# -*- coding: utf-8 -*- #----------------------------------------------------------- # # fTools # Copyright (C) 2008-2011 Carson Farmer # EMAIL: carson.farmer (at) gmail.com # WEB : http://www.ftools.ca/fTools.html # # A collection of data management and analysis tools for vector data # #----------------------------------------------------------- # # licensed under the terms of GNU GPL 2 # # 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. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License along # with this program; if not, write to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. # #--------------------------------------------------------------------- from PyQt4.QtCore import * from PyQt4.QtGui import * import ftools_utils from qgis.core import * from ui_frmVectorGrid import Ui_Dialog import math class Dialog(QDialog, Ui_Dialog): def __init__(self, iface): QDialog.__init__(self, iface.mainWindow()) self.iface = iface self.setupUi(self) QObject.connect(self.toolOut, SIGNAL("clicked()"), self.outFile) QObject.connect(self.spnX, SIGNAL("valueChanged(double)"), self.offset) #QObject.connect(self.inShape, SIGNAL("currentIndexChanged(QString)"), self.updateInput) QObject.connect(self.btnUpdate, SIGNAL("clicked()"), self.updateLayer) QObject.connect(self.btnCanvas, SIGNAL("clicked()"), self.updateCanvas) QObject.connect(self.chkAlign, SIGNAL("toggled(bool)"), self.chkAlignToggled) self.buttonOk = self.buttonBox_2.button( QDialogButtonBox.Ok ) self.setWindowTitle(self.tr("Vector grid")) self.xMin.setValidator(QDoubleValidator(self.xMin)) self.xMax.setValidator(QDoubleValidator(self.xMax)) self.yMin.setValidator(QDoubleValidator(self.yMin)) self.yMax.setValidator(QDoubleValidator(self.yMax)) self.populateLayers() def populateLayers( self ): self.inShape.clear() layermap = QgsMapLayerRegistry.instance().mapLayers() for name, layer in layermap.iteritems(): self.inShape.addItem( unicode( layer.name() ) ) def offset(self, value): if self.chkLock.isChecked(): self.spnY.setValue(value) def updateLayer( self ): mLayerName = self.inShape.currentText() if not mLayerName == "": mLayer = ftools_utils.getMapLayerByName( unicode( mLayerName ) ) # get layer extents boundBox = mLayer.extent() # if "align extents and resolution..." button is checked if self.chkAlign.isChecked(): if not mLayer.type() == QgsMapLayer.RasterLayer: QMessageBox.information(self, self.tr("Vector grid"), self.tr("Please select a raster layer")) else: dx = math.fabs(boundBox.xMaximum()-boundBox.xMinimum()) / mLayer.width() dy = math.fabs(boundBox.yMaximum()-boundBox.yMinimum()) / mLayer.height() self.spnX.setValue(dx) self.spnY.setValue(dy) self.updateExtents( boundBox ) def updateCanvas( self ): canvas = self.iface.mapCanvas() boundBox = canvas.extent() # if "align extents and resolution..." button is checked if self.chkAlign.isChecked(): mLayerName = self.inShape.currentText() if not mLayerName == "": mLayer = ftools_utils.getMapLayerByName( unicode( mLayerName ) ) if not mLayer.type() == QgsMapLayer.RasterLayer: QMessageBox.information(self, self.tr("Vector grid"), self.tr("Please select a raster layer")) else: # get extents and pixel size xMin = boundBox.xMinimum() yMin = boundBox.yMinimum() xMax = boundBox.xMaximum() yMax = boundBox.yMaximum() boundBox2 = mLayer.extent() dx = math.fabs(boundBox2.xMaximum()-boundBox2.xMinimum()) / mLayer.width() dy = math.fabs(boundBox2.yMaximum()-boundBox2.yMinimum()) / mLayer.height() # get pixels from the raster that are closest to the desired extent newXMin = self.getClosestPixel( boundBox2.xMinimum(), boundBox.xMinimum(), dx, True ) newXMax = self.getClosestPixel( boundBox2.xMaximum(), boundBox.xMaximum(), dx, False ) newYMin = self.getClosestPixel( boundBox2.yMinimum(), boundBox.yMinimum(), dy, True ) newYMax = self.getClosestPixel( boundBox2.yMaximum(), boundBox.yMaximum(), dy, False ) # apply new values if found all min/max if newXMin is not None and newXMax is not None and newYMin is not None and newYMax is not None: boundBox.set( newXMin, newYMin, newXMax, newYMax ) self.spnX.setValue(dx) self.spnY.setValue(dy) else: QMessageBox.information(self, self.tr("Vector grid"), self.tr("Unable to compute extents aligned on selected raster layer")) self.updateExtents( boundBox ) def updateExtents( self, boundBox ): self.xMin.setText( unicode( boundBox.xMinimum() ) ) self.yMin.setText( unicode( boundBox.yMinimum() ) ) self.xMax.setText( unicode( boundBox.xMaximum() ) ) self.yMax.setText( unicode( boundBox.yMaximum() ) ) def accept(self): self.buttonOk.setEnabled( False ) if self.xMin.text() == "" or self.xMax.text() == "" or self.yMin.text() == "" or self.yMax.text() == "": QMessageBox.information(self, self.tr("Vector grid"), self.tr("Please specify valid extent coordinates")) elif self.outShape.text() == "": QMessageBox.information(self, self.tr("Vector grid"), self.tr("Please specify output shapefile")) else: try: boundBox = QgsRectangle( float( self.xMin.text() ), float( self.yMin.text() ), float( self.xMax.text() ), float( self.yMax.text() ) ) except: QMessageBox.information(self, self.tr("Vector grid"), self.tr("Invalid extent coordinates entered")) xSpace = self.spnX.value() ySpace = self.spnY.value() if self.rdoPolygons.isChecked(): polygon = True else: polygon = False self.outShape.clear() self.compute( boundBox, xSpace, ySpace, polygon ) addToTOC = QMessageBox.question(self, self.tr("Generate Vector Grid"), self.tr("Created output shapefile:\n%1\n\nWould you like to add the new layer to the TOC?").arg(unicode(self.shapefileName)), QMessageBox.Yes, QMessageBox.No, QMessageBox.NoButton) if addToTOC == QMessageBox.Yes: ftools_utils.addShapeToCanvas( self.shapefileName ) self.populateLayers() self.progressBar.setValue( 0 ) self.buttonOk.setEnabled( True ) def compute( self, bound, xOffset, yOffset, polygon ): crs = self.iface.mapCanvas().mapRenderer().destinationSrs() if not crs.isValid(): crs = None if polygon: fields = {0:QgsField("ID", QVariant.Int), 1:QgsField("XMIN", QVariant.Double), 2:QgsField("XMAX", QVariant.Double), 3:QgsField("YMIN", QVariant.Double), 4:QgsField("YMAX", QVariant.Double)} check = QFile(self.shapefileName) if check.exists(): if not QgsVectorFileWriter.deleteShapeFile(self.shapefileName): return writer = QgsVectorFileWriter(self.shapefileName, self.encoding, fields, QGis.WKBPolygon, crs) #writer = QgsVectorFileWriter(outPath, "CP1250", fields, QGis.WKBPolygon, None) else: fields = {0:QgsField("ID", QVariant.Int), 1:QgsField("COORD", QVariant.Double)} check = QFile(self.shapefileName) if check.exists(): if not QgsVectorFileWriter.deleteShapeFile(self.shapefileName): return writer = QgsVectorFileWriter(self.shapefileName, self.encoding, fields, QGis.WKBLineString, crs) #writer = QgsVectorFileWriter(unicode(outPath), "CP1250", fields, QGis.WKBLineString, None) outFeat = QgsFeature() outGeom = QgsGeometry() idVar = 0 self.progressBar.setRange( 0, 0 ) if not polygon: y = bound.yMaximum() while y >= bound.yMinimum(): pt1 = QgsPoint(bound.xMinimum(), y) pt2 = QgsPoint(bound.xMaximum(), y) line = [pt1, pt2] outFeat.setGeometry(outGeom.fromPolyline(line)) outFeat.addAttribute(0, QVariant(idVar)) outFeat.addAttribute(1, QVariant(y)) writer.addFeature(outFeat) y = y - yOffset idVar = idVar + 1 x = bound.xMinimum() while x <= bound.xMaximum(): pt1 = QgsPoint(x, bound.yMaximum()) pt2 = QgsPoint(x, bound.yMinimum()) line = [pt1, pt2] outFeat.setGeometry(outGeom.fromPolyline(line)) outFeat.addAttribute(0, QVariant(idVar)) outFeat.addAttribute(1, QVariant(x)) writer.addFeature(outFeat) x = x + xOffset idVar = idVar + 1 else: y = bound.yMaximum() while y >= bound.yMinimum(): x = bound.xMinimum() while x <= bound.xMaximum(): pt1 = QgsPoint(x, y) pt2 = QgsPoint(x + xOffset, y) pt3 = QgsPoint(x + xOffset, y - yOffset) pt4 = QgsPoint(x, y - yOffset) pt5 = QgsPoint(x, y) polygon = [[pt1, pt2, pt3, pt4, pt5]] outFeat.setGeometry(outGeom.fromPolygon(polygon)) outFeat.addAttribute(0, QVariant(idVar)) outFeat.addAttribute(1, QVariant(x)) outFeat.addAttribute(2, QVariant(x + xOffset)) outFeat.addAttribute(3, QVariant(y - yOffset)) outFeat.addAttribute(4, QVariant(y)) writer.addFeature(outFeat) idVar = idVar + 1 x = x + xOffset y = y - yOffset self.progressBar.setRange( 0, 100 ) del writer def outFile(self): self.outShape.clear() ( self.shapefileName, self.encoding ) = ftools_utils.saveDialog( self ) if self.shapefileName is None or self.encoding is None: return self.outShape.setText( QString( self.shapefileName ) ) def chkAlignToggled(self): if self.chkAlign.isChecked(): self.spnX.setEnabled( False ) self.lblX.setEnabled( False ) self.spnY.setEnabled( False ) self.lblY.setEnabled( False ) else: self.spnX.setEnabled( True ) self.lblX.setEnabled( True ) self.spnY.setEnabled( not self.chkLock.isChecked() ) self.lblY.setEnabled( not self.chkLock.isChecked() ) def getClosestPixel(self, startVal, targetVal, step, isMin ): foundVal = None tmpVal = startVal # find pixels covering the extent - slighlyt inneficient b/c loop on all elements before xMin if targetVal < startVal: backOneStep = not isMin step = - step while foundVal is None: if tmpVal <= targetVal: if backOneStep: tmpVal -= step foundVal = tmpVal tmpVal += step else: backOneStep = isMin while foundVal is None: if tmpVal >= targetVal: if backOneStep: tmpVal -= step foundVal = tmpVal tmpVal += step return foundVal