# -*- coding: utf-8 -*- """ *************************************************************************** r_rgb.py -------- Date : February 2016 Copyright : (C) 2016 by Médéric Ribreux Email : medspx at medspx dot fr *************************************************************************** * * * 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. * * * *************************************************************************** """ from future import standard_library standard_library.install_aliases() from builtins import str __author__ = 'Médéric Ribreux' __date__ = 'February 2016' __copyright__ = '(C) 2016, Médéric Ribreux' # This will get replaced with a git SHA1 when you do a git archive __revision__ = '$Format:%H$' def processInputs(alg): # We need to import all the bands and color tables of the input raster raster = alg.getParameterValue('input') if raster in list(alg.exportedLayers.keys()): return alg.setSessionProjectionFromLayer(raster, alg.commands) destFilename = alg.getTempFilename() alg.exportedLayers[raster] = destFilename command = 'r.in.gdal input={} output={} --overwrite -o'.format(raster, destFilename) alg.commands.append(command) alg.setSessionProjectionFromProject(alg.commands) region = str(alg.getParameterValue(alg.GRASS_REGION_EXTENT_PARAMETER)) regionCoords = region.split(',') command = 'g.region' command += ' -a' command += ' n=' + str(regionCoords[3]) command += ' s=' + str(regionCoords[2]) command += ' e=' + str(regionCoords[1]) command += ' w=' + str(regionCoords[0]) cellsize = alg.getParameterValue(alg.GRASS_REGION_CELLSIZE_PARAMETER) if cellsize: command += ' res=' + str(cellsize) else: command += ' res=' + str(alg.getDefaultCellsize()) alignToResolution = alg.getParameterValue(alg.GRASS_REGION_ALIGN_TO_RESOLUTION) if alignToResolution: command += ' -a' alg.commands.append(command) def processCommand(alg): # We need to introduce something clever: # if the input raster is multiband: export each component directly raster = alg.exportedLayers[alg.getParameterValue('input')] for color in ['red', 'green', 'blue']: alg.exportedLayers[alg.getOutputValue(color)] = color + alg.uniqueSuffix commands = ["if [ $(g.list type=rast pattern='{}.*' | wc -l) -eq \"0\" ]; then".format(raster)] commands.append(" r.rgb input={} red={} green={} blue={} --overwrite".format( raster, alg.exportedLayers[alg.getOutputValue('red')], alg.exportedLayers[alg.getOutputValue('green')], alg.exportedLayers[alg.getOutputValue('blue')] )) commands.append("fi") alg.commands.extend(commands) def processOutputs(alg): raster = alg.exportedLayers[alg.getParameterValue('input')] commands = ["if [ $(g.list type=rast pattern='{}.*' | wc -l) -eq \"0\" ]; then".format(raster)] for color in ['red', 'green', 'blue']: commands.append(" r.out.gdal -t input={} output={} createopt=\"TFW=YES,COMPRESS=LZW\" --overwrite".format( alg.exportedLayers[alg.getOutputValue(color)], alg.getOutputValue(color) )) commands.append("else") for color in ['red', 'green', 'blue']: commands.append(" r.out.gdal -t input={} output={} createopt=\"TFW=YES,COMPRESS=LZW\" --overwrite".format( '{}.{}'.format(raster, color), alg.getOutputValue(color) )) commands.append("fi") alg.commands.extend(commands)