedback)
                self.setPercentage(0)

                if self.executed:
                    handleAlgorithmResults(self.alg,
                                           context,
                                           self.feedback,
                                           not keepOpen)
                self._wasExecuted = self.executed or self._wasExecuted
                if not keepOpen:
                    QDialog.reject(self)
    def accept(self):
        keepOpen = ProcessingConfig.getSetting(ProcessingConfig.KEEP_DIALOG_OPEN)
        try:
            if self.setParamValues():
                QApplication.setOverrideCursor(QCursor(Qt.WaitCursor))
                ProcessingLog.addToLog(ProcessingLog.LOG_ALGORITHM,
                                     self.alg.getAsCommand())

                self.executed =  runalg(self.alg, self)
                if self.executed:
                    handleAlgorithmResults(self.alg,
                                           self,
                                           not keepOpen)
                if not keepOpen:
                    QDialog.reject(self)
            else:
                QMessageBox.critical(self,
                                     self.tr('Unable to execute algorithm'),
                                     self.tr('Wrong or missing parameter '
                                             'values'))
        finally:
            QApplication.restoreOverrideCursor()
Beispiel #20
0
def runalgIterating(alg, paramToIter, feedback):
    # Generate all single-feature layers
    settings = QSettings()
    systemEncoding = settings.value('/UI/encoding', 'System')
    layerfile = alg.getParameterValue(paramToIter)
    layer = dataobjects.getObjectFromUri(layerfile, False)
    feat = QgsFeature()
    filelist = []
    outputs = {}
    features = vector.features(layer)
    for feat in features:
        output = getTempFilename('shp')
        filelist.append(output)
        writer = QgsVectorFileWriter(output, systemEncoding,
                                     layer.fields(), layer.wkbType(), layer.crs())
        writer.addFeature(feat)
        del writer

    # store output values to use them later as basenames for all outputs
    for out in alg.outputs:
        outputs[out.name] = out.value

    # now run all the algorithms
    for i, f in enumerate(filelist):
        alg.setParameterValue(paramToIter, f)
        for out in alg.outputs:
            filename = outputs[out.name]
            if filename:
                filename = filename[:filename.rfind('.')] + '_' + str(i) \
                    + filename[filename.rfind('.'):]
            out.value = filename
        feedback.setProgressText(tr('Executing iteration %s/%s...' % (str(i), str(len(filelist)))))
        feedback.setProgress(i * 100 / len(filelist))
        if runalg(alg, feedback):
            handleAlgorithmResults(alg, None, False)
        else:
            return False

    return True
Beispiel #21
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    def finish(self, result, context, feedback):
        keepOpen = ProcessingConfig.getSetting(ProcessingConfig.KEEP_DIALOG_OPEN)

        if self.iterateParam is None:

            if not handleAlgorithmResults(self.alg, context, feedback, not keepOpen):
                self.resetGUI()
                return

        self.executed = True
        self.setInfo(self.tr('Algorithm \'{0}\' finished').format(self.alg.displayName()), escape_html=False)
        QApplication.restoreOverrideCursor()

        if not keepOpen:
            self.close()
        else:
            self.resetGUI()
            if self.alg.hasHtmlOutputs():
                self.setInfo(
                    self.tr('HTML output has been generated by this algorithm.'
                            '\nOpen the results dialog to check it.'), escape_html=False)
Beispiel #22
0
    def accept(self):
        self.algs = []
        self.load = []
        self.canceled = False

        for row in range(self.mainWidget.tblParameters.rowCount()):
            alg = self.alg.getCopy()
            col = 0
            for param in alg.parameters:
                if param.hidden:
                    continue
                wrapper = self.mainWidget.wrappers[row][col]
                if not self.mainWidget.setParamValue(param, wrapper, alg):
                    self.bar.pushMessage("", self.tr('Wrong or missing parameter value: {0} (row {1})').format(
                                         param.description, row + 1),
                                         level=QgsMessageBar.WARNING, duration=5)
                    self.algs = None
                    return
                col += 1
            for out in alg.outputs:
                if out.hidden:
                    continue

                widget = self.mainWidget.tblParameters.cellWidget(row, col)
                text = widget.getValue()
                if text.strip() != '':
                    out.value = text
                    col += 1
                else:
                    self.bar.pushMessage("", self.tr('Wrong or missing output value: {0} (row {1})').format(
                                         out.description, row + 1),
                                         level=QgsMessageBar.WARNING, duration=5)
                    self.algs = None
                    return

            self.algs.append(alg)
            if self.alg.getVisibleOutputsCount():
                widget = self.mainWidget.tblParameters.cellWidget(row, col)
                self.load.append(widget.currentIndex() == 0)
            else:
                self.load.append(False)

        QApplication.setOverrideCursor(QCursor(Qt.WaitCursor))
        self.mainWidget.setEnabled(False)

        self.progressBar.setMaximum(len(self.algs))
        # Make sure the Log tab is visible before executing the algorithm
        try:
            self.tabWidget.setCurrentIndex(1)
            self.repaint()
        except:
            pass

        for count, alg in enumerate(self.algs):
            self.setText(self.tr('\nProcessing algorithm {0}/{1}...').format(count + 1, len(self.algs)))
            self.setInfo(self.tr('<b>Algorithm {0} starting...</b>').format(alg.name))
            if runalg(alg, self.feedback) and not self.canceled:
                if self.load[count]:
                    handleAlgorithmResults(alg, self.feedback, False)
                self.setInfo(self.tr('Algorithm {0} correctly executed...').format(alg.name))
            else:
                QApplication.restoreOverrideCursor()
                return

        self.finish()
Beispiel #23
0
    def runAlgorithm(self):
        alg_parameters = []

        feedback = self.createFeedback()

        load_layers = self.mainWidget().checkLoadLayersOnCompletion.isChecked()
        project = QgsProject.instance() if load_layers else None

        for row in range(self.mainWidget().tblParameters.rowCount()):
            col = 0
            parameters = {}
            for param in self.algorithm().parameterDefinitions():
                if param.flags(
                ) & QgsProcessingParameterDefinition.FlagHidden or param.isDestination(
                ):
                    continue
                wrapper = self.mainWidget().wrappers[row][col]
                parameters[param.name()] = wrapper.parameterValue()
                if not param.checkValueIsAcceptable(wrapper.parameterValue()):
                    self.messageBar().pushMessage(
                        "",
                        self.tr(
                            'Wrong or missing parameter value: {0} (row {1})').
                        format(param.description(), row + 1),
                        level=Qgis.Warning,
                        duration=5)
                    return
                col += 1
            count_visible_outputs = 0
            for out in self.algorithm().destinationParameterDefinitions():
                if out.flags() & QgsProcessingParameterDefinition.FlagHidden:
                    continue

                count_visible_outputs += 1
                widget = self.mainWidget().tblParameters.cellWidget(row, col)
                text = widget.getValue()
                if out.checkValueIsAcceptable(text):
                    if isinstance(out,
                                  (QgsProcessingParameterRasterDestination,
                                   QgsProcessingParameterVectorDestination,
                                   QgsProcessingParameterFeatureSink)):
                        # load rasters and sinks on completion
                        parameters[
                            out.name()] = QgsProcessingOutputLayerDefinition(
                                text, project)
                    else:
                        parameters[out.name()] = text
                    col += 1
                else:
                    self.messageBar().pushMessage(
                        "",
                        self.tr('Wrong or missing output value: {0} (row {1})'
                                ).format(out.description(), row + 1),
                        level=Qgis.Warning,
                        duration=5)
                    return

            alg_parameters.append(parameters)

        task = QgsScopedProxyProgressTask(
            self.tr('Batch Processing - {0}').format(
                self.algorithm().displayName()))
        multi_feedback = QgsProcessingMultiStepFeedback(
            len(alg_parameters), feedback)
        feedback.progressChanged.connect(task.setProgress)

        with OverrideCursor(Qt.WaitCursor):

            self.mainWidget().setEnabled(False)
            self.cancelButton().setEnabled(True)

            # Make sure the Log tab is visible before executing the algorithm
            try:
                self.showLog()
                self.repaint()
            except:
                pass

            start_time = time.time()

            algorithm_results = []
            for count, parameters in enumerate(alg_parameters):
                if feedback.isCanceled():
                    break
                self.setProgressText(
                    QCoreApplication.translate(
                        'BatchAlgorithmDialog',
                        '\nProcessing algorithm {0}/{1}…').format(
                            count + 1, len(alg_parameters)))
                self.setInfo(
                    self.tr('<b>Algorithm {0} starting&hellip;</b>').format(
                        self.algorithm().displayName()),
                    escapeHtml=False)
                multi_feedback.setCurrentStep(count)

                parameters = self.algorithm().preprocessParameters(parameters)

                feedback.pushInfo(self.tr('Input parameters:'))
                feedback.pushCommandInfo(pformat(parameters))
                feedback.pushInfo('')

                # important - we create a new context for each iteration
                # this avoids holding onto resources and layers from earlier iterations,
                # and allows batch processing of many more items then is possible
                # if we hold on to these layers
                context = dataobjects.createContext(feedback)

                alg_start_time = time.time()
                ret, results = execute(self.algorithm(), parameters, context,
                                       multi_feedback)
                if ret:
                    self.setInfo(QCoreApplication.translate(
                        'BatchAlgorithmDialog',
                        'Algorithm {0} correctly executed…').format(
                            self.algorithm().displayName()),
                                 escapeHtml=False)
                    feedback.pushInfo(
                        self.tr(
                            'Execution completed in {0:0.2f} seconds'.format(
                                time.time() - alg_start_time)))
                    feedback.pushInfo(self.tr('Results:'))
                    feedback.pushCommandInfo(pformat(results))
                    feedback.pushInfo('')
                    algorithm_results.append(results)
                else:
                    break

                handleAlgorithmResults(self.algorithm(), context,
                                       multi_feedback, False)

        feedback.pushInfo(
            self.tr('Batch execution completed in {0:0.2f} seconds'.format(
                time.time() - start_time)))
        task = None

        self.finish(algorithm_results)
        self.cancelButton().setEnabled(False)
Beispiel #24
0
    def runAlgorithm(self):
        alg_parameters = []

        feedback = self.createFeedback()

        load_layers = self.mainWidget().checkLoadLayersOnCompletion.isChecked()
        project = QgsProject.instance() if load_layers else None

        for row in range(self.mainWidget().tblParameters.rowCount()):
            col = 0
            parameters = {}
            for param in self.algorithm().parameterDefinitions():
                if param.flags() & QgsProcessingParameterDefinition.FlagHidden or param.isDestination():
                    continue
                wrapper = self.mainWidget().wrappers[row][col]
                parameters[param.name()] = wrapper.parameterValue()
                if not param.checkValueIsAcceptable(wrapper.parameterValue()):
                    self.messageBar().pushMessage("", self.tr('Wrong or missing parameter value: {0} (row {1})').format(
                        param.description(), row + 1),
                        level=Qgis.Warning, duration=5)
                    return
                col += 1
            count_visible_outputs = 0
            for out in self.algorithm().destinationParameterDefinitions():
                if out.flags() & QgsProcessingParameterDefinition.FlagHidden:
                    continue

                count_visible_outputs += 1
                widget = self.mainWidget().tblParameters.cellWidget(row, col)
                text = widget.getValue()
                if out.checkValueIsAcceptable(text):
                    if isinstance(out, (QgsProcessingParameterRasterDestination,
                                        QgsProcessingParameterVectorDestination,
                                        QgsProcessingParameterFeatureSink)):
                        # load rasters and sinks on completion
                        parameters[out.name()] = QgsProcessingOutputLayerDefinition(text, project)
                    else:
                        parameters[out.name()] = text
                    col += 1
                else:
                    self.messageBar().pushMessage("", self.tr('Wrong or missing output value: {0} (row {1})').format(
                        out.description(), row + 1),
                        level=Qgis.Warning, duration=5)
                    return

            alg_parameters.append(parameters)

        task = QgsScopedProxyProgressTask(self.tr('Batch Processing - {0}').format(self.algorithm().displayName()))
        multi_feedback = QgsProcessingMultiStepFeedback(len(alg_parameters), feedback)
        feedback.progressChanged.connect(task.setProgress)

        with OverrideCursor(Qt.WaitCursor):

            self.mainWidget().setEnabled(False)
            self.cancelButton().setEnabled(True)

            # Make sure the Log tab is visible before executing the algorithm
            try:
                self.showLog()
                self.repaint()
            except:
                pass

            start_time = time.time()

            algorithm_results = []
            for count, parameters in enumerate(alg_parameters):
                if feedback.isCanceled():
                    break
                self.setProgressText(QCoreApplication.translate('BatchAlgorithmDialog', '\nProcessing algorithm {0}/{1}…').format(count + 1, len(alg_parameters)))
                self.setInfo(self.tr('<b>Algorithm {0} starting&hellip;</b>').format(self.algorithm().displayName()), escapeHtml=False)
                multi_feedback.setCurrentStep(count)

                parameters = self.algorithm().preprocessParameters(parameters)

                feedback.pushInfo(self.tr('Input parameters:'))
                feedback.pushCommandInfo(pformat(parameters))
                feedback.pushInfo('')

                # important - we create a new context for each iteration
                # this avoids holding onto resources and layers from earlier iterations,
                # and allows batch processing of many more items then is possible
                # if we hold on to these layers
                context = dataobjects.createContext(feedback)

                alg_start_time = time.time()
                ret, results = execute(self.algorithm(), parameters, context, multi_feedback)
                if ret:
                    self.setInfo(QCoreApplication.translate('BatchAlgorithmDialog', 'Algorithm {0} correctly executed…').format(self.algorithm().displayName()), escapeHtml=False)
                    feedback.pushInfo(
                        self.tr('Execution completed in {0:0.2f} seconds'.format(time.time() - alg_start_time)))
                    feedback.pushInfo(self.tr('Results:'))
                    feedback.pushCommandInfo(pformat(results))
                    feedback.pushInfo('')
                    algorithm_results.append(results)
                else:
                    break

                handleAlgorithmResults(self.algorithm(), context, multi_feedback, False)

        feedback.pushInfo(self.tr('Batch execution completed in {0:0.2f} seconds'.format(time.time() - start_time)))
        task = None

        self.finish(algorithm_results)
        self.cancelButton().setEnabled(False)
Beispiel #25
0
    def accept(self):
        self.algs = []
        self.load = []
        self.canceled = False

        for row in range(self.mainWidget.tblParameters.rowCount()):
            alg = self.alg.getCopy()
            col = 0
            for param in alg.parameters:
                if param.hidden:
                    continue
                wrapper = self.mainWidget.wrappers[row][col]
                if not self.mainWidget.setParamValue(param, wrapper, alg):
                    self.bar.pushMessage("", self.tr('Wrong or missing parameter value: %s (row %d)')
                                         % (param.description, row + 1),
                                         level=QgsMessageBar.WARNING, duration=5)
                    self.algs = None
                    return
                col += 1
            for out in alg.outputs:
                if out.hidden:
                    continue

                widget = self.mainWidget.tblParameters.cellWidget(row, col)
                text = widget.getValue()
                if text.strip() != '':
                    out.value = text
                    col += 1
                else:
                    self.bar.pushMessage("", self.tr('Wrong or missing output value: %s (row %d)')
                                         % (out.description, row + 1),
                                         level=QgsMessageBar.WARNING, duration=5)
                    self.algs = None
                    return

            self.algs.append(alg)
            if self.alg.getVisibleOutputsCount():
                widget = self.mainWidget.tblParameters.cellWidget(row, col)
                self.load.append(widget.currentIndex() == 0)
            else:
                self.load.append(False)

        QApplication.setOverrideCursor(QCursor(Qt.WaitCursor))
        self.mainWidget.setEnabled(False)

        self.progressBar.setMaximum(len(self.algs))
        # Make sure the Log tab is visible before executing the algorithm
        try:
            self.tabWidget.setCurrentIndex(1)
            self.repaint()
        except:
            pass

        for count, alg in enumerate(self.algs):
            self.setText(self.tr('\nProcessing algorithm %d/%d...') % (count + 1, len(self.algs)))
            self.setInfo(self.tr('<b>Algorithm %s starting...</b>' % alg.name))
            if runalg(alg, self) and not self.canceled:
                if self.load[count]:
                    handleAlgorithmResults(alg, self, False)
                self.setInfo(self.tr('Algorithm %s correctly executed...') % alg.name)
            else:
                QApplication.restoreOverrideCursor()
                return

        self.finish()
Beispiel #26
0
    def runAlgorithm(self):
        alg_parameters = []

        feedback = self.createFeedback()

        load_layers = self.mainWidget().checkLoadLayersOnCompletion.isChecked()
        project = QgsProject.instance() if load_layers else None

        for row in range(self.mainWidget().batchRowCount()):
            parameters = self.mainWidget().parametersForRow(
                row, destinationProject=project, warnOnInvalid=True)
            alg_parameters.append(parameters)

        task = QgsScopedProxyProgressTask(
            self.tr('Batch Processing - {0}').format(
                self.algorithm().displayName()))
        multi_feedback = QgsProcessingMultiStepFeedback(
            len(alg_parameters), feedback)
        feedback.progressChanged.connect(task.setProgress)

        with OverrideCursor(Qt.WaitCursor):

            self.mainWidget().setEnabled(False)
            self.cancelButton().setEnabled(True)

            # Make sure the Log tab is visible before executing the algorithm
            try:
                self.showLog()
                self.repaint()
            except Exception:  # FIXME which one?
                pass

            start_time = time.time()

            algorithm_results = []
            for count, parameters in enumerate(alg_parameters):
                if feedback.isCanceled():
                    break
                self.setProgressText(
                    QCoreApplication.translate(
                        'BatchAlgorithmDialog',
                        '\nProcessing algorithm {0}/{1}…').format(
                            count + 1, len(alg_parameters)))
                self.setInfo(
                    self.tr('<b>Algorithm {0} starting&hellip;</b>').format(
                        self.algorithm().displayName()),
                    escapeHtml=False)
                multi_feedback.setCurrentStep(count)

                parameters = self.algorithm().preprocessParameters(parameters)

                feedback.pushInfo(self.tr('Input parameters:'))
                feedback.pushCommandInfo(pformat(parameters))
                feedback.pushInfo('')

                # important - we create a new context for each iteration
                # this avoids holding onto resources and layers from earlier iterations,
                # and allows batch processing of many more items then is possible
                # if we hold on to these layers
                context = dataobjects.createContext(feedback)

                alg_start_time = time.time()
                ret, results = execute(self.algorithm(), parameters, context,
                                       multi_feedback)
                if ret:
                    self.setInfo(QCoreApplication.translate(
                        'BatchAlgorithmDialog',
                        'Algorithm {0} correctly executed…').format(
                            self.algorithm().displayName()),
                                 escapeHtml=False)
                    feedback.pushInfo(
                        self.tr(
                            'Execution completed in {0:0.2f} seconds'.format(
                                time.time() - alg_start_time)))
                    feedback.pushInfo(self.tr('Results:'))
                    feedback.pushCommandInfo(pformat(results))
                    feedback.pushInfo('')
                    algorithm_results.append(results)
                else:
                    break

                handleAlgorithmResults(self.algorithm(), context,
                                       multi_feedback, False, parameters)

        feedback.pushInfo(
            self.tr('Batch execution completed in {0:0.2f} seconds'.format(
                time.time() - start_time)))
        task = None

        self.finish(algorithm_results)
        self.cancelButton().setEnabled(False)
Beispiel #27
0
    def runAlgorithm(self):
        alg_parameters = []

        feedback = self.createFeedback()

        load_layers = self.mainWidget().checkLoadLayersOnCompletion.isChecked()
        project = QgsProject.instance() if load_layers else None

        for row in range(self.mainWidget().batchRowCount()):
            parameters = self.mainWidget().parametersForRow(row, destinationProject=project, warnOnInvalid=True)
            alg_parameters.append(parameters)

        task = QgsScopedProxyProgressTask(self.tr('Batch Processing - {0}').format(self.algorithm().displayName()))
        multi_feedback = QgsProcessingMultiStepFeedback(len(alg_parameters), feedback)
        feedback.progressChanged.connect(task.setProgress)

        with OverrideCursor(Qt.WaitCursor):

            self.mainWidget().setEnabled(False)
            self.cancelButton().setEnabled(True)

            # Make sure the Log tab is visible before executing the algorithm
            try:
                self.showLog()
                self.repaint()
            except:
                pass

            start_time = time.time()

            algorithm_results = []
            for count, parameters in enumerate(alg_parameters):
                if feedback.isCanceled():
                    break
                self.setProgressText(
                    QCoreApplication.translate('BatchAlgorithmDialog', '\nProcessing algorithm {0}/{1}…').format(
                        count + 1, len(alg_parameters)))
                self.setInfo(self.tr('<b>Algorithm {0} starting&hellip;</b>').format(self.algorithm().displayName()),
                             escapeHtml=False)
                multi_feedback.setCurrentStep(count)

                parameters = self.algorithm().preprocessParameters(parameters)

                feedback.pushInfo(self.tr('Input parameters:'))
                feedback.pushCommandInfo(pformat(parameters))
                feedback.pushInfo('')

                # important - we create a new context for each iteration
                # this avoids holding onto resources and layers from earlier iterations,
                # and allows batch processing of many more items then is possible
                # if we hold on to these layers
                context = dataobjects.createContext(feedback)

                alg_start_time = time.time()
                ret, results = execute(self.algorithm(), parameters, context, multi_feedback)
                if ret:
                    self.setInfo(
                        QCoreApplication.translate('BatchAlgorithmDialog', 'Algorithm {0} correctly executed…').format(
                            self.algorithm().displayName()), escapeHtml=False)
                    feedback.pushInfo(
                        self.tr('Execution completed in {0:0.2f} seconds'.format(time.time() - alg_start_time)))
                    feedback.pushInfo(self.tr('Results:'))
                    feedback.pushCommandInfo(pformat(results))
                    feedback.pushInfo('')
                    algorithm_results.append(results)
                else:
                    break

                handleAlgorithmResults(self.algorithm(), context, multi_feedback, False, parameters)

        feedback.pushInfo(self.tr('Batch execution completed in {0:0.2f} seconds'.format(time.time() - start_time)))
        task = None

        self.finish(algorithm_results)
        self.cancelButton().setEnabled(False)
Beispiel #28
0
    def accept(self):
        self.algs = []
        self.load = []
        self.canceled = False

        for row in range(self.mainWidget.tblParameters.rowCount()):
            alg = self.alg.getCopy()
            col = 0
            for param in alg.parameters:
                if param.hidden:
                    continue
                if isinstance(param, ParameterExtent):
                    col += 1
                    continue
                widget = self.mainWidget.tblParameters.cellWidget(row, col)
                if not self.mainWidget.setParamValue(param, widget, alg):
                    self.lblProgress.setText(
                        self.tr('<b>Missing parameter value: %s (row %d)</b>')
                        % (param.description, row + 1))
                    self.algs = None
                    return
                col += 1
            col = 0
            for param in alg.parameters:
                if param.hidden:
                    continue
                if isinstance(param, ParameterExtent):
                    widget = self.mainWidget.tblParameters.cellWidget(row, col)
                    if not self.mainWidget.setParamValue(param, widget, alg):
                        self.lblProgress.setText(
                            self.
                            tr('<b>Missing parameter value: %s (row %d)</b>') %
                            (param.description, row + 1))
                        self.algs = None
                        return
                col += 1
            for out in alg.outputs:
                if out.hidden:
                    continue

                widget = self.mainWidget.tblParameters.cellWidget(row, col)
                text = widget.getValue()
                if text.strip() != '':
                    out.value = text
                    col += 1
                else:
                    self.lblProgress.setText(
                        self.
                        tr('<b>Wrong or missing parameter value: %s (row %d)</b>'
                           ) % (out.description, row + 1))
                    self.algs = None
                    return

            self.algs.append(alg)
            if self.alg.getVisibleOutputsCount():
                widget = self.mainWidget.tblParameters.cellWidget(row, col)
                self.load.append(widget.currentIndex() == 0)
            else:
                self.load.append(False)

        QApplication.setOverrideCursor(QCursor(Qt.WaitCursor))
        self.mainWidget.setEnabled(False)

        self.progressBar.setMaximum(len(self.algs))
        # Make sure the Log tab is visible before executing the algorithm
        try:
            self.tabWidget.setCurrentIndex(1)
            self.repaint()
        except:
            pass

        for count, alg in enumerate(self.algs):
            self.setText(
                self.tr('\nProcessing algorithm %d/%d...') %
                (count + 1, len(self.algs)))
            self.setInfo(self.tr('<b>Algorithm %s starting...</b>' % alg.name))
            if runalg(alg, self) and not self.canceled:
                if self.load[count]:
                    handleAlgorithmResults(alg, self, False)
                self.setInfo(
                    self.tr('Algorithm %s correctly executed...') % alg.name)
            else:
                QApplication.restoreOverrideCursor()
                return

        self.finish()
Beispiel #29
0
    def accept(self):
        alg_parameters = []
        load = []

        feedback = self.createFeedback()
        context = dataobjects.createContext(feedback)

        for row in range(self.mainWidget.tblParameters.rowCount()):
            col = 0
            parameters = {}
            for param in self.alg.parameterDefinitions():
                if param.flags(
                ) & QgsProcessingParameterDefinition.FlagHidden or param.isDestination(
                ):
                    continue
                wrapper = self.mainWidget.wrappers[row][col]
                parameters[param.name()] = wrapper.value()
                if not param.checkValueIsAcceptable(wrapper.value(), context):
                    self.bar.pushMessage(
                        "",
                        self.tr(
                            'Wrong or missing parameter value: {0} (row {1})').
                        format(param.description(), row + 1),
                        level=QgsMessageBar.WARNING,
                        duration=5)
                    return
                col += 1
            count_visible_outputs = 0
            for out in self.alg.destinationParameterDefinitions():
                if out.flags() & QgsProcessingParameterDefinition.FlagHidden:
                    continue

                count_visible_outputs += 1
                widget = self.mainWidget.tblParameters.cellWidget(row, col)
                text = widget.getValue()
                if param.checkValueIsAcceptable(text, context):
                    if isinstance(out,
                                  (QgsProcessingParameterRasterDestination,
                                   QgsProcessingParameterFeatureSink)):
                        # load rasters and sinks on completion
                        parameters[
                            out.name()] = QgsProcessingOutputLayerDefinition(
                                text, context.project())
                    else:
                        parameters[out.name()] = text
                    col += 1
                else:
                    self.bar.pushMessage(
                        "",
                        self.tr('Wrong or missing output value: {0} (row {1})'
                                ).format(out.description(), row + 1),
                        level=QgsMessageBar.WARNING,
                        duration=5)
                    return

            alg_parameters.append(parameters)

        QApplication.setOverrideCursor(QCursor(Qt.WaitCursor))
        self.mainWidget.setEnabled(False)
        self.buttonCancel.setEnabled(True)

        # Make sure the Log tab is visible before executing the algorithm
        try:
            self.tabWidget.setCurrentIndex(1)
            self.repaint()
        except:
            pass

        start_time = time.time()

        algorithm_results = []
        for count, parameters in enumerate(alg_parameters):
            if feedback.isCanceled():
                break
            self.setText(
                self.tr('\nProcessing algorithm {0}/{1}...').format(
                    count + 1, len(alg_parameters)))
            self.setInfo(self.tr('<b>Algorithm {0} starting...</b>').format(
                self.alg.displayName()),
                         escape_html=False)

            feedback.pushInfo(self.tr('Input parameters:'))
            feedback.pushCommandInfo(pformat(parameters))
            feedback.pushInfo('')

            alg_start_time = time.time()
            ret, results = execute(self.alg, parameters, context, feedback)
            if ret:
                self.setInfo(
                    self.tr('Algorithm {0} correctly executed...').format(
                        self.alg.displayName()),
                    escape_html=False)
                feedback.setProgress(100)
                feedback.pushInfo(
                    self.tr('Execution completed in {0:0.2f} seconds'.format(
                        time.time() - alg_start_time)))
                feedback.pushInfo(self.tr('Results:'))
                feedback.pushCommandInfo(pformat(results))
                feedback.pushInfo('')
                algorithm_results.append(results)
            else:
                break

        feedback.pushInfo(
            self.tr('Batch execution completed in {0:0.2f} seconds'.format(
                time.time() - start_time)))

        handleAlgorithmResults(self.alg, context, feedback, False)

        self.finish(algorithm_results)
        self.buttonCancel.setEnabled(False)
Beispiel #30
0
    def accept(self):
        alg_parameters = []
        load = []

        feedback = self.createFeedback()
        context = dataobjects.createContext(feedback)

        for row in range(self.mainWidget.tblParameters.rowCount()):
            col = 0
            parameters = {}
            for param in self.alg.parameterDefinitions():
                if param.flags() & QgsProcessingParameterDefinition.FlagHidden or param.isDestination():
                    continue
                wrapper = self.mainWidget.wrappers[row][col]
                parameters[param.name()] = wrapper.value()
                if not param.checkValueIsAcceptable(wrapper.value(), context):
                    self.bar.pushMessage("", self.tr('Wrong or missing parameter value: {0} (row {1})').format(
                                         param.description(), row + 1),
                                         level=QgsMessageBar.WARNING, duration=5)
                    return
                col += 1
            count_visible_outputs = 0
            for out in self.alg.destinationParameterDefinitions():
                if out.flags() & QgsProcessingParameterDefinition.FlagHidden:
                    continue

                count_visible_outputs += 1
                widget = self.mainWidget.tblParameters.cellWidget(row, col)
                text = widget.getValue()
                if param.checkValueIsAcceptable(text, context):
                    if isinstance(out, (QgsProcessingParameterRasterDestination,
                                        QgsProcessingParameterFeatureSink)):
                        # load rasters and sinks on completion
                        parameters[out.name()] = QgsProcessingOutputLayerDefinition(text, context.project())
                    else:
                        parameters[out.name()] = text
                    col += 1
                else:
                    self.bar.pushMessage("", self.tr('Wrong or missing output value: {0} (row {1})').format(
                                         out.description(), row + 1),
                                         level=QgsMessageBar.WARNING, duration=5)
                    return

            alg_parameters.append(parameters)

        QApplication.setOverrideCursor(QCursor(Qt.WaitCursor))
        self.mainWidget.setEnabled(False)
        self.buttonCancel.setEnabled(True)

        # Make sure the Log tab is visible before executing the algorithm
        try:
            self.tabWidget.setCurrentIndex(1)
            self.repaint()
        except:
            pass

        start_time = time.time()

        algorithm_results = []
        for count, parameters in enumerate(alg_parameters):
            if feedback.isCanceled():
                break
            self.setText(self.tr('\nProcessing algorithm {0}/{1}...').format(count + 1, len(alg_parameters)))
            self.setInfo(self.tr('<b>Algorithm {0} starting...</b>').format(self.alg.displayName()), escape_html=False)

            feedback.pushInfo(self.tr('Input parameters:'))
            feedback.pushCommandInfo(pformat(parameters))
            feedback.pushInfo('')

            alg_start_time = time.time()
            ret, results = execute(self.alg, parameters, context, feedback)
            if ret:
                self.setInfo(self.tr('Algorithm {0} correctly executed...').format(self.alg.displayName()), escape_html=False)
                feedback.setProgress(100)
                feedback.pushInfo(
                    self.tr('Execution completed in {0:0.2f} seconds'.format(time.time() - alg_start_time)))
                feedback.pushInfo(self.tr('Results:'))
                feedback.pushCommandInfo(pformat(results))
                feedback.pushInfo('')
                algorithm_results.append(results)
            else:
                break

        feedback.pushInfo(self.tr('Batch execution completed in {0:0.2f} seconds'.format(time.time() - start_time)))

        handleAlgorithmResults(self.alg, context, feedback, False)

        self.finish(algorithm_results)
        self.buttonCancel.setEnabled(False)