# -*- coding: utf-8 -*- """ *************************************************************************** NumberInputPanel.py --------------------- Date : August 2012 Copyright : (C) 2012 by Victor Olaya Email : volayaf at gmail dot com *************************************************************************** * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * *************************************************************************** """ __author__ = 'Victor Olaya' __date__ = 'August 2012' __copyright__ = '(C) 2012, Victor Olaya' # This will get replaced with a git SHA1 when you do a git archive __revision__ = '$Format:%H$' import os from qgis.PyQt import uic from qgis.PyQt.QtCore import pyqtSignal from qgis.PyQt.QtWidgets import QDialog from math import log10, floor from qgis.core import (QgsDataSourceURI, QgsCredentials, QgsExpressionContext, QgsExpressionContextUtils, QgsExpression, QgsRasterLayer, QgsExpressionContextScope) from qgis.gui import QgsEncodingFileDialog, QgsExpressionBuilderDialog from qgis.utils import iface from processing.tools import dataobjects pluginPath = os.path.split(os.path.dirname(__file__))[0] WIDGET, BASE = uic.loadUiType( os.path.join(pluginPath, 'ui', 'widgetNumberSelector.ui')) class NumberInputPanel(BASE, WIDGET): hasChanged = pyqtSignal() def __init__(self, number, minimum, maximum, isInteger): super(NumberInputPanel, self).__init__(None) self.setupUi(self) self.spnValue.setExpressionsEnabled(True) self.isInteger = isInteger if self.isInteger: self.spnValue.setDecimals(0) else: #Guess reasonable step value if (maximum == 0 or maximum) and (minimum == 0 or minimum): self.spnValue.setSingleStep(self.calculateStep(minimum, maximum)) if maximum == 0 or maximum: self.spnValue.setMaximum(maximum) else: self.spnValue.setMaximum(99999999) if minimum == 0 or minimum: self.spnValue.setMinimum(minimum) else: self.spnValue.setMinimum(-99999999) #Set default value if number == 0 or number: self.spnValue.setValue(float(number)) self.spnValue.setClearValue(float(number)) elif minimum == 0 or minimum: self.spnValue.setValue(float(minimum)) self.spnValue.setClearValue(float(minimum)) else: self.spnValue.setValue(0) self.spnValue.setClearValue(0) self.btnCalc.setFixedHeight(self.spnValue.height()) self.btnCalc.clicked.connect(self.showExpressionsBuilder) self.spnValue.valueChanged.connect(lambda: self.hasChanged.emit()) def showExpressionsBuilder(self): context = self.expressionContext() dlg = QgsExpressionBuilderDialog(None, self.spnValue.text(), self, 'generic', context) dlg.setWindowTitle(self.tr('Expression based input')) if dlg.exec_() == QDialog.Accepted: exp = QgsExpression(dlg.expressionText()) if not exp.hasParserError(): result = exp.evaluate(context) if not exp.hasEvalError(): try: self.spnValue.setValue(float(result)) except: pass def expressionContext(self): context = QgsExpressionContext() context.appendScope(QgsExpressionContextUtils.globalScope()) context.appendScope(QgsExpressionContextUtils.projectScope()) processingScope = QgsExpressionContextScope() layers = dataobjects.getAllLayers() for layer in layers: name = layer.name() processingScope.setVariable('%s_minx' % name, layer.extent().xMinimum()) processingScope.setVariable('%s_miny' % name, layer.extent().yMinimum()) processingScope.setVariable('%s_maxx' % name, layer.extent().xMaximum()) processingScope.setVariable('%s_maxy' % name, layer.extent().yMaximum()) if isinstance(layer, QgsRasterLayer): cellsize = (layer.extent().xMaximum() - layer.extent().xMinimum()) / layer.width() processingScope.setVariable('%s_cellsize' % name, cellsize) layers = dataobjects.getRasterLayers() for layer in layers: for i in range(layer.bandCount()): stats = layer.dataProvider().bandStatistics(i + 1) processingScope.setVariable('%s_band%i_avg' % (name, i + 1), stats.mean) processingScope.setVariable('%s_band%i_stddev' % (name, i + 1), stats.stdDev) processingScope.setVariable('%s_band%i_min' % (name, i + 1), stats.minimumValue) processingScope.setVariable('%s_band%i_max' % (name, i + 1), stats.maximumValue) extent = iface.mapCanvas().extent() processingScope.setVariable('canvasextent_minx', extent.xMinimum()) processingScope.setVariable('canvasextent_miny', extent.yMinimum()) processingScope.setVariable('canvasextent_maxx', extent.xMaximum()) processingScope.setVariable('canvasextent_maxy', extent.yMaximum()) extent = iface.mapCanvas().fullExtent() processingScope.setVariable('fullextent_minx', extent.xMinimum()) processingScope.setVariable('fullextent_miny', extent.yMinimum()) processingScope.setVariable('fullextent_maxx', extent.xMaximum()) processingScope.setVariable('fullextent_maxy', extent.yMaximum()) context.appendScope(processingScope) return context def getValue(self): return self.spnValue.value() def calculateStep(self, minimum, maximum): valueRange = maximum - minimum if valueRange <= 1.0: step = valueRange / 10.0 # round to 1 significant figure return round(step, -int(floor(log10(step)))) else: return 1.0