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r_colors.py
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r_colors.py
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# -*- coding: utf-8 -*-
"""
***************************************************************************
r_colors.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. *
* *
***************************************************************************
"""
__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__ = '$Format:%H$'
import os
def checkParameterValuesBeforeExecuting(alg):
""" Verify if we have the right parameters """
if alg.getParameterValue('rules_txt') and alg.getParameterValue('rules'):
return alg.tr("You need to set either inline rules or a rules file !")
return None
def processInputs(alg):
# import all rasters with their color tables (and their bands)
# We need to import all the bands and color tables of the input rasters
rasters = alg.getParameterValue('map').split(',')
for raster in rasters:
if raster in alg.exportedLayers.keys():
continue
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 = unicode(alg.getParameterValue(alg.GRASS_REGION_EXTENT_PARAMETER))
regionCoords = region.split(',')
command = 'g.region'
command += ' -a'
command += ' n=' + unicode(regionCoords[3])
command += ' s=' + unicode(regionCoords[2])
command += ' e=' + unicode(regionCoords[1])
command += ' w=' + unicode(regionCoords[0])
cellsize = alg.getParameterValue(alg.GRASS_REGION_CELLSIZE_PARAMETER)
if cellsize:
command += ' res=' + unicode(cellsize)
else:
command += ' res=' + unicode(alg.getDefaultCellsize())
alignToResolution = alg.getParameterValue(alg.GRASS_REGION_ALIGN_TO_RESOLUTION)
if alignToResolution:
command += ' -a'
alg.commands.append(command)
def processCommand(alg):
# remove output before processCommand
output = alg.getOutputFromName('output_dir')
alg.removeOutputFromName('output_dir')
color = alg.getParameterFromName('color')
if color.value == 0:
alg.parameters.remove(color)
# Handle rules
txtRules = alg.getParameterFromName('rules_txt')
if txtRules.value:
# Creates a temporary txt file
tempRulesName = alg.getTempFilename()
# Inject rules into temporary txt file
with open(tempRulesName, "w") as tempRules:
tempRules.write(txtRules.value)
# Use temporary file as rules file
alg.setParameterValue('rules', tempRulesName)
alg.parameters.remove(txtRules)
alg.processCommand()
# re-add the previous output
alg.addOutput(output)
alg.addParameter(color)
alg.addParameter(txtRules)
def processOutputs(alg):
# Export all rasters with their color tables (and their bands)
rasters = [alg.exportedLayers[f] for f in alg.getParameterValue('map').split(',')]
output_dir = alg.getOutputValue('output_dir')
for raster in rasters:
command = u"r.out.gdal -t createopt=\"TFW=YES,COMPRESS=LZW\" input={} output=\"{}\" --overwrite".format(
raster,
os.path.join(output_dir, raster + '.tif')
)
alg.commands.append(command)
alg.outputCommands.append(command)