# -*- coding: utf-8 -*- """ *************************************************************************** HypsometricCurves.py --------------------- Date : November 2014 Copyright : (C) 2014 by Alexander Bruy Email : alexander dot bruy 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__ = 'Alexander Bruy' __date__ = 'November 2014' __copyright__ = '(C) 2014, Alexander Bruy' # This will get replaced with a git SHA1 when you do a git archive __revision__ = '$Format:%H$' import os import numpy from osgeo import gdal, ogr, osr from qgis.core import QgsRectangle, QgsGeometry from processing.core.GeoAlgorithm import GeoAlgorithm from processing.core.parameters import ParameterRaster from processing.core.parameters import ParameterVector from processing.core.parameters import ParameterNumber from processing.core.parameters import ParameterBoolean from processing.core.outputs import OutputDirectory from processing.tools import raster from processing.tools import dataobjects from processing.tools import vector class HypsometricCurves(GeoAlgorithm): INPUT_DEM = 'INPUT_DEM' BOUNDARY_LAYER = 'BOUNDARY_LAYER' STEP = 'STEP' USE_PERCENTAGE = 'USE_PERCENTAGE' OUTPUT_DIRECTORY = 'OUTPUT_DIRECTORY' def defineCharacteristics(self): self.name = 'Hypsometric curves' self.group = 'Raster tools' self.addParameter(ParameterRaster(self.INPUT_DEM, self.tr('DEM to analyze'))) self.addParameter(ParameterVector(self.BOUNDARY_LAYER, self.tr('Boundary layer'), ParameterVector.VECTOR_TYPE_POLYGON)) self.addParameter(ParameterNumber(self.STEP, self.tr('Step'), 0.0, 999999999.999999, 100.0)) self.addParameter(ParameterBoolean(self.USE_PERCENTAGE, self.tr('Use % of area instead of absolute value'), False)) self.addOutput(OutputDirectory(self.OUTPUT_DIRECTORY, self.tr('Output directory'))) def processAlgorithm(self, progress): rasterPath = self.getParameterValue(self.INPUT_DEM) layer = dataobjects.getObjectFromUri( self.getParameterValue(self.BOUNDARY_LAYER)) step = self.getParameterValue(self.STEP) percentage = self.getParameterValue(self.USE_PERCENTAGE) outputPath = self.getOutputValue(self.OUTPUT_DIRECTORY) rasterDS = gdal.Open(rasterPath, gdal.GA_ReadOnly) geoTransform = rasterDS.GetGeoTransform() rasterBand = rasterDS.GetRasterBand(1) noData = rasterBand.GetNoDataValue() cellXSize = abs(geoTransform[1]) cellYSize = abs(geoTransform[5]) rasterXSize = rasterDS.RasterXSize rasterYSize = rasterDS.RasterYSize rasterBBox = QgsRectangle(geoTransform[0], geoTransform[3] - cellYSize * rasterYSize, geoTransform[0] + cellXSize * rasterXSize, geoTransform[3]) rasterGeom = QgsGeometry.fromRect(rasterBBox) crs = osr.SpatialReference() crs.ImportFromProj4(str(layer.crs().toProj4())) memVectorDriver = ogr.GetDriverByName('Memory') memRasterDriver = gdal.GetDriverByName('MEM') features = vector.features(layer) count = len(features) total = 100.0 / float(count) for count, f in enumerate(features): geom = f.geometry() intersectedGeom = rasterGeom.intersection(geom) if intersectedGeom.isGeosEmpty(): progress.setInfo( self.tr('Feature %d does not intersect raster or ' 'entirely located in NODATA area' % f.id())) continue fName = os.path.join( outputPath, 'hystogram_%s_%s.csv' % (layer.name(), f.id())) ogrGeom = ogr.CreateGeometryFromWkt(intersectedGeom.exportToWkt()) bbox = intersectedGeom.boundingBox() xMin = bbox.xMinimum() xMax = bbox.xMaximum() yMin = bbox.yMinimum() yMax = bbox.yMaximum() (startColumn, startRow) = raster.mapToPixel(xMin, yMax, geoTransform) (endColumn, endRow) = raster.mapToPixel(xMax, yMin, geoTransform) width = endColumn - startColumn height = endRow - startRow srcOffset = (startColumn, startRow, width, height) srcArray = rasterBand.ReadAsArray(*srcOffset) newGeoTransform = ( geoTransform[0] + srcOffset[0] * geoTransform[1], geoTransform[1], 0.0, geoTransform[3] + srcOffset[1] * geoTransform[5], 0.0, geoTransform[5] ) memVDS = memVectorDriver.CreateDataSource('out') memLayer = memVDS.CreateLayer('poly', crs, ogr.wkbPolygon) ft = ogr.Feature(memLayer.GetLayerDefn()) ft.SetGeometry(ogrGeom) memLayer.CreateFeature(ft) ft.Destroy() rasterizedDS = memRasterDriver.Create('', srcOffset[2], srcOffset[3], 1, gdal.GDT_Byte) rasterizedDS.SetGeoTransform(newGeoTransform) gdal.RasterizeLayer(rasterizedDS, [1], memLayer, burn_values=[1]) rasterizedArray = rasterizedDS.ReadAsArray() srcArray = numpy.nan_to_num(srcArray) masked = numpy.ma.MaskedArray(srcArray, mask=numpy.logical_or(srcArray == noData, numpy.logical_not(rasterizedArray))) self.calculateHypsometry(f.id(), fName, progress, masked, cellXSize, cellYSize, percentage, step) memVDS = None rasterizedDS = None progress.setPercentage(int(count * total)) rasterDS = None def calculateHypsometry(self, fid, fName, progress, data, pX, pY, percentage, step): out = dict() d = data.compressed() if d.size == 0: progress.setInfo( self.tr('Feature %d does not intersect raster or ' 'entirely located in NODATA area' % fid)) return minValue = d.min() maxValue = d.max() startValue = minValue tmpValue = minValue + step while startValue < maxValue: out[tmpValue] = ((startValue <= d) & (d < tmpValue)).sum() startValue = tmpValue tmpValue += step if percentage: multiplier = 100.0 / float(len(d.flat)) else: multiplier = pX * pY for k, v in out.iteritems(): out[k] = v * multiplier prev = None for i in sorted(out.items()): if prev is None: out[i[0]] = i[1] else: out[i[0]] = i[1] + out[prev] prev = i[0] writer = vector.TableWriter(fName, 'utf-8', [self.tr('Area'), self.tr('Elevation')]) for i in sorted(out.items()): writer.addRecord([i[1], i[0]]) del writer